DE1021480B - Cover for the aluminum base of electric light bulbs - Google Patents

Description

Coating for aluminum bases of electric light bulbs With the introduction of aluminum as a material for incandescent lamp bases a problem arose that the continued use of aluminum in industry has been questioned. Within a few weeks after installation, one with an aluminum base will corrode Lamp in a brass or aluminum alloy socket to such an extent that it is difficult to take the lamp out again. Achieved within a few months the corrosion the degree at which the lamp practically no longer comes out of the socket can be removed. When used in an environment of high humidity, Acid or similar ionic atmospheres, such as salty mist, accelerate the occurrence of corrosion still to a considerable extent.

The corrosion of lamp bases made of aluminum is explained by the galvanic effect between aluminum and the metal of the base when present an electrolyte, e.g. B. Carbonic acid (H, C03), in the atmosphere, caused by the Combination of water vapor and carbon dioxide in the air is created.

Apart from the problem of corrosion, aluminum has the characteristic Ability to rub against another metal surface or with resistance slide, so that, for example, the metal threads of an aluminum base clamp the threads of the metal frame. This appearance has the characteristic The result is the noise that occurs when two unlubricated surfaces are loaded will.

It has therefore proven desirable on aluminum lamp bases to apply a film that is both lubricating and corrosion-resistant Forms coating. Such a coating or film may improve the adhesive strength of the solder on the metal base does not affect when the lead wires of the lamp are on be soldered to the casing of the lamp base and to the ground contact.

In addition, he can test the adhesive strength of the marking ink and the binding agent (Cement), and finally the film must not discolour the Cause metal.

Because the holding heads are from the manufacture or completion of the incandescent lamps Serving machines or automats necessarily part of the lamp base cover and do not have to rotate these heads during transport from station to station, is the application of a corrosion-resistant film to the lamp caps in such Machines associated with difficulties. It also requires the attachment of films complicated changes at this stage in the manufacturing or manufacturing process both in the system and in the process. It is therefore useful to attach the coating to the To produce lamp bases in an earlier stage of the manufacturing process. the Use of water or aqueous solution as a treatment agent in the hitherto customary process for the production of metallic feet makes it desirable water is also used when the corrosion-resistant coating is applied to the lamp base or to use an aqueous solution as the treatment agent. A concentrate consisting from hydrogenated sperm whale oil (a white solid that is more like wax at room temperature Consistency, soluble in toluene and hot trichlorethylene with a melting point at 52.2 ° C) was dissolved in toluene and mixed with a wetting agent that consists of a 25 °! #Oigen aqueous solution of sodium heptadecyl sulfate consists. By physical Mixing this solution with water results in an emulsion in which the hydrogenated Sperm whale oil in your water in the form of small globules covered with the wetting agent is suspended.

Although this emulsion is permanently stable, the toluene is both at Storage as when using the emulsion is explosive. The hydrogenated sperm whale oil leaves a discontinuous film on the metallic surface. Interruptions of the protective coating, which are not visible to the naked eye, form a source galvanic corrosion under the conditions listed above.

According to the present invention is used as a coating for aluminum bases from electric light bulbs an aqueous emulsion of sperm whale oil and one per se known wetting agent consisting of a reaction product of isoctylphenol or Nonylphenol with Ethylene oxide used. Corrosion protection coatings from sperm oil in connection with a wetting agent are known per se for other purposes.

It was found that the protective film on the metal surface is readily soluble in toluene for the first 24 hours after its generation and easily re-emulsified with water and washed off the metal surface can be.

During the initial stage, binders (cement), marking ink remain and solder does not adhere to the coating film of the metal base. During the first The film, which is in contact with air, reacts for 24 hours, changing it chemical nature with oxygen. After 24 hours, the film is no longer soluble in toluene and becomes water-repellent. Also, after this 24-hour period the cement pre-filling of the metal base, the marking with ink and soldering of the lead wires can be done without difficulty.

A metal part that is dipped in a sperm oil emulsion of the type mentioned is given a coating that is corrosion-resistant and has a high level of lubricity owns. After the first 24 hours, the film overlay allows the coated metal base, marking it with ink and soldering the lead wires.

The invention is illustrated by a few examples. A lamp base made of aluminum should be provided with a protective coating. An emulsion of a Concentrate of sperm whale oil, a suitable wetting or coating agent and water is used to produce the coating on the lamp cap, for example by dipping the same, used.

The sperm whale oil for the purpose of the invention is preferably a bleached, Overwintered oil of light yellow color using that in toluene and hot trichlorethylene is solvable. The oil should be free of moisture and clear. It's supposed to have a viscosity SSL 'at 38 ° C, 98.6 seconds (20.3 eSt), a specific gravity of 0.9, a Ignition point of 262.8 ° C, a flash point of 307.2C, acid number 0.5 maximum, a saponification value of 132 to 138, an iodine value of 82 to 92, the start of crystallization (Cloud point) at 3.3-'C: maximum and has a density of 0.899 kg per liter.

