JPH07285417A - String type wiper device - Google Patents

Abstract

PURPOSE:To eliminate the trouble that a foreign material is invaded between a peripheral turning belt and a pulley. CONSTITUTION:A peripheral turning belt 26 is wound on a diving pulley 22' and an idler pulley, and peripherally turned in the direction of arrow (f) on the reverse side of a mirror body 3, and one end of the string is installed, and the string is laid to carry out the wiping operation. A guide pulley 41 on which the peripheral turning belt 26 is wound is installed, and the peripheral turning belt 26 which passes through the vicinity of the guide pulley 41 is deflected so that the inner peripheral side (gear train side) is formed to a projection form, and the part between the gears is opened, and the foreign material 42 which is nipped between the gears is discharged.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wiper device for a vehicle outside mirror having a structure in which a string is used as a wiping member, which is improved so as to prevent troubles caused by foreign matter being caught. It is a thing.

[0002]

2. Description of the Related Art FIG. 5 is a front external view of a vehicle outside mirror provided with a wiper device according to a conventional example. The mirror body 4 is fixed to the mirror body 3, and the mirror body 4 is supported by the mirror housing 12 via the mirror body 3. A mirror base 23 is used by being fixed to the vehicle body, and the mirror base 23 supports the mirror housing 12. The mirror housing 12
A wiper arm shaft 21 is provided so as to penetrate therethrough, and a wiper arm 24 is attached to the wiper arm shaft 21. When the wiper arm shaft 21 reciprocally rotates, the wiper arm 24 supports the wiper blade 29 and tilts reciprocally, and the wiper blade 29 slides and wipes the surface of the mirror body 4. In the conventional mirror wiper device shown in FIG. 5, the wiper arm 24 and the wiper blade 29 appear in appearance even while the wiper operation is stopped, so that the appearance is poor and the commercial value is lowered. Now, temporarily, the eaves-shaped wiper accommodating portion 20 is provided above the mirror housing 12.
By providing (shown in phantom), the wiper blade 29 can be stored and hidden, but the wiper arm 24 cannot be hidden. Furthermore, the wiper arm 24 and the wiper blade 29
Is a member having a large inertia among the constituent members of the wiper device. Reciprocatingly driving such a member having a large inertia easily causes noise (operation sound is generated if there is looseness). In order to solve the above-mentioned inconvenience, it is conceivable that the string-shaped member is slid along the surface of the mirror main body and the wiping action is performed by the string-shaped member. Since the string-like member has a small inertia, the required driving force is small, and when the wiper operation is stopped, the string-like member is brought close to one corner of the mirror main body, and the appearance is hardly damaged. The string-type mirror wiper device is an unknown device (Japanese Patent Application No. 4-82047 / mirror wiper device) filed separately by the present applicant. For convenience of explanation, the device will be abbreviated as the device of the prior application. FIG. 6 is a front view showing an embodiment of an unknown prior art wiper device for a mirror, with a part thereof broken away. The mirror body 4 is fixed to the mirror body 3. The reflecting mirror which is an optical component is sometimes called a mirror, and the entire assembly using the reflecting mirror is sometimes called a mirror. Therefore, in the present invention, a single reflecting mirror which is a component is a mirror body. , And the assembly is called a mirror device to distinguish them. On the back side of the mirror body 3, locate it around it 1
The drive pulley 22 and the three idler pulleys 25 are arranged, and an endless annular revolving belt 26 is wound around these four pulleys. A string 27 is stretched in close contact with the surface of the mirror body 4, one end 27a of which is in contact with the edge of the mirror body 4 (depicted by a hidden line), wraps around the back side of the mirror body, and is attached to the loop belt 26. Has been. FIG. 7 is a schematic cross-sectional view showing both ends of the string in the above embodiment, (A) shows a state in which one end of the string is attached to a revolving belt, and (B) shows other parts of the string. The ends are depicted attached to a tensioner and under tension. Pulley 22 shown in FIG.
6 is a drive pulley described above with reference to FIG. 6, which is rotated by a motor (not shown) via the transmission belt 17 and rotates the loop belt 26 wound around the belt. One end 27a of a string 27 is fixed to the loop belt 26. In FIG. 6, the pulley 22 is rotated in the direction of the arrow a, and the revolving belt 26 is revolved as indicated by arrows b and c. String 2 attached to the loop belt 26
One end 27a of 7 is moved in the direction of arrow b, and 27
It is the a'position. Along with this, the string 27 at the position drawn by the solid line reaches the 27 'position shown by the chain line until the arc arrow d.
It is drawn around and tilts. As can be easily understood from FIG. 6, the linear portion of the string 27 '(chain line) is longer than the linear portion of the string 27 (solid line). Therefore, the tensioner 2 which gives a certain tension so that this string will not be loosened or torn.
8 are provided. (This tensioner 28 is shown in both FIG. 6 and FIG. 7B, but in FIG. 7B, the central portion is broken and cut and drawn.) The tensioner 28 described above includes the string 2 in the elongated cavity (pipe) 28a.
The other end 27b of 7 is drawn in. 28
Reference numeral b is a tensioner coil spring that applies a force in a direction in which the string 27 is drawn into the conduit 28a. The string 27 is wiped off while being slid along the surface of the mirror body 4 while being kept at a substantially constant tension while being drawn out from the inlet 28c of the tensioner or drawn in from the inlet 28c. .

