DE3506766A1 - Wiper blade - Google Patents

Abstract

A wiper blade is disclosed which is produced by forming a wiper blade matrix from ethylene-propylene copolymer (EPM) or ethylene-propylene-diene copolymer (EPDM) and fluorinating the wiper blade matrix, which has the effect that fluorine atoms are bound to the carbon atoms of the copolymer in the surface layer of the wiper blade matrix. The wiper blade has a low coefficient of friction and is distinguished by its resistance to aging, ozonisation, chemicals, wear and permanent deformation.

Description

description

The invention relates to a wiper blade for wiping the windshield a vehicle, such as an automobile, a tram, or an airplane.

The wiper blade, which is used for vehicles, is said to be water droplets, Wipe snow, etc. from the windshield surface by sliding on the windshield surface. It is therefore necessary to wipe evenly on the windshield by pressing it uniformly against the windshield and to work smoothly and avoid creating unwanted noise through education a low frictional resistance.

It was therefore common for the wiper blade to be made of natural rubber, synthetic rubber such as chloroprene rubber, thermoplastic elastomer such as Urethane type elastomer or synthetic resin such as polyethylene to form on the wiper blade to transmit an elasticity that is high enough that the wiper blade slides evenly over the windshield and at the same time the surface of the To subject the wiper blade to a treatment of chlorination or bromination, thereby causing the chlorine atoms or bromine atoms to adhere to the carbon atoms be bound in the main chain of the rubber or elastomer and the frictional resistance is humiliated.

However, the treatment of chlorination or bromination is not suitable to reduce the frictional resistance sufficiently. In particular is the C-Cl bond or C-Br bond is chemically unstable and is easily exposed to heat, Water, ultraviolet light, ozone, oxygen, or chemicals to remove Cl or Br dissolved.

The usual wiper blade is therefore inadequate in terms of resistance against environmental conditions and loses the effectiveness as a wiper blade within short time.

For example, when treating the chlorination to a high degree is carried out for the purpose of lowering frictional resistance and improving it the service life, the disadvantage is that cracks easily develop on the surface, the resistance against permanent deformation is reduced and remains on the surface a streak trail after wiping, which reduces the wiping properties.

It is known that ethylene-propylene copolymer (referred to here as EPM) and ethylene-propylene-diene copolymer (referred to as EPDM here) which is obtained by adding a small amount of a diene compound to EPM to improve the Vulcanizability, have a remarkable quality in the Resistance to aging, ozone, chemicals, water and permanent deformation. The above-mentioned problems can therefore be solved if EPM or EPDM is used can be used as a material for the wiper blade.

Because EPM and EPDM are saturated organic high molecular compounds are that do not have a double bond in the main chain, they do not form C-Cl bonds, nor C-Br bonds, even if they are treating the chlorination or bromination be subjected.

The present invention has been accomplished through investigation the fact that fluorine is extremely active and against the hydrogen atom of the C-H bond is replaced to form a C-F bond.

According to the invention, a wiper blade is provided by molding a wiper blade matrix made of ethylene-propylene copolymer (EPM) or ethylene-propylene-diene copolymer (EPDM) and fluorinating the wiper blade matrix, which causes that the fluorine atoms to the carbon atoms of the above-mentioned copolymer in the Surface layer of the wiper blade matrix are bound.

The object of the invention is therefore to create a wiper blade, which has a low coefficient of friction and excellent durability against aging, ozone, chemicals, wear and tear and permanent deformation.

A preferred embodiment of the invention is described in connection with concrete experiments.

A method for making a wiper blade is disclosed in accordance with of the present invention.

First, a wiper blade matrix of a prescribed shape is selected EPM or EPDM molded as material. Then the wiper blade matrix thus produced fluorinated so that fluorine atoms are attached to the carbon atoms that make up the main chain of the saturated organic high molecular compound (EPM or EPDM) in the surface layer of the wiper blade matrix.

In the EPM used in this way, the ethylene content is in the range of 75 to 50% by weight and the propylene content in the range from 25 to 50% by weight. In which EPDM are the ethylene and propylene contents in the ranges mentioned above and the The diene content is in a very small proportion. The fluorination can be carried out are in the form of a gas phase reaction or a liquid phase reaction. The gas phase reaction can be done by making the wiper blade matrix right after the molding step an atmosphere composed of fluorine gas only, an atmosphere composed of fluorine gas mixed with a small amount of oxygen gas or an atmosphere made by Dilute fluorine gas or a mixture of fluorine gas and a small amount Exposed to oxygen gas with an inert gas such as helium, argon, or nitrogen will. The reaction in this process takes place at a fluorine concentration of 5 to 100%, preferably about 10%, at a temperature in the range from 0 ° to 1000C. A particularly high fluorine concentration is undesirable because it can easily crack Surface of the wiper blade arise. As a means to the liquid phase treatment the method which involves dipping a matrix of wiper blades can be used directly after the molding step into a fluorine-containing solvent obtained is comprised by dispersing fluorine gas in, for example, perfluorohexane.