Has a coating or wetting agent in the emulsion according to the invention the ability to mix oil with water or water with oil due to its hydrophobic nature and hydrophilic dual nature. A hydrophobic substance is usually readily soluble in oil, however, insoluble or poorly soluble in water. On the other hand, has a hydrophilic Substance has high water solubility and is generally insoluble in compounds that contain mostly oil. Useful coating or wetting agents combine both Functions in varying degrees.

The preferred coating or wetting agent is derived from the same hydrophobic starting material isoctylphenol and differs only in the amount of hydrophilic substance, ethylene oxide, combined with isoctylphenol. The chemical structure of the coating or wetting agent is that of polyoxyethylene-substituted isoctylphenol, shown in the reaction formula below Polyoxyethyl-substituted isoctylphenol (n. Means the number of moles of ethylene oxide) According to the invention, the number n. Is preferably equal to 8 -or-a ratio of 8/111 ethylene oxide to 1 mole of isoctylphenol.

During the production of the concentrate, the measuring devices, the stirring system and the mixing vessels are absolutely free of water. For example, it becomes 9,463 1 sperm whale oil in the mixing vessel put 0.275l coating or wetting agent. The sperm whale oil and the wetting agent are stirred for about 5 minutes until the materials are well mixed yielding 9.7381 sperm oil concentrate (approximately 96.9 percent by volume of sperm whale oil).

Other useful ratios of sperm whale oil to wetting agent are given in Table 1 below: Table I. Volume- value percentage Volume volume total des to wetting agent to sperm oil volume of sperm whale oil (Liters (liter) (liter) in the Concentrates 0.250 9.463 9.713 97.2 0.275 9.463 9.738 96.9 0.300 9.463 9.763 96.4 Accordingly, a useful sperm whale oil concentrate has 96.4 to 97.2 percent by volume of sperm whale oil and coating or wetting agent in equilibrium (3.6 to 2.8 percent by volume).

The final volume of sperm whale oil concentrate required for the sperm whale oil emulsion depends on the volume of the mixing vessel. For example 2371 tap water are poured into a vessel of suitable capacity. Then the 9.7381 concentrate are slowly added and the mixture in presence stirred by air until the desired emulsion is obtained. The resulting amount of 2461 stable emulsion (with 4 percent by volume of sperm oil concentrate) has milk white Color and foams easily.

The aqueous solution can be 0.010 percent by volume of a deodorant Connection to be added. A high-boiling ester-oil compound, applied in fish oil or fish soap, was found to be satisfactory.

Table II below gives useful sperm whale oil concentrate to water ratios for producing a sperm whale oil emulsion according to the invention. Table II Volume percent by volume in volume total des Spermcval Oil in Water Volume Concentrate concentrate (liter) of emulsion of sperm oil (Liter; (liter emulsion 2.46 243.54 246 1 9.738 236.262 246 4 19.6 226.4 246 8 27.0 219.0 246 11 36.8 209.2 246 15 Thus, the sperm whale oil emulsion is kept in the range from 1 to 15 percent by volume of sperm whale oil concentrate with an amount of water corresponding to the equilibrium.

It has been found that by using an alternative coating or wetting agent which is highly hydrophilic and practically insoluble in oil, the coating on the metallic part has high strength and is water repellent immediately after application. The chemical structure of this alternative coating or wetting agent is that of a polyoxyethyl-substituted nonylphenol according to the following reaction formula: Polyoxyethyl-substituted nonylphenol (ra means the number of moles of ethylene oxide) According to the invention, this number is preferably chosen to be equal to 10 or a ratio of 10 moles of ethylene oxide to 1 mole of nonylphenol.

An emulsion with this type of wetting agent can be different Kind be won. Approximately 45 grams (38.4 cc) of the solid wetting or coating agent Approximately 3.7851 of tap water are added and the mixture (3.785 -; - 0.038 = 3.8231) heated to about 75C to dissolve the wetting or coating agent. About 0.4631 sperm whale oil is then added to the solution and the mixture is poured into one at high speed, e.g. B. 1500 rpm, working: mixer given to produce 13.2861 sperm whale oil concentrate (with approximately 72.5 percent by volume of sperm whale oil).

Table III below shows other ratios of wetting agent to water. Table III Volume Volume Total volume percent of water volume Wetting agent (liter) (liter) wetting agent (Liter) 0.034 3.785 3.819 0.89 0.038 3.785 3.823 0.99 0.042 3.785 3.827 1.05 Table IV below gives other mixing ratios of sperm whale oil to coating or wetting agent. Table IV Volume Volume Total volume percent in water volume volume in volume percentage wetting agent (liter) of sperm whale oil in concentrate wetting agent in sperm whale oil (Liter) (liter) 0.034 3.785 9.463 13.282 0.256 72.2 0.038 3.785 9.463 13.286 0.286 72.5 0.042 3.785 9.463 13.290 0.316 72.8 Thus, a satisfactory sperm whale oil concentrate contains 72.2 to 72.8 percent by volume of sperm whale oil with an equilibrium amount of wetting or coating agent.

A satisfactory sperm whale oil emulsion with a volume percentage of the alternatively indicated sperm whale oil concentrate of 1 to 15 % and water in equilibrium can also be obtained according to Table II above. A further embodiment of the invention consists in the use of agents which accelerate the reaction between oxygen and the emulsion residue or protective film which remains as a result of the aforementioned treatment. This oil film is measured for a period of at least 24 hours and replaced by solvents, e.g. B. toluene, easily removable and can be re-emulsified with water. It also has the undesirable characteristic odor of fish oil when not deodorized.

According to the invention, this period of 24 hours can be shortened in two different ways. In one method, the coated metal part is heated in air to a temperature of approximately 200 ° C (a temperature lower than the ignition point of the sperm whale oil or the wetting agent) for 15 minutes.

According to the second method, the concentrate is made by adding a catalyst or accelerator, which has the task of accelerating the oxidation and the residue of the emulsion on the metal parts at ordinary temperatures or the achievement of this goal at 200 ° C in about 100 seconds to realize.

The catalyst can be an organic metal compound, for example an iron, cobalt, manganese, zinc or lead compound of naphthenic acid or linoleic acid. Mixtures of two or more of these substances can be used. The one with The film created on the metal part with the help of a catalyst becomes permanent in a short time and indelible; it is immediately completely water-repellent and resilient against galvanic corrosion. It doesn't have that unwanted fish oil odor. These Properties are very valuable when applying the protective film. they allow the use of aluminum in cases where previously only brass was normally used could be. This expansion of the use of aluminum means a saving on expensive metals such as copper and zinc.

Such a fortified concentrate is z. B. won in the way that 9.4631 sperm whale oil and 0.1181 of the catalyst, e.g. B. iron naphthenate, mixed together. The mixture is expediently heated to about 150 ° C; then become the mix 0.2751 of the polyoxyethylene-substituted isoctylphenol wetting or coating agent added. The concentrate produced in this way is then poured into the prescribed amount of water (as in the preferred embodiments of the Table 1I explains, so for example 2371 water) introduced; the resulting Emulsion is used to create the coating on metal parts. To mention is that the metal parts are preferably heated to a temperature by hot water or steam brought to 100 ° C or more and then immersed in the emulsion at room temperature or otherwise coated with the emulsion.

For the immersion process, the metal parts are immersed in hot Water prepared at 80 to 90 ° C. After the excess hot water has run off the metal parts are immersed in the sperm whale oil emulsion which is at a temperature is maintained at about 70 ° C. The metal parts are then allowed to drain off and for about 100 seconds in a suitable dryer (vibration or rotary dryer) at a temperature of, for example, 180 dry up to 200 ° C, to make them free of water.

The sperm whale oil emulsion according to the invention can be tested by one z. B. 500 cc of the emulsion heated to 70 ° C, divided into degrees Introduces a measuring cylinder of 1000 ccm and with constant stirring at about 30 ccm concentrated sulfuric acid mixes. After about 4 minutes a layer of sperm whale oil should be applied consist of not more than 20 cc and not less than 5 cc. When the oil layer is more than 20 ccm, an appropriate amount of water must be added to the emulsion. If the oil layer is less than 5 cc, there is an equivalent amount of sperm whale oil to add to the emulsion.

The quality check of the metal coating is carried out in the following way Approximately 100 ccm of tap water and 7 g of mercury chloride are heated to 80 ° C, to get a perfect solution. After the mercury chloride solution has cooled down the test specimen is completely immersed in this solution at room temperature. The test specimen is then removed from the solution and placed on a surface with the closed part down and the open end up.

The test is done after the test specimen lasts for about 10 minutes was left in this position. A sufficiently coated test specimen shows only black spots. Prove gray areas or spots on the test specimen, that corrosion or direct attack on unprotected metal has taken place and that the coating produced is insufficient.

Claims (6)

PATENT CLAIMS: 1. Use of an aqueous emulsion of sperm whale oil and a wetting agent known per se, consisting of a reaction product of Isoctylphenol or nonylphenol with ethylene oxide, as a coating for aluminum bases of electric light bulbs. 2. Application according to claim 1, characterized in that that the wetting agent contains 1 mole of isoctylphenol per 8 moles of Äthylenoxv d. 3. Application according to claim 1, characterized in that the wetting agent 1 mole of nonylphenol and Contains 10 moles of ethylene oxide. 4. Application according to claim 1, 2 or 3, characterized in that that the emulsion contains a sperm whale oil concentrate, which consists of sperm whale oil and wetting agent in the order of 1 to 15 percent by volume as well as from equilibrium corresponding amount of water. 5. Use according to claim 1 to 4, characterized characterized in that the sperm whale oil concentrate is on the order of 96.4 to 97.2 percent by volume and an amount of wetting agent corresponding to the equilibrium contains. 6. Use according to claim 1 to 5, characterized in that the sperm whale oil concentrate Sperm whale oil and one or more catalysts from the group of naphthanates or Contains linoleates of iron, cobalt, manganese, zinc and lead. Considered U.S. Patent Nos. 2,485,150, 2,545,138.