One end of the string 27 is the revolving belt 2
6 is attached to the point 6 (for example, point 27 shown in FIG. 6).
a, 27a ′) revolves together with the revolving belt 26. Then, this point is near the tensioner 28c (for example, the point e).
When the circling belt 26 is stopped when the vehicle comes to, the string 27 also stops and disappears from the appearance. The reason is that it is hidden by the eaves-shaped portion 3a shown in FIG. 7 (B). Further, in this state, most of the string 27 is drawn into the tensioner 28, and its tip end is the stroke end 2
Reach 7c. Almost the entire surface of the mirror body 4 (appearing in appearance) appears before one end 27a of the string existing at the point e moves in the directions of the arrows b and c along with the rotation of the orbiting belt 26 and reaches the point f. The whole area) is string 2
It is wiped by 7, and no unwiped portion is generated.

In the wiper device according to the invention of the prior application shown in FIG. 6, the tensioner 28 for applying a substantially constant tension to the string 27 utilizes compression / expansion of the coil spring 28b. According to this configuration, the tension applied to the string 27 is substantially proportional to the amount of strain of the coil spring 28b, and the tension from the tensioner 28 to the string 2 is increased.
The tension increases as 7 is pulled out, and the tension decreases as the string 27 is drawn into the tensioner 28, and the tension applied to the string varies relatively. When the tension of the string fluctuates, the revolving belt 26
The load of the motor (not shown) that drives the
Unless the motor has a large capacity, the operation may not be performed smoothly and other problems may occur. In order to prevent the above-mentioned inconvenience (change in the tension of the string), the coil spring 28b
It is effective to use a spring type spring instead of. That is, the structure of the string tensioner (a)
A string take-up drum which is rotatably supported by a drum shaft, has one end of the string attached thereto, and winds the string in and out, and (b) has an outer peripheral end attached to the string take-up drum and has an inner periphery When the spring is attached to the drum shaft at its end, fluctuations in the tension of the string are significantly reduced. According to the above configuration, the inner peripheral end of the mainspring spring is attached to the drum shaft, and the outer peripheral end of the mainspring spring is attached to the winding drum. Therefore, when the string wound around the winding drum is pulled out, The mainspring spring is deformed so as to be tightly wound, and the elastic restoring force gives tension to the string.
Therefore, the change rate of the spring load with respect to the change in the rotational angle position of the mainspring spring is significantly smaller than the change rate of the spring load with respect to the change in the length of the coil spring. Changes very little and a nearly constant tension is applied. Therefore, the load of the drive motor does not fluctuate, and smooth operation can be performed even with a small capacity drive motor. Even if the winding drum is omitted by simplifying the above configuration and the end portion of the string is attached to the outer peripheral end of the main spring, the same effect (reduction of tension fluctuation) can be obtained. The above configuration (tensioner using a spring) is an unknown invention (Japanese Patent Application No. 5-335127 / string type wiper device), which is separately applied for by the present applicant. For convenience of explanation, the invention is referred to as a prior invention.

Next, an embodiment of the invention of the prior application will be described with reference to FIGS. FIG. 8 is a partially cutaway front view showing one embodiment of a string type wiper device according to the invention of the prior application. In the wiper device for a mirror according to the prior application shown in FIG. 6 described above, the revolving belt 26 is wound around four pulleys, but in this embodiment, seven idler pulleys 25 and one drive are used. Pulley 2
2'is provided and the belt 26 is wound around. The drive pulley 22 'is rotated by a drive gear 33a which is rotated by a motor (not shown) through intermediate gears 33b and 33c and a driven gear 33d. The driven gear 33d and the drive pulley 22 'are fixed concentrically with each other. One end 27 a of the string 27 is attached to the loop belt 26. The other end of the string 27 is wound around a string tensioner 35 having a string winding drum 35a and is given a substantially constant tension. FIG. 9 shows CC of the string tensioner provided in the embodiment shown in FIG. 8 above.
FIG. The joint ball 32c is fixed to one end of the string 27 which is a wiping member, while the joint bracket 32d is attached to the revolving belt 26, and the joint ball 32c is attached to the joint bracket 32d. A portion 27b near the other end of the string 27 is attached to and wound on the string winding drum 35a. The drum shaft 35b rotatably supporting the above-mentioned string winding drum 35a includes the drum cover 3
5c is integrally connected to and fixed to the mirror body 3 '. Reference numeral 35e is a slit provided on the drum shaft 35b. 35d is a mainspring. The mainspring is a spring that was widely used as the power of mechanical hand-wound watches and toys in the past,
It is a known member also described in the dictionary. The inner peripheral end of the mainspring spring is engaged with the slit,
The outer peripheral end of the mainspring spring is attached to the string winding drum 35a. Prior to attaching the other end of the string 27 to the string winding drum 35a, the string winding drum 35a is rotated in advance to bend the spiral spring 35d in a direction to increase the spiral winding number ( If the so-called mainspring is wound, the string winding drum 35a is rotated by the elastic restoring force of the mainspring spring 35d, and the other end side 27b of the string 27 is wound to give a substantially constant tension. Acts like. FIG. 10 is an exploded perspective view in which main components involved in the action of rolling in a string to apply tension are extracted from the components shown in FIG. 9 described above. 11A and 11B are shown to explain the operation and effect of the above-described embodiment, and FIG. 11A shows the string winding length and the string tension (that is, the string tension) in the coil spring used in the string wiper according to the prior application. (B) is a chart showing the relationship with the spring load, and (B) is a chart showing the relationship between the string winding length and the string tension (spring load) in the mainspring used in the invention of the earlier application. In the coil spring of the invention of the prior application shown in FIG. 11A, the string tension changes by the illustrated force F ₁ depending on the change dimension L of the winding length of the string. Here, F ₁ / L is a spring constant. On the other hand, the spring spring of the invention of the prior application shown in FIG. 11B has a small spring constant F ₂ / L, and even if the winding dimension L of the string changes, the change amount F ₂ of the string tension is remarkably large. small. That is, the tension of the string 27 is kept substantially constant.

As shown in FIG. 5, the macro structure of the vehicle outside mirror, which is a target device to which the wiper device is attached, is such that the mirror base 23 is fixed to the vehicle body and the mirror housing 12 is supported by the mirror base 23. To be done. On the other hand, a mirror body 4 is fixed to a mirror body (also called a mirror holder) 3. In some cases, the mirror body 3 is fixedly mounted on the mirror housing 12, and the mirror body 3 is tiltably supported by the mirror housing 12 and can be remotely controlled from the driver's seat. There is also an example that can be tilted by. The invention of the earlier application and the wiper device according to the invention of the earlier application can be applied to any of the above two methods (mirror body fixing, mirror body tilting remote control). In any case, there is an advantage as a string type wiper device. FIG. 12 is a cross-sectional view showing a drive system of the wiper device when a string-type wiper device is attached to a remote control type outside mirror, and is a cross section taken along a plane perpendicular to the mirror body. A mirror body 3 to which a mirror body 4 is fixedly mounted is tiltably supported by a mirror housing 12 via a ball joint 2. A drive unit for remote control is installed in the mirror housing 12. Reference numeral 1 is a housing of the drive unit. The reference numeral 22 shown in FIG.
The driving pulley described above and reference numeral 26 are also revolving belts. Reference numeral 19 is a pulley shaft of the pulley 22. A drive motor (not shown) is installed in the drive unit housing 1 and rotationally drives the worm wheel 13b via the worm 13a. The worm wheel 13b is integrally connected to the drive shaft 14, and the transmission shaft 15 is connected to the drive shaft 14 slidably in the axial direction and non-rotatable around the axis. ing. The transmission shaft 15 is the drive motor (not shown).
Driven by the universal joint pulley 16 and the transmission belt 17 and driven by the drive pulley 22.
To rotate. The drive pulley rotates the revolving belt 26. FIG. 13 shows A enclosed by a chain line circle in FIG. 12 above.
It is the enlarged view which showed the detail of the part and was partially cut and drawn. The pulley 16 with a universal joint comprises a rotating shaft 16a rotatably attached to the mirror body 3, a pulley 16b fixed to the rotating shaft, and a universal joint 16c attached to the pulley 16b. The universal joint 16c is connected to the transmission shaft 15 described above with reference to FIG. The pulley 16b is wound around the transmission belt 17 shown in FIG. 12 and drives it.

[0007]

[Problems to be Solved by the Invention]

(Refer to FIG. 12) In the case where the mirror body 3 has a structure that tilts around the ball joint 2, a gap G must be provided between the mirror body 3 and the mirror housing 12, so that inside the mirror housing 12 There is a risk that foreign matter will enter. Even if the mirror body 3 does not tilt, it cannot be said that there is no risk of foreign matter entering the mirror housing. Foreign matter such as relatively large particles of sand, for example, enters the mirror housing to cause the belt 26 to rotate.
If it gets caught between the pulley and the pulley, trouble will occur. For example, in FIG. 6, when the revolving belt 26 is a cog belt or a timing belt (a toothed belt), there is a possibility that the foreign matter that has entered may be caught between the teeth of the revolving belt 26. For example, in FIG. 8, when the idler pulley 25 is a groove type pulley and the drive pulley 22 is a gear type pulley, foreign matter caught between the revolving belt 26 and the idler pulley 25 can pass through. However, if foreign matter is caught between the revolving belt 26 and the drive pulley 22, the drive motor 22 (not shown) is locked, and there is a great risk of burning. Even if the motor is not burnt out, the wiper operation is stopped due to the foreign matter being caught, and the transmission member may be damaged. When a belt having no teeth is used as a revolving belt, there is less risk of foreign matter being caught, but it is preferable to use a toothed belt to ensure transmission.
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a string-type wiper device that prevents foreign matter from being caught between the revolving belt and the pulley.

[0008]

The basic principle of the present invention created to achieve the above-mentioned object (prevention of foreign matter biting) will be outlined with reference to FIG. 1 corresponding to the embodiment. It is as follows.

If the foreign matter 42 only rides on the revolving belt 26, the foreign matter is unstable and there is a high possibility that it will fall off the revolving belt 26. The foreign matter 42 half-circulates with the revolving belt and gets caught in the drive pulley 22 '. It is unlikely that the risk of being exposed is significant. However, if the foreign matter 42 is caught between the teeth of the revolving belt 26, there is a high possibility that it will pass through the idler pulley 25 and be caught by the drive pulley 22 '. FIG. 14 is a perspective view schematically showing a state in which a foreign matter is placed on the orbiting belt and is pinched between the teeth to be rotated. Since they are schematic, the shapes of the constituent members are not necessarily represented realistically. Reference numeral 26 denotes a revolving belt, and 26a denotes teeth of the belt, which are arranged in a row in the circumferential direction on the inner peripheral side of the revolving belt. 25 'is a pulley. In this way, the foreign matter 42 sandwiched between the teeth 26a and the teeth 26a does not easily fall. In other words, the biting occurs only by expecting to fall naturally. Therefore, in the present invention, for example, a guide belt 41 is provided to wind the orbiting belt 26, and when the orbiting belt 26 passes near the guide pulley 41, the orbiting belt is opened in such a manner that the teeth of the orbiting belt are opened. Bend. As can be easily understood from FIG. 1, the shape in which the teeth are open is as follows.
It suffices to bend the inner circumference side (the side where the teeth are arranged) of the orbiting belt in a convex direction. The bending method is not limited to the guide pulley. As a concrete means based on the principle described above, a feature of the configuration of the string type wiper device according to the present invention is that a plurality of pulleys are arranged on the mirror body fixed to the mirror body, An endless annular revolving belt is wound around each pulley, one end of a string movably arranged near the surface of the mirror body is attached to the revolving belt, and the other end of the string is attached to a tensioner. A plurality of teeth are arranged in a row on the inner peripheral side of the endless annular revolving belt, and the revolving belt is revolving around the endless annular revolving belt. A means for guiding the orbiting belt is provided so that, when moving and passing, the orbiting belt is provided with teeth so that the inner and outer sides are convex and the outer and outer sides are concave. By forming a convex shape on the inner peripheral side where the teeth are arranged, the space between the adjacent teeth is temporarily expanded, and the foreign matter sandwiched between the teeth is released. It has become so.

[0010]

According to the above construction, since the string is used as a member for wiping the mirror body surface, (a)
In addition to having a small contact area between the string, which is the wiping member, and the surface of the mirror body, it does not have a large and heavy member that reciprocates like the wiper arm in the conventional example, so the driving force of the wiper device drive part is small. , (B) Since there is no reciprocating weight member like the wiper arm, there is no possibility of generating abnormal noise even if there is backlash or backlash in the drive system, and (c) the string that is the wiping member is the mirror main body. Since it is pressed evenly against the surface, judder is unlikely to occur, and (d) even if the surface of the mirror body has a complicated convex curved surface,
The string, which is the wiping member, conforms to and adheres to the surface of the mirror body, and achieves a reliable wiping action. (E) The string, which is the wiping member, is a thin member and its color tone can be selected so that the appearance is improved. You can make it inconspicuous. In addition, since many teeth are arranged in a row on the inner peripheral side of the revolving belt, the transmission of the revolving driving force of the revolving belt is reliably transmitted. Moreover, since the inner circumferential side where the above teeth are arranged is guided so as to be convex, all the locations on the circumferential belt are sequentially convexed along with the circumferential rotation of the circumferential belt. Is bent so that. Then, when the teeth are bent so as to be convex on the inner peripheral side in a row, the gap between the adjacent teeth is opened, so that even if foreign matter is caught, the sandwiching is loosened and Foreign matter is released. Circulating belts and pulleys (especially gear-shaped drive pulleys) because foreign matter is released
There is no risk of being bitten between. Therefore, problems such as obstruction of the wiper operation due to the entrapment of foreign matter, motor burnout, and damage to the transmission member can be prevented in advance, and the operational reliability and durability of the wiper device are significantly improved, and running in the rain is possible. Contribute to traffic safety at times.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, referring to FIGS.
An example of the present invention will be described. FIG. 1 is an external view of a mirror body of an outside mirror equipped with an embodiment of a string-type wiper device according to the present invention as viewed from the rear side, and a drive system is omitted. The present embodiment is an improvement by applying the present invention to the wiper device according to the invention of the prior application shown in FIG. 8, and the members denoted by the same reference numerals as those in FIG. Similar or similar components. In FIG. 8 (the invention of the prior application), a part of the mirror main body 4 is cut away and drawn from the surface (reflection surface) side, so that the drive pulley 22 'and its drive transmission system,
The idler pulley 25 and the orbiting belt 26 are located on the opposite side of the mirror body 3 and are drawn by hidden lines.
On the other hand, since FIG. 1 (embodiment of the present invention) is viewed from the rear side of the mirror body, the drive pulley 22 ', the idler pulley 25, and the revolving belt 26 are shown in appearance. Although not shown in FIG. 1, FIG.
The same or similar string 27 and string tensioner 35 as in the (prior invention) are provided. The details of the structure of the string tensioner 35 are as described with reference to FIGS. 9 and 10. In FIG. 1, the revolving belt 26 rotates in the direction of arrow f. The direction of this peripheral rotation can be set arbitrarily. It should be noted that, although it appears that the mirror is rotated in the opposite direction as compared with FIG. 8 (the invention of the prior application), FIG. 8 is drawn from the front side of the mirror body, and FIG. In consideration of what is drawn, it is understood that the circumferential rotation directions of the both are substantially the same.

(See FIG. 1) When the outside mirror is in use, the mirror body 3 is in a substantially vertical posture. The tilt is adjusted slightly depending on the driver's eye level, but the tilt is not so large compared to the vertical posture.
Therefore, for example, when foreign matter such as large sand particles intrudes, it rides on the revolving belt 26 at the position 42 shown in the figure with a relatively high probability, and the teeth 26b of the revolving belt 26 and the teeth 26b as described above with reference to FIG. It is sandwiched between 26b and 26b and moves in the direction of arrow f together with the loop belt. The above-mentioned foreign matter 42 moves in the direction of arrow f from the position shown,
The guide pulley 41 passes through the place where the guide pulley 41 is installed while it goes around and is bitten by the drive pulley 22 '. In FIG. 8, which is an embodiment of the invention of the prior application, one drive pulley 2 is used.
A total of eight pulleys, 2 ′ and seven idler pulleys 25, all come into contact with the inner peripheral side (the side where teeth are arranged) of the revolving belt 26 and the outer peripheral side (the tooth) of the revolving belt 26. It is designed to be rotated while being bent so that the side (without side) becomes convex. Also in FIG. 1 illustrating the present embodiment, a total of eight pulleys, one drive pulley 22 'and seven idler pulleys 25, are in contact with the inner circumference side of the revolving belt 26 and the revolving belt 26 is wound around the pulley. There is. On the other hand, the guide pulley 41 installed by applying the present invention,
Is wound around the outer peripheral side (the side opposite to the side where the teeth are arranged) of. As a result, in the vicinity of the guide pulley 41, the orbiting belt 26 passes while being bent so that the inner peripheral side (the side with teeth) is convex and the outer peripheral side is concave. Then, when the side on which the teeth are arranged bends in a convex shape, the space between the teeth widens. FIG. 2 is an enlarged detailed view schematically showing the guide pulley of FIG. 1 and the tension spring urging the guide pulley, which illustrates the above embodiment. The guide pulley 41 is biased toward the upper right in the figure by the tension spring 43 and pressed against the outer peripheral side of the revolving belt 26 to bend the inner peripheral side of the revolving belt so as to be convex. From a dynamic point of view, the orbiting belt passes around the guide pulley 41 and orbits while being bent so that the inner circumferential side is convex. When the teeth are bent so as to be convex on the inner peripheral side, the spaces between the teeth open, so that the foreign matter 42 that has been sandwiched is released and released as shown by arrow g. , Will be harmless. That is, since it is released from the revolving belt and does not recirculate together (see FIG. 1), there is no risk of being caught in the drive pulley 22 '. FIG. 3 shows an embodiment different from that shown in FIG. 2 and is an external view of a state in which a guide shoe is provided in place of the guide pulley. However, the hatching attached to the guide shoe is for facilitating the reading, and does not indicate that it is a cut surface. As shown in FIG. 3, even if the revolving belt that revolves while sliding on the guide shoe 44 is bent, the same effect as that of the embodiment of FIG. 2 can be obtained. In FIG. 2, when the radius of curvature of the outer peripheral surface of the guide shoe 44 is smaller, the gap between the teeth of the orbiting belt 26 is widened to easily release the foreign matter, but the diameter of the outer peripheral surface of the guide shoe 44 is reduced. When the value is reduced, the passing resistance of the belt is increased. From this point of view, the guide pulley 41 of the embodiment of FIG. 2 is convenient because the passage resistance of the revolving belt is relatively small even if the outer diameter of the guide pulley 41 is reduced. As a guide when implementing the present invention, it is desirable to set the diameter of the guide pulley 41 smaller than the diameter of the idler pulley 25. Further, according to the experimental result of the present inventor, the guide pulley 41 is
Is wound around the idler pulley 25 and the drive pulley 22 'and has a shape substantially following the contour of the mirror body 3 (see FIG. 8), it is preferable to install it at a portion near a straight line instead of the corner portion. Is obtained. The guide shoe 44 shown in the embodiment of FIG. 3 may be configured to be pressed against the revolving belt 26 by the tension spring 43 as in the embodiment of FIG. Further, the guide pulley 41 shown in the embodiment of FIG. 2 may be pivotally supported on the mirror body. Figure 4
Shows a joint bracket for attaching the string to the orbiting belt in this embodiment, (A) is an exploded perspective view,
(B) is a perspective view of a state in the middle of assembling, and (C) is a perspective view of an assembling completed state. The joint bracket shown in FIG. 4 corresponds to the joint bracket 3 in the invention of the prior application shown in FIG.
It is a component corresponding to 2d. (See FIG. 4 (A)) In the orbiting belt 26 of this example, the through holes 26a orthogonal to the circumferential direction are provided.
On the other hand, a joint ring 43 formed by bending a wire-shaped material is configured. The leg portion of the above joint ring is indicated by the arrow h
As shown in FIG. 9B, the leg-shaped portion is protruded from the through hole and bent as shown by arrow i. In this state, the joint ring 43 can swing freely like a reciprocating arc arrow j-j ', which is suitable for attaching one end of the string thereto. 32c shown in FIG. 4C is
It is a ball of the ball joint described in FIG. 9 (the invention of the prior application).

[0013]

When the present invention is applied, since a string is used as a member for wiping the mirror body surface,
(A) Since the contact area between the string, which is the wiping member, and the surface of the mirror main body is small, and the large and heavy member that reciprocates like the wiper arm in the conventional example is not provided, the driving force of the wiper device driving unit is reduced. Since it is small, (b) there is no reciprocating weight member like the wiper arm, there is no risk of noise even if there is rattling or backlash in the drive system, and (c) the string that is the wiping member is Since it is pressed evenly against the surface of the mirror body, judder is unlikely to occur. (D) Even if the surface of the mirror body is a complicated convex curved surface, the string that is the wiping member adapts to the surface of the mirror body. (E) The string, which is a wiping member, is a thin member, and its color tone can be selected, so that the appearance can be made inconspicuous.
In addition, since many teeth are arranged in a row on the inner peripheral side of the revolving belt, the transmission of the revolving driving force of the revolving belt is reliably transmitted. Moreover, since the inner circumferential side where the above teeth are arranged is guided so as to be convex, all the locations on the circumferential belt are sequentially convexed along with the circumferential rotation of the circumferential belt. Bend to become. Then, when the teeth are bent so as to be convex on the inner peripheral side in a row, the gap between the adjacent teeth is opened, so that even if foreign matter is caught, the sandwiching is loosened and Foreign matter is released. Since the foreign matter is discharged, there is no risk of being caught between the revolving belt and the pulley (particularly, the gear-shaped drive pulley). Therefore, the wiper operation is hindered due to the foreign matter being caught, the motor is burnt,
Trouble such as breakage of the transmission member is prevented in advance, and the operational reliability and durability of the wiper device are significantly improved.
It has an excellent practical effect of contributing to traffic safety when driving in the rain.

[Brief description of drawings]

FIG. 1 is an external view of a mirror body of an outside mirror equipped with an embodiment of a string-type wiper device according to the present invention as viewed from the back side, in which a drive system is omitted. .

FIG. 2 is an enlarged detailed view schematically illustrating the guide pulley of FIG. 1 illustrating the above embodiment and a tension spring that biases the guide pulley.

FIG. 3 is an external view showing an embodiment different from that shown in FIG. 2 and showing a state in which a guide shoe is provided instead of the guide pulley. However, the hatching attached to the guide shoe is for facilitating the reading, and does not indicate that it is a cut surface.

4A and 4B show joint brackets for attaching the strings to the orbiting belt in the present embodiment, where FIG. 4A is an exploded perspective view, FIG. 4B is a perspective view in the middle of assembly, and FIG. FIG.

FIG. 5 is a front external view of a vehicle outside mirror including a wiper device according to a conventional example.

FIG. 6 is a front view showing an embodiment of a wiper device for a mirror according to an unknown prior invention, with a part broken away.

FIG. 7 is a schematic cross-sectional view showing both ends of the string in the above embodiment, (A) illustrates a state in which one end of the string is attached to a loop belt, (B).
Shows the other end of the string attached to a tensioner and under tension.

FIG. 8 is a partially cutaway front view showing an embodiment of the string wiper device of the invention of the prior application.

9 is a cross-sectional view taken along the line CC of the string tensioner provided in the embodiment shown in FIG. 8 above.

FIG. 10 Among the components shown in FIG. 9 above,
It is an exploded perspective view which extracted and drew the main member which takes in a string and is concerned in the action which gives tension.

FIG. 11 is shown for explaining the action and effect of the above embodiment, and (A) shows the string winding length and the string tension (that is, spring load) in the coil spring used in the string wiper according to the prior application. And (B) is a chart showing the relationship between the string winding length and the string tension (spring load) in the mainspring used in the present invention.

FIG. 12 is a cross-sectional view taken along a plane perpendicular to the mirror body, showing the wiper device drive system when a string type wiper device is attached to a remote control type outside mirror.

FIG. 13 is an enlarged view showing details of a portion A surrounded by a chain line circle in FIG. 12 and partially cut and drawn.

FIG. 14 is a perspective view schematically illustrating a state in which a foreign matter is placed on a revolving belt, is sandwiched between teeth, and is rotated.

[Explanation of symbols]

3 ... Mirror body, 4 ... Mirror body, 12 ... Mirror housing, 17 ... Transmission belt, 20 ... Eaves part, 22 ... Driving pulley, 23 ... Mirror base, 24 ... Wiper arm, 25 ... Idler pulley, 26 ... Orbit Belt, 26b
... Tooth, 27,27 '... String, 27a, 27a' ...
One end of the string, 27b ... The other end of the string, 27c
... string stroke end, 28 ... tensioner,
28a ... pipe, 28b ... tensioner coil spring,
28c ... Tensioner inlet, 29 ... Wiper blade, 33
a ... driving gear, 33b, 33c ... intermediate gear, 33d ... driven gear, 35 ... string tensioner, 35a ... string winding drum, 35b ... drum shaft, 35c ... drum cover, 35d ... spring spring, 35e ... cutting, 41 ... guide pulley, 42 ... foreign matter, 43 ... tension spring, 44 ... guide shoe.

Claims (1)

[Claims] 1. A mirror body fixed to a mirror body is provided with a plurality of pulleys, and an endless annular looping belt is wound around the plurality of pulleys, and near the surface of the mirror body. A wiper device in which one end of a movably arranged string is attached to the revolving belt and the other end of the string is attached to a tensioner, and tension is applied so as to be able to be drawn out and drawn in. A large number of teeth are arranged on the inner peripheral side of the revolving belt, and when the revolving belt is rotated and passes, the inner peripheral side where the teeth are arranged on the revolving belt becomes convex. A means for guiding the orbiting belt is provided so that the outer peripheral side is concave, and the inner peripheral side having the teeth arranged in a convex shape causes a temporary gap between adjacent teeth. Expand to Is in, wherein the foreign matter has been caught between the teeth and the teeth are adapted to be opened, the string type wiper apparatus.