To promote fluorination, treatment can be through either one of the methods described above can be carried out with irradiation from ultraviolet light or other rays. On the other hand, the treatment can too be carried out in combination with a treatment using plasma.

In the wiper blade according to the invention as described above was obtained, the surface layer portion is substantially completely fluorinated.

Some examples are now shown to follow the wiper blade of the present invention with a conventional wiper blade in various properties to compare.

Example 1 Wiper blade matrices for an automobile became different Formed from EPM and EPDM as starting material and in a gas mixture of 90% (based on volume) nitrogen and 10% fluorine fluorinated at 400C for 40 minutes Obtain wiper blades according to the invention.

Separately, a wiper blade matrix was molded from natural Rubber and chlorinated to make a common wiper blade.

With regard to the wiper blades of the present invention and the In the conventional wiper blade thus prepared, a wiping life test was carried out and the coefficient of friction was measured. The results are in Table 1 shown.

The description of the wipe life test is as follows: One sample Wiper blade 100 mm long was moved back and forth on a flat sheet glass at 45 strokes per minute, the conditions being 155 g arm pressure and 150 mm stop length, with one 5 minute cycle that consisted of Water spray for 4 minutes and no water spray for one minute. The coefficient of friction (µ) was measured on the sample in the dry state. In Table 1, A means that usual wiper blade with the chlorination of natural rubber, B the wiper blade with fluorination of EPDM and C the wiper blade with fluorination of EPM.

Table 1 coefficient of friction (µ) Number of leaf movements | AB | C. 0 0.75 0.44 0.45 10,000 1.54 0.44-0.46 50,000 1.96 0.45 0.46 100,000 1.99 0.48 0.50 300,000 2.01 0.65 0.72 500,000 2.04 0.91 1.01 Table 1 shows that the wiper blades according to the invention show extremely low coefficients of friction (μ) for all indicated steps between 0 and 500,000 reciprocating strokes of the life test, compared with the conventional wiper blade.

The result shows that they have a life span many times is longer than the service life of the usual wiper blade.

Example 2 As in Example 1, wiper blades according to the present Invention made using EPM and EPDM as starting materials and performing fluorination, and a conventional wiper blade was prepared using natural rubber as a raw material and performing chlorination.

These wiper blades were tested with a cut body on theirs Service life, measured by the amount of abrasion (mm3) per unit length (1 cm). The results are shown in Table 2.

In the cut body wipe life test, a sample becomes a wiper blade 450 mm long with 45 strokes per minute and with 700 g arm pressure back and forth agitates water for 4 minutes in a 5 minute cycle that consists of this to spray, do not spray water for 0.5 minutes and 0.5 minutes without propulsion. In Table 2, A to C have the same meanings as described above.

Table 2 Amount of abrasion (mm3 / cm) Length of life a B to C 50 h 0.110 0.049 0.053 100 h 0.217 0.082 0.090 150 h 0.302 0.107 0.115 200 h 0.406 0.164 0.180 It can be seen from Table 2 that the amount of abrasion of the wiper blades according to the invention after 200 test hours was essentially the same as the amount of abrasion of the conventional wiper blade after 50 test hours. The results show that the wiper blades according to the invention using fluorination are superior to the conventional wiper blade using chlorination in terms of abrasion resistance.

Example 3 As in Example 1, wiper blades were made according to the invention made by molding wiper blade matrices, each from EPM and EPDM and Fluorination of these wiper blade matrices and a conventional wiper blade were prepared by forming a wiper blade matrix from natural rubber and chlorinating the wiper blade. These wiper blades were tested for weather fastness with a sunshine weatherometer. They were then tested for wiper life. The results are in the table 3 shown.

During the weather test with the sunshine weathering apparatus, a sample of the wiper blade is allowed to stand for 48 hours at a temperature before a black wall of 63 + 30C with 120 minutes of irradiation and 18 minutes of spraying in every cycle, followed by the JIS B7753 method (Sunshine Weathering Test of the carbon arc type) with necessary modifications. In Table 3, A to C has the same meanings as given above.

