WO2018110235A1 - Wiper device - Google Patents
Wiper device Download PDFInfo
- Publication number
- WO2018110235A1 WO2018110235A1 PCT/JP2017/041994 JP2017041994W WO2018110235A1 WO 2018110235 A1 WO2018110235 A1 WO 2018110235A1 JP 2017041994 W JP2017041994 W JP 2017041994W WO 2018110235 A1 WO2018110235 A1 WO 2018110235A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- motor
- holder
- fixing portion
- wiper
- nut
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60S—SERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
- B60S1/00—Cleaning of vehicles
- B60S1/02—Cleaning windscreens, windows or optical devices
- B60S1/04—Wipers or the like, e.g. scrapers
- B60S1/32—Wipers or the like, e.g. scrapers characterised by constructional features of wiper blade arms or blades
- B60S1/34—Wiper arms; Mountings therefor
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60S—SERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
- B60S1/00—Cleaning of vehicles
- B60S1/02—Cleaning windscreens, windows or optical devices
- B60S1/04—Wipers or the like, e.g. scrapers
- B60S1/06—Wipers or the like, e.g. scrapers characterised by the drive
- B60S1/08—Wipers or the like, e.g. scrapers characterised by the drive electrically driven
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60S—SERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
- B60S1/00—Cleaning of vehicles
- B60S1/02—Cleaning windscreens, windows or optical devices
- B60S1/04—Wipers or the like, e.g. scrapers
- B60S1/06—Wipers or the like, e.g. scrapers characterised by the drive
- B60S1/16—Means for transmitting drive
- B60S1/18—Means for transmitting drive mechanically
- B60S1/24—Means for transmitting drive mechanically by rotary cranks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60S—SERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
- B60S1/00—Cleaning of vehicles
- B60S1/02—Cleaning windscreens, windows or optical devices
- B60S1/04—Wipers or the like, e.g. scrapers
- B60S1/06—Wipers or the like, e.g. scrapers characterised by the drive
- B60S1/16—Means for transmitting drive
- B60S1/18—Means for transmitting drive mechanically
- B60S1/24—Means for transmitting drive mechanically by rotary cranks
- B60S1/245—Means for transmitting drive mechanically by rotary cranks with particular rod arrangements between the motor driven axle and the wiper arm axle
Definitions
- the present invention relates to a wiper device.
- a wiper device for wiping a windshield of an automobile has a pair of pivot holders that rotatably support pivot shafts to which the wiper is fixed, a connection frame that connects the pair of pivot holders, and a fixed frame to the connection frame. And a wiper motor as a drive source.
- connection frame is made of a hollow material, and the hollow material constituting the connection frame is crushed and made non-hollow at a substantially central portion in the longitudinal direction of the connection frame.
- a motor fixing portion formed in a U-shaped cross section is provided.
- the wiper motor is fixed to a flat mounting seat surface provided on the outer surface of the motor fixing portion with bolts.
- cylindrical holder fixing portions to which a pair of pivot holders are respectively fixed are provided at both ends in the longitudinal direction of the connection frame.
- the pivot holder is fixed to the holder fixing part by inserting and fixing the mounting shaft provided in the pivot holder into the holder fixing part.
- a wiper motor is arranged close to one pivot holder so that a wiper device can be mounted on various types of vehicles.
- the motor fixing part to which the wiper motor is fixed is formed close to one holder fixing part.
- a gradually changing portion that gradually transitions from a U-shaped cross section to a cylindrical shape is provided between the motor fixing portion that is crushed and formed into a U-shaped cross section and the cylindrical holder fixing portion. It is necessary to provide it. Therefore, it may be difficult to dispose the wiper motor close to the one pivot holder by a desired distance.
- An object of the present invention is to provide a wiper device in which a wiper motor can be easily placed close to one pivot holder.
- a first holder fixing part to which the first pivot holder is fixed at a first end in the longitudinal direction has a second holder fixing part to which the second pivot holder is fixed at a second end in the longitudinal direction.
- a connecting frame having a motor fixing portion in which the hollow material is crushed between the first holder fixing portion and the second holder fixing portion to have a U-shaped cross section, and is fixed to the motor fixing portion.
- Hollow The first pivot holder is fixed to the first holder fixing portion by a holder fixing member, and the wiper motor is displaced from the holder fixing member at a position displaced from the holder fixing member.
- the first holder fixing portion is formed in a U-shaped cross section by continuously smashing the hollow material from the motor fixing portion. Therefore, it is not necessary to provide a gradually changing portion for gradually changing the cross-sectional shape between the motor fixing portion and the first holder fixing portion. Therefore, it becomes easy to bring the motor fixing portion closer to the first holder fixing portion by a desired distance. As a result, the wiper motor fixed to the motor fixing portion can be easily placed close to the first pivot holder fixed to the first holder fixing portion.
- the second holder fixing portion has a cylindrical shape.
- the first holder fixing portion has a U-shaped cross section, while the second holder fixing portion has a cylindrical shape. Therefore, the torsional rigidity of the connection frame can be increased as compared with the case where the entire connection frame has a U-shaped cross section. Therefore, even with a configuration in which the motor fixing portion is close to the first holder fixing portion, a connection frame having high torsional rigidity can be obtained.
- connection frame has a mounting seat surface extending an outer surface across the motor fixing portion and the first holder fixing portion, and the motor fixing member is the mounting seat of the motor fixing portion. It is a bolt and a nut which fix the wiper motor on the surface, and it is preferable that the head of the bolt is housed inside the motor fixing part.
- the holder fixing member is a bolt and a nut for fixing the first pivot holder to the mounting seat surface of the first holder fixing portion, and a head portion of the bolt is a member of the first holder fixing portion. It is preferable to be accommodated inside.
- the bolt head portion of the bolt that fixes the first pivot holder to the first holder fixing portion is housed inside the first holder fixing portion, the bolt head portion interferes with surrounding components. Can be suppressed.
- the holder fixing member is a bolt and a nut for fixing the first pivot holder to the first holder fixing portion, and the first pivot holder is fixed to the first holder by the bolt and the nut.
- a holder mounting portion that is fixed to the outer surface of the portion, the holder mounting portion is configured to be continuous with the nut holding portion, a concave nut holding portion that holds the nut inside and prevents rotation of the nut, and It is preferable to have a bolt insertion hole through which the bolt penetrating the first holder fixing portion is provided.
- the nut by inserting the nut into the nut holding portion, the nut can be held at a position where it is fixed until the bolt is screwed into the nut.
- the bolt penetrating the first holder fixing portion is inserted into the nut holding portion from the bolt insertion hole, so that the tip of the bolt is inserted into the nut hole. I can guide you.
- maintenance part prevents rotation of a nut, a holder attaching part can be easily fixed to a 1st holder fixing
- the motor fixing member is a bolt and a nut for fixing the wiper motor to the motor fixing portion, and the wiper motor is fixed to an outer surface of the motor fixing portion by the bolt and nut.
- the motor mounting portion includes a concave nut holding portion that holds the nut inside and prevents rotation of the nut, and the nut holding portion that is provided continuously with the nut holding portion and penetrates the motor fixing portion. It is preferable to have a bolt insertion hole through which the bolt is inserted.
- the nut by inserting the nut into the nut holding portion, the nut can be held at a position where it is fixed until the bolt is screwed into the nut.
- the bolt penetrating the motor fixing portion is inserted into the nut holding portion from the bolt insertion hole, thereby guiding the tip of the bolt into the nut hole. be able to.
- the motor attachment part can be easily fixed to a motor fixing
- the connection frame has a mounting seat surface extending outside the motor fixing portion and the first holder fixing portion, and at least a part of the wiper motor is the first holder fixing portion.
- a motor portion that is disposed at a position facing the mounting seat surface and generates a rotational force, and is provided integrally with the motor portion and protrudes toward the mounting seat surface from the motor portion, and the mounting seat of the motor fixing portion
- an output portion that decelerates and outputs the rotation of the motor portion, and the holder mounting portion is surrounded by the mounting seat surface of the first holder fixing portion, the motor portion, and the output portion. It is preferable that they are arranged in a confined space.
- the motor portion faces the mounting seat surface of the first holder fixing portion, and the output portion has a shape that protrudes more toward the mounting seat surface than the motor portion.
- the link member includes a first lever having a first end fixed to the first pivot shaft, a second lever having a first end fixed to the second pivot shaft, and the first lever.
- the crank arm has a second end portion of the crank arm opposite to the wiper motor with respect to the connection frame when viewed from the direction of the rotation axis of the output shaft. It is preferable to rotate so as to partially pass through.
- the wiper motor which is a heavy object, can be fixed close to the connection frame. Therefore, the space occupied by the entire apparatus including the operation region where the link member operates can be reduced.
- a dimension of the motor fixing portion along the output shaft of the wiper motor is smaller than a dimension of the second holder fixing portion along the output shaft of the wiper motor.
- the hollow material is crushed and formed into a U-shaped cross section, so that the dimension in the direction along the output shaft of the wiper motor in the motor fixing portion is along the output shaft of the wiper motor in the second holder fixing portion. It becomes smaller than the dimension of the direction. For this reason, the distance between the crank arm fixed to the output shaft and the motor fixing portion can be set larger than in the case where the hollow material is not U-shaped in cross section. Thereby, interference with a crank arm and a motor fixing
- the link member is disposed on a side opposite to the rotation axis of the rotation shaft of the wiper motor with respect to the motor fixing portion when viewed from a direction orthogonal to the rotation axis of the output shaft of the wiper motor.
- the rotation axis of the rotation shaft of the wiper motor is disposed on the proximal side in the axial direction of the first pivot shaft with respect to the motor fixing portion.
- the wiper motor which is a heavy object, is disposed closer to the base end side in the direction along the axis of the first pivot shaft than the motor fixing portion in the state of being attached to the connecting frame. Therefore, it is possible to prevent the wiper motor from hindering the impact mitigation of the collision object from above the vehicle (the tip end side of the pivot shaft).
- the link member is disposed on the opposite side of the rotation axis of the rotation shaft of the wiper motor with respect to the motor fixing portion. Therefore, the deformation of the link member can mitigate the impact.
- the wiper motor can be easily placed close to one pivot holder.
- (A) is the front view of the wiper apparatus of embodiment, (b) is the elements on larger scale of the wiper apparatus.
- (A) is a side view of the wiper device of the embodiment, (b) is a partially enlarged view of the wiper device.
- (A) is the bottom view of the wiper apparatus of embodiment, (b) is the elements on larger scale of the wiper apparatus.
- a wiper apparatus is fixed with respect to a vehicle body under the front windshield of the vehicle which is not shown in figure.
- the wiper device includes first and second pivot holders 1 and 2, a connecting frame 3 that connects them, and a wiper motor 4 that is a driving source of the wiper device and is fixed to the connecting frame 3.
- the connecting frame 3 is made of a metal hollow material (pipe) having a cylindrical shape.
- the connecting frame 3 has a connecting and fixing part 11 that is hollowed at one end in the longitudinal direction so that the hollow material is crushed into a non-hollow shape.
- the connection fixing portion 11 is formed in a U-shaped cross section (a cross-sectional shape orthogonal to the longitudinal direction is U-shaped).
- the connection fixing portion 11 extends from one end in the longitudinal direction of the connection frame 3 (the left end in FIG. 1A) to a substantially central portion in the longitudinal direction.
- a portion on one end side in the longitudinal direction of the connection frame 3 is a first holder fixing portion 12 to which the first pivot holder 1 is fixed.
- connection fixing portion 11 a portion closer to the other end in the longitudinal direction of the connection frame 3 than the first holder fixing portion 12 is a motor fixing portion 13 to which the wiper motor 4 is fixed.
- the dimension of the output shaft 84 of the wiper motor 4 in the motor fixing portion 13 in the direction of the rotation axis L2 is H1 (see FIG. 2B). That is, the first holder fixing part 12 is continuously formed from the motor fixing part 13 so that the hollow material is crushed and formed into a U-shaped cross section, and is aligned with the motor fixing part 13 in the longitudinal direction of the connecting frame 3.
- the connecting frame 3 has a second holder fixing portion 14 to which the second pivot holder 2 is fixed at the other end portion in the longitudinal direction.
- the second holder fixing portion 14 has a cylindrical shape with a circular cross section.
- the dimension of the output shaft 84 of the wiper motor 4 in the second holder fixing portion 14 in the direction of the rotation axis L2 is H2 (see FIG. 2B).
- the dimension H1 of the motor fixing part 13 described above is smaller than the dimension H2 of the second holder fixing part 14.
- a portion between the second holder fixing portion 14 and the connection fixing portion 11 is provided continuously from the second holder fixing portion 14 and has a connecting portion 15 having a circular cross section and a connecting portion.
- fixed part 11 is comprised.
- the connecting portion 15 is bent at one place in the longitudinal direction.
- the gradual change portion 16 is a portion where the cross-sectional shape gradually transitions from a U-shaped cross-section to a circular cross-section between the connecting and fixing portion 11 having a U-shaped cross section and the connecting portion 15 having a circular cross-section.
- the connecting and fixing portion 11 includes a fixing portion 20 having a belt-like flat plate shape extending in the longitudinal direction of the connecting frame 3, and a short direction of the fixing portion 20. It is comprised from a pair of side wall parts 21 and 22 bent at a substantially right angle with respect to the fixed part 20 on both sides.
- the side wall portions 21 and 22 have the same shape as each other, form a strip-like flat plate extending in the longitudinal direction of the connecting frame 3 and are parallel to each other.
- fixed part 20 does not need to be a right angle.
- a flat mounting seat surface 23 that is parallel to the longitudinal direction of the connection frame 3 is provided on the outer surface of the connection fixing portion 11 and on the outer surface of the fixing portion 20.
- the mounting seat surface 23 extends in the fixing portion 20 over the entire length of the connection fixing portion 11 (that is, across the first holder fixing portion 12 and the motor fixing portion 13).
- the fixing portion 20 is provided with first to third bolt insertion holes 24, 25, and 26 that penetrate the fixing portion 20 in the thickness direction.
- the three bolt insertion holes 24 to 26 are arranged in the order of the first bolt insertion hole 24, the second bolt insertion hole 25, and the third bolt insertion hole 26 in order from one end side to the other end side in the longitudinal direction of the connection frame 3. They are lined up at approximately equal intervals.
- first and second motor positioning holes 28 and 29 penetrating the fixing portion 20 in the thickness direction are provided between the second bolt insertion hole 25 and the third bolt insertion hole 26. It has been.
- the first and second motor positioning holes 28 and 29 are spaced apart from each other in the longitudinal direction of the connecting frame 3, and the first motor positioning hole 28 is located at a position near the second bolt insertion hole 25. 29 is provided at a position near the third bolt insertion hole 26.
- the holder positioning hole 27 and the first and second motor positioning holes 28 and 29 are circular holes in this embodiment.
- the first holder fixing portion 12 is provided with a first bolt insertion hole 24 and a holder positioning hole 27, and the motor fixing portion 13 is provided with second and third bolt insertion holes 25 and 26 and first and second motor positioning. Holes 28 and 29 are provided.
- the first and second pivot holders 1 and 2 of this embodiment are made of metal, and are formed by, for example, aluminum die casting.
- the first and second pivot holders 1 and 2 include cylindrical pivot support portions 31 and 41, and vehicle body fixing portions 32 and 42 extending from the base end portions of the pivot support portions 31 and 41 in a direction substantially perpendicular to the axis. Yes.
- Water receiving caps 33 and 43 are attached to the pivot support portions 31 and 41, respectively.
- first and second pivot shafts 34 and 44 constituting a wiper device are inserted inside the pivot support portions 31 and 41, and the pivot support portions 31 and 41 are inserted into the first and second pivot shafts 34 and 44, respectively. 44 is rotatably supported.
- Anti-vibration rubbers 35 and 45 are attached to the front ends of the vehicle body fixing portions 32 and 42.
- the first and second pivot holders 1 and 2 are mounted on the vehicle body by fixing the vehicle body fixing portions 32 and 42 to the mounting bracket of the vehicle body (not shown) with bolts (not shown) via the vibration isolating rubbers 35 and 45. It will be fixed to.
- the second pivot holder 2 has a mounting shaft 46 extending radially outward in a direction different from the vehicle body fixing portion 42 from a position different from the vehicle body fixing portion 42 at the base end portion of the pivot support portion 41.
- the front end portion of the mounting shaft 46 has a solid bar shape with a circular cross section, and a plurality of caulking concave portions 47 are formed on the outer peripheral surface thereof.
- the second pivot holder 2 has the mounting shaft 46 inserted into the second holder fixing portion 14, and a plurality of locations corresponding to the caulking concave portions 47 in the second holder fixing portion 14 are caulked. Is fixed.
- the first pivot holder 1 is moved from a position different from the vehicle body fixing portion 32 at a base end portion of the pivot support portion 31 in a direction different from the vehicle body fixing portion 32. It has a holder mounting portion 36 protruding outward in the radial direction.
- the holder mounting portion 36 has a planar contact surface 36 a that is substantially parallel to the axial direction of the pivot support portion 31 on the outer peripheral surface thereof.
- the holder mounting portion 36 includes a nut holding portion 36 b that is open on a side surface different from the contact surface 36 a of the holder mounting portion 36 and is recessed in a direction substantially parallel to the axial direction of the pivot support portion 31.
- the inner peripheral surface of the nut holding part 36b has a flat fastening surface 36c that is parallel to the contact surface 36a and faces away from the contact surface 36a.
- a portion of the holder mounting portion 36 between the fastening surface 36c and the contact surface 36a is a clamping portion 36d.
- the holder attachment part 36 has the bolt insertion hole 36e which penetrates the clamping part 36d from the fastening surface 36c to the contact surface 36a.
- the bolt insertion hole 36e is provided continuously with the nut holding portion 36b, and communicates the inside and the outside of the nut holding portion 36b.
- a holder-side positioning projection 37 is provided on the contact surface 36a at a position closer to the distal end side of the holder mounting portion 36 than the bolt insertion hole 36e.
- the holder-side positioning projection 37 is a cylindrical projection having an outer diameter substantially equal to the inner diameter of the holder positioning hole 27.
- the holder mounting portion 36 is attached to the mounting seat surface 23 of the first holder fixing portion 12 while the holder side positioning projection 37 is inserted into the holder positioning hole 27. Are brought into contact with each other.
- the holder side positioning projection 37 is inserted into the holder positioning hole 27, the position of the first pivot holder 1 in the longitudinal direction with respect to the connection frame 3 is determined, and the first bolt insertion hole 24, the bolt insertion hole 36e, Are arranged in a direction orthogonal to the mounting seat surface 23.
- the tip of the bolt 52 is the first from the inside of the first holder fixing part 12 (that is, from the inner side opposite to the mounting seat surface 23 in the fixing part 20).
- the bolt is inserted through the bolt insertion hole 24 and the bolt insertion hole 36e to the inside of the nut holding portion 36b.
- the bolt 52 of this embodiment is a hexagon socket head cap screw.
- the tip of the bolt 52 inserted inside the nut holding part 36b is inserted into the hole of the nut 51 held inside the nut holding part 36b. In this state, the bolt 52 is rotated.
- the width D1 between the pair of inner side surfaces 36f and 36g of the nut holding portion 36b facing in the direction parallel to the fastening surface 36c is slightly larger than the two-surface width D2 of the nut 51, but is larger than the maximum outer diameter of the nut 51. Is also narrower. Therefore, the inner surfaces 36f and 36g prevent the nut 51 from being rotated with the rotation of the bolt 52.
- the bolt 52 and the nut 51 can be screwed together so that the clamping portion 36d and the fixing portion 20 can be clamped by the bolt 52 and the nut 51. That is, the holder mounting portion 36 can be fixed to the mounting seat surface 23 of the first holder fixing portion 12 by the bolt 52 and the nut 51.
- the 1st pivot holder 1 is being fixed to the 1st holder fixing
- the height of the head portion 52a of the bolt 52 that fixes the holder mounting portion 36 to the first holder fixing portion 12 is the height of the side wall portions 21 and 22 (the length from the fixing portion 20 to the tip).
- the head 52a of the bolt 52 is accommodated inside the first holder fixing part 12 without protruding outside the first holder fixing part 12 from the tips of the side wall parts 21 and 22.
- the first and second pivot shafts 34 and 44 pivotally supported by the first and second pivot holders 1 and 2, respectively,
- the first and second wipers W1, W2 are fixed.
- the first end portions of the first and second levers 61 and 62 that extend in the direction orthogonal to the axes and rotate together with the pivot shafts 34 and 44 are provided at the base end portions of the first and second pivot shafts 34 and 44, respectively.
- the second end of the first lever 61 is connected to the first end of the connecting rod 63 via a ball joint 64 so as to be relatively rotatable
- the second end of the second lever 62 is connected to the connecting rod 63.
- the second end portion 63 is connected via a ball joint 65 so as to be relatively rotatable. That is, the second end portion of the first lever 61 and the second end portion of the second lever 62 are connected by the connecting rod 63.
- the wiper motor 4 includes a motor unit 71 that generates a rotational force, and an output unit 72 that decelerates and outputs the rotation of the motor unit 71.
- the motor unit 71 is made of, for example, a direct current motor, and accommodates a rotating armature (not shown) that is rotationally driven integrally with the rotating shaft 74 inside a substantially bottomed cylindrical yoke housing 73.
- the distal end portion of the rotating shaft 74 projects into the output portion 72 from the opening of the yoke housing 73.
- a screw-like worm 75 is formed at the distal end portion of the rotating shaft 74 that extends outside the yoke housing 73 and is disposed inside the output portion 72.
- the output unit 72 includes a gear housing 81 fixed to the opening of the yoke housing 73 and a speed reduction mechanism 82 accommodated in the gear housing 81.
- the speed reduction mechanism 82 of the present embodiment is a worm speed reduction mechanism, and includes the worm 75 housed in the gear housing 81 and a worm wheel 83 housed in the gear housing 81.
- the worm wheel 83 has a disc shape, and is disposed on the side of the worm 75 in a state where the worm wheel 83 is engaged with the worm 75 inside the gear housing 81.
- an output shaft 84 extending in the rotation axis direction of the worm wheel 83 is provided at the central portion in the radial direction of the worm wheel 83 so as to be integrally rotatable. It protrudes to the outside.
- the worm wheel 83 is lateral to the worm 75 in the direction orthogonal to the rotation axis L1 of the rotation shaft 74 (upper side in FIG. 3A). Be placed. Therefore, the gear housing 81 has a shape projecting in a direction perpendicular to the rotation axis L ⁇ b> 1 from the motor portion 71 (yoke housing 73) in order to accommodate the worm wheel 83.
- the gear housing 81 has first and second motor mounting portions 85 and 86 on the outer peripheral edge of the portion protruding from the motor portion 71 in the direction orthogonal to the rotation axis L1.
- the first and second motor mounting portions 85 and 86 protrude from the outer peripheral surface of the gear housing 81 in a direction orthogonal to the rotation axis L1 and are separated from each other in the direction of the rotation axis L1.
- the first and second motor mounting portions 85 and 86 are planar contact surfaces that are substantially parallel to the rotation axis L1 and the rotation axis L2 of the output shaft 84 on the respective outer peripheral surfaces. 85a and 86a. Further, the first and second motor mounting portions 85 and 86 have nut holding portions 85b and 86b which are opened in side surfaces different from the contact surfaces 85a and 86a, respectively, and are recessed in a direction substantially parallel to the rotation axis L2. Have. In the present embodiment, the nut holding portions 85b and 86b have the same size and the same shape.
- each motor mounting portion 85, 86 the inner peripheral surface of the nut holding portion 85b, 86b is parallel to the contact surfaces 85a, 86a and is a flat fastening surface 85c facing the opposite side of the contact surfaces 85a, 86a. , 86c.
- the portions between the fastening surfaces 85c and 86c and the contact surfaces 85a and 86a in the motor mounting portions 85 and 86 are clamping portions 85d and 86d.
- Each motor mounting portion 85, 86 has bolt insertion holes 85e, 86e penetrating the clamping portions 85d, 86d from the fastening surfaces 85c, 86c to the contact surfaces 85a, 86a.
- the bolt insertion hole 85e is provided continuously with the nut holding portion 85b, and communicates the inside and the outside of the nut holding portion 85b.
- the bolt insertion hole 86e is provided continuously with the nut holding portion 86b, and communicates the inside and the outside of the nut holding portion 86b.
- a first motor side positioning projection 87 is provided at a position closer to the second motor mounting portion 86 than the bolt insertion hole 85e on the contact surface 85a of the first motor mounting portion 85.
- a second motor-side positioning projection 88 is provided at a position closer to the first motor mounting portion 85 than the bolt insertion hole 86e on the contact surface 86a of the second motor mounting portion 86.
- the first and second motor side positioning protrusions 87 and 88 are columnar protrusions having an outer diameter substantially equal to the inner diameter of the first and second motor positioning holes 28 and 29.
- the first motor side positioning protrusion 87 is inserted into the first motor positioning hole 28, and the second motor side positioning protrusion 88 is inserted into the second motor positioning hole 29. While being inserted, the contact surfaces 85 a and 86 a of the first and second motor mounting portions 85 and 86 are brought into contact with the mounting seat surface 23 of the motor fixing portion 13.
- the first and second motor side positioning protrusions 87 and 88 are inserted into the first and second motor positioning holes 28 and 29, the position of the wiper motor 4 with respect to the connection frame 3 is determined.
- the second bolt insertion hole 25 and the bolt insertion hole 85e of the first motor mounting portion 85, and the third bolt insertion hole 26 and the bolt insertion hole 86e of the second motor mounting portion 86 are connected to the mounting seat surface 23. Lined up in the direction perpendicular to
- the bolt 92 from the inside of the motor fixing portion 13 (that is, from the inner surface side opposite to the mounting seat surface 23 in the fixing portion 20). Is inserted into the nut holding portion 85b through the second bolt insertion hole 25 and the bolt insertion hole 85e.
- the bolt 92 of this embodiment is a hexagon socket head cap screw.
- the tip of the bolt 92 inserted inside the nut holding portion 85b is inserted into the hole of the nut 91 held inside the nut holding portion 85b. In this state, the bolt 92 is rotated.
- the width D3 between the pair of inner side surfaces 85f and 85g of the nut holding portion 85b facing in the direction parallel to the fastening surface 85c is slightly wider than the two-surface width D4 of the nut 91, but is larger than the maximum outer diameter of the nut 91. Is also narrower. Therefore, the inner surfaces 85f and 85g prevent the nut 91 from being rotated with the rotation of the bolt 92.
- the bolt 92 and the nut 91 can be screwed together so that the clamping portion 85d and the fixing portion 20 can be clamped by the bolt 92 and the nut 91. That is, the first motor mounting portion 85 can be fixed to the mounting seat surface 23 of the motor fixing portion 13 by the bolt 92 and the nut 91.
- the second motor mounting portion 86 passes through the nut 93 inserted into the nut holding portion 86b and the third bolt insertion hole 26 and the bolt insertion hole 85e from the inside of the motor fixing portion 13 to the nut holding portion 86b. It can be fixed to the mounting seat surface 23 of the motor fixing portion 13 by the inserted bolt 94.
- the wiper motor 4 is configured such that the output portion 72 is fixed to the motor fixing portion 13 by the bolts 92 and 94 and the nuts 91 and 93 as motor fixing members at positions shifted from the bolt 52 and the nut 51. It is fixed to the fixing part 13.
- the first motor mounting portion 85 and the second motor mounting portion 86 may be simultaneously fixed to the motor fixing portion 13 or may be fixed to the motor fixing portion 13 in order from either one.
- the heights of the head portions 92a, 94a of the bolts 92, 94 that fix the first and second motor mounting portions 85, 86 to the motor fixing portion 13 are the heights of the side wall portions 21, 22 ( It is lower than the length from the fixed part 20 to the tip.
- the heads 92 a and 94 a of the bolts 92 and 94 are accommodated inside the motor fixing part 13 without protruding outside the motor fixing part 13 from the tips of the side wall parts 21 and 22.
- the motor portion 71 is located on the first pivot holder 1 side and the output portion 72 is located on the second pivot holder 2 side.
- a part of the motor unit 71 faces the mounting seat surface 23 of the first holder fixing unit 12, and the rotation axis L ⁇ b> 1 is substantially parallel to the mounting seat surface 23.
- the gear housing 81 of the output part 72 is in a state of protruding from the motor part 71 to the mounting seat surface 23 side. Therefore, the motor portion 71 is separated from the mounting seat surface 23 by a portion protruding in the direction orthogonal to the rotation axis L ⁇ b> 1 than the motor portion 71 in the gear housing 81.
- a space S1 surrounded by the motor unit 71, the output unit 72, and the mounting seat surface 23 of the first holder fixing unit 12 is formed.
- fixed part 12 is arrange
- the first end of the crank arm 66 is fixed to the tip of the output shaft 84 of the wiper motor 4 so as to be integrally rotatable.
- the crank arm 66 extends along the radial direction of the output shaft 84 so that the second end portion is located away from the rotation axis L2 of the output shaft 84 of the wiper motor 4 by a longitudinal length R1.
- the length R1 of the crank arm 66 is longer than the distance R2 from the rotation axis L2 of the output shaft 84 of the wiper motor 4 to the ends of the connection frame 3 (tips of the side walls 21, 22 of the connection fixing portion 11).
- a turning locus of the second end portion of the crank arm 66 is shown by a one-dot chain line in FIG.
- the crank arm 66 is configured so that the second end portion of the crank arm 66 partially passes through a region opposite to the wiper motor 4 (anti-wiper motor side region) with respect to the connecting frame 3 when viewed from the axial direction of the output shaft 84.
- a first end of the drive rod 67 is connected to the second end of the crank arm 66 through a ball joint 68 so as to be relatively rotatable, and a second end of the drive rod 67 is connected through a ball joint 69.
- the connecting rod 63 is connected so as to be relatively rotatable.
- the second end of the drive rod 67 is connected to a position of the connecting rod 63 near the second end of the connecting rod 63 (the end to which the second lever 62 is connected). .
- the driving force of the wiper motor 4 is transmitted to the first and second pivot shafts 34 and 44 via the crank arm 66, the drive rod 67, the connecting rod 63, and the first and second levers 61 and 62.
- the first and second pivot shafts 34, 44 are integrally rotated with the first and second wipers W1, W2. Then, the front windshield of the vehicle is wiped off by the first and second wipers W1, W2.
- the crank arm 66, the drive rod 67, the connecting rod 63, and the first and second levers 61 and 62 constitute a link member.
- the link member is connected to the rotation axis L1 of the rotation shaft 74 of the wiper motor 4 with respect to the motor fixing portion 13.
- the rotation axis L1 of the rotation shaft 74 of the wiper motor 4 is disposed on the proximal side in the axial direction of the first pivot shaft 34 with respect to the motor fixing portion 13.
- the first holder fixing portion 12 is formed in a U-shaped cross section by continuously smashing the hollow material constituting the first holder fixing portion 12 from the motor fixing portion 13. Therefore, it is not necessary to provide a gradual change portion for gradually changing the cross-sectional shape between the motor fixing portion 13 and the first holder fixing portion 12. Therefore, it becomes easy to bring the motor fixing part 13 close to the first holder fixing part 12 by a desired distance.
- the wiper motor 4 fixed to the motor fixing portion 13 can be easily placed close to the first pivot holder 1 fixed to the first holder fixing portion 12.
- connection frame 3 While the first holder fixing part 12 has a U-shaped cross section, the second holder fixing part 14 has a cylindrical shape. Therefore, the torsional rigidity of the connection frame 3 can be increased as compared with the case where the entire connection frame 3 has a U-shaped cross section. Therefore, even if the motor fixing portion 13 is close to the first holder fixing portion 12, the connection frame 3 having high torsional rigidity can be obtained.
- the nut 51 By inserting the nut 51 into the nut holding portion 36b of the holder mounting portion 36, the nut 51 can be held at a position to be fixed until the bolt 52 is screwed onto the nut 51. Further, after inserting the nut into the nut holding portion 36b of the holder mounting portion 36, the bolt 52 penetrating the first bolt insertion hole 24 of the first holder fixing portion 12 is inserted into the nut holding portion 36b from the bolt insertion hole 36e. By doing so, the tip of the bolt 52 can be guided to the hole of the nut 51.
- the nut holding part 36b rotates the bolt 52 penetrating the bolt insertion hole 36e to prevent the rotation of the nut 51, whereby the holder mounting part 36 is moved to the first holder fixing part 12 by the bolt 52 and the nut 51. Can be easily fixed.
- bolts 92 and 94 can be guided to the hole of nut 91,93.
- the nut holding portions 85b and 86b are rotated by the bolts 92 and 94 passing through the bolt insertion holes 85e and 86e to prevent the nuts 91 and 93 from rotating.
- the first and second motor attachment portions 85 and 86 can be easily fixed to the motor fixing portion 13.
- a part of the motor unit 71 faces the mounting seat surface 23 of the first holder fixing unit 12, and the gear housing 81 of the output unit 72 has a shape extending toward the mounting seat surface 23 rather than the motor unit 71. There is no. Therefore, when the wiper motor 4 is fixed to the mounting seat surface 23 of the motor fixing portion 13 at the output portion 72, the space surrounded by the motor portion 71, the output portion 72, and the mounting seat surface 23 of the first holder fixing portion 12. S1, that is, a dead space is formed. And since the holder attaching part 36 of the 1st pivot holder 1 is arrange
- crank arm 66 is rotated so that the second end of the crank arm 66 partially passes through the region opposite to the wiper motor 4 with respect to the connecting frame 3 when viewed from the direction of the rotation axis L2 of the output shaft 84. Move.
- the wiper motor 4 which is a heavy object, can be fixed close to the connection frame 3. Therefore, