JPH0464680A - Resin parts for wire type window regulator - Google Patents

Abstract

PURPOSE:To improve the extent of abrasion resistance and rigidity by producing a pellet in adding an organic filler to base resin as much as a quantity within the specified range, and forming this pellet in both input and vertical directions acting on the parts. CONSTITUTION:Base resin uses copolymer type polyacetal obtained by means of chaotin polymerization of cyclic ester such as trioxane and ethylene oxide, etc. Then, a pellet is produced in adding alamide resin to the base resin as much as 5-50wt.% as an organic filler and mixed. Next, when a resin part cable guide is made out, an organic filler B is orientated to force in the input direction working in the vicinity of a cable A so as to make it come to perpendicularity, forming it into parts. With this constitution, abrasion resistance and creep fatigue resistance are thus improvable.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a resin part used in a wire-type window regulator, which is one of the mechanisms for opening and closing vehicle windows.

(Prior Art) As a conventional resin part for a wire type window regulator, there is one used, for example, in a glass lifting system as shown in FIG. In FIG. 1, reference numeral 1 is an overall view of a wire-type window regulator, and as shown in the figure, the regulator 1 is connected to a bracket 6.
It is fixed to the door 9 with a screw. A glass 10 is fixed to the carrier plate 3, and the movement of the carrier plate 3, in which the glass moves up and down by moving on the rail 5, is as follows.
Wire cable 4 fixed to carrier plate
This is done by being wound around a drum 8 driven by a power window motor 7. At this time, a cable guide 2 made of resin is used in the sliding part where the direction of the cable changes. The resin composition of these cable guides 2 includes polyacetal, nylon alone, polyethylene, polytetrafluoroethylene, etc. as a sliding property improver to improve sliding properties.
Glass fiber,
There are also those to which inorganic fillers such as carbon fiber are added.

(Problems to be Solved by the Invention) However, in such conventional resin parts for wire-type window regulators, when the wire-type window regulator is operated, the sliding property, rigidity, and Because the structure required various properties such as creep fatigue resistance, polyacetal and nylon resin alone lacked sliding properties and creep fatigue resistance, so we decided to add a sliding property improver. Although the sliding properties are improved, the cohesive force of the resin decreases, so the rigidity and creep fatigue resistance tend to decrease. Furthermore, when an inorganic filler is added, the slidability, rigidity, and creep fatigue resistance are improved, but there is a problem in that the hardness of the filler causes the wire cable to wear out.

(Means for Solving the Problem) As a result of intensive research to solve these conventional problems, the inventor has improved the sliding characteristics of the resin parts used in the regulator and prevented wear of the wire cable. Therefore, by adding 5 to 50% by weight of organic filler such as aramid fiber, polyethylene fiber, phenol fiber, etc. to the base resin and orienting the organic filler in a direction almost perpendicular to the input direction that acts on the resin, sliding properties can be improved. In addition, they found that rigidity and creep fatigue resistance can be improved, leading to the achievement of this invention.

Therefore, the resin part for the wire type window regulator of the present invention has a base resin such as polyacecool or polyamide (nylon) resin containing 5 to 5 % of the organic filler.
It is characterized in that it is made of a resin composition containing 0% by weight, and that the reinforcing material is oriented in a direction substantially perpendicular to the input direction acting on the resin.

(Function) In this invention, the amount of organic filler added is 5 to 50% by weight, but if it is less than 5% by weight, there will be almost no change in properties compared to the base resin alone;
If the weight percentage is exceeded, the cohesive force of the base resin will decrease, and the rigidity and
This is because the creep fatigue properties are adversely reduced.

In the resin parts of the present invention, the wear characteristics are significantly improved by adding an organic filler that has significantly higher tensile stress and bending modulus than the base resin. Furthermore, since the surface hardness is lower than that of inorganic fillers such as glass filler and carbon filler, the wire will not be worn out.

Next, by orienting the filler in a direction perpendicular to the input direction that acts on the part, the rigidity of the point of application and creep fatigue properties were improved.

(Example) Hereinafter, the present invention will be explained by way of examples with reference to the drawings.

First, a copolymer type polyacetal obtained by cationic polymerization of trioxane and a cyclic ether such as ethylene oxide was used as the base resin, 15% by weight of aramid resin was added as an additive filler, and a mixer was used. The mixture was mixed using a pelletizer, and pellets were made using a pelletizer.

Next, a method for orienting the added filler in a direction parallel to the action direction will be explained. FIG. 2 shows a cable guide 2 made of resin parts according to an embodiment. This cable guide 2 is the bin 1
1 to the rail 5, and as the wire cable moves within the cable guide as shown in the figure, near A,
It is necessary to mix organic filler B as shown in the figure.

In this example, the part was created by cutting a flat plate so that the filler was oriented in the same direction as possible (for example, molded from one direction using a film gate) so that the filler was perpendicular to the direction of action. A copolymer polyacetal was used as a base resin, and 15% by weight of aramid fiber was added as a reinforcing material and kneaded to prepare a pellet. Next, by injection molding, 100
(2) A molded product in the shape of X10011+1X2 was made from the gate position (r) with f=50+++m as shown in FIG. Each test piece was cut out so that the filler was oriented in the vertical and parallel directions, and various strengths were measured. The results are shown below.

For comparison, measurements using only the base resin were conducted at the same time.

Although the parts in this example were created by cutting, they can be similarly created by other molding methods such as injection molding.

(Effects of the Invention) As explained above, according to the present invention, an organic filler is blended into a base resin in a specified amount, and the organic filler is oriented in a direction perpendicular to the input direction acting on the part by a molding method. As a result, wear resistance, rigidity, and creep fatigue resistance can be improved.

[Brief explanation of drawings]

1 is a front view of the glass lifting system, FIG. 2 is an enlarged front view of the upper cable guide in FIG. 1, and FIG. 3 is a front view of the molded product of Example 2. l...Wire type door window regulator 2...
・Cable guide 3...Carrier plate 4...
・Wire cable 5...Rail 6...Bucket 7...Motor 8...Drum
9... Door 10... Glass Fig. 1 f... Wire type - fin "Regi" Nilator 2-1.
・Key 7=/shih'iF 3---Carrier plate 4---Fire cable 5---Rail 6---Irake I door---Motor 8-m-Drum 9---Door fO---・π Las

Claims (1)

[Claims] 1.Resin parts used in wire-type window regulators for raising and lowering vehicle glass are made of a resin composition in which 5 to 50% by weight of an organic reinforcing material (organic filler) is added to a base resin, and A resin component for a wire type window regulator, wherein the reinforcing material is oriented in a direction substantially perpendicular to an input direction acting on the resin.