Table 3 Coefficient of friction after the weathering test (y) Number of leaf movements ABC 0 1.10 0.45 0.45 10,000 1.75 0.45 0.46 50,000 2.05 0.45 0.46 100,000 2.07 0.48 0.50 300,000 2.07 0.66 0.69 500,000 2.08 0.90 1.01 It can be seen from Table 3 that, even after the weathering test, the wiper blades, which are obtained using saturated organic high molecular weight compounds and fluorination, show essentially the same coefficients of friction as before the test. The results show that the wiper blades of the invention are superior to the conventional wiper blade in terms of weather resistance.

Example 4 As in Example 1, wiper blades were made according to the present invention Invention made using EPM and EPDM as starting materials and fluorination and a common wiper blade was made under Use of natural rubber and chlorination.

These wiper blades were stretched 120% of the length original length, left to stand in an atmosphere kept at 400C was with an ozone concentration of 50 ppm. After standing, they became visual judged for the appearance of cracks. The results are shown in Table 4. In Table 4, A to C have the same meanings as given above.

Table 4 Occurrence of cracks Type of Wiper ABC leaf Occurrence A large No crack No crack from cracks crack was created was created even after even after r even after 96 hours 2000 hours 2000 hours leave the standing standing standing let leave It can be seen from Table 4 that the wiper blades obtained by using EPM and EPDM and performing fluorination are superior to the conventional wiper blade in terms of resistance to ozone.

Example 5 As in Example 1, wiper blades were made according to the invention manufactured using EPM and EPDM as starting materials, respectively Performing a fluorination and a standard wiper blade was made under Using natural rubber and performing chlorination. Regarding this A permanent set test was carried out by removing the wiper blades from the wiper blades with a weight of 15.5 kg / cm at 1000 ° C. for 72 hours.

The results are shown in Table 5. In Table 5, A through C has the same meanings as given above.

Table 5 Angle of permanent deformation Type of wiper blade 4 A; BC Deformation angle 520 220 100 It can be seen from Table 5 that the wiper blades of the invention are extremely good in terms of resistance to permanent deformation as compared with the conventional wiper blade.

As described above, the present invention provides a wiper blade by forming a wiper blade matrix from EPM or EPDM and fluorinating the wiper blade matrix, through which causes the fluorine atoms by substitution on the carbon atoms that forming the main chain of EPM or EPDM. The wiper blade produced in this way therefore shows a remarkably small coefficient of friction and is excellent in the resistance to aging, abrasion, ozone and permanent deformation and in terms of weather resistance compared to the usual wiper blade.

Claims (10)

Claims 1. A wiper blade made by molding a wiper blade matrix made of ethylene-propylene-copolymer (EPM) or ethylene-propylene-diene copolymer (EPDM) and fluorinating this wiper blade matrix, thereby causing the fluorine atoms to the carbon atoms of the copolymer in the surface layer of the wiper blade matrix be bound. 2. Wiper blade according to claim 1, d a d u r c h g e k e n n z e i c Note that the fluorination is carried out in an atmosphere containing fluorine gas will. 3. Wiper blade according to claim 2, d a d u r c h g e k e n n z e i c Note that the atmosphere containing fluorine gas is an atmosphere made up only of fluorine gas is formed, an atmosphere in which fluorine gas is mixed with a small amount of oxygen gas is mixed or an atmosphere obtained by diluting one of the two above-mentioned atmospheres with an inert gas. 4. Wiper blade according to claim 1, d a d u r c h g e k e n n z e i c It should be noted that the fluorination is carried out at a fluorine concentration in the range from 5 to 100%. 5. Wiper blade according to claim 4, d a d u r c h g e k e n n z e i c Note that the fluorine concentration is about 10%. 6. Wiper blade according to claim 1, d a d u r c h g e k e n n z e i c It should be noted that the fluorination is carried out at a temperature in the range of 0 ° to 1000C. 7. Wiper blade according to claim 6, d a d u r c h g e k e n n z e i c Note that the temperature is around 400C. 8. Wiper blade according to claim 1, d a d u r c h g e k e n n z e i c n e t that the fluorination is carried out in a fluorine-containing solvent, which is produced by dispersing fluorine gas in a solvent. 9. Wiper blade according to claim 8, d a d u r c h g e k e n n z e i c Note that the solvent is perfluorohexane. 10. Wiper blade according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the ethylene-propylene copolymer has an ethylene content in the range of 75 to 50% by weight and a propylene content in the range of 25 to 50% by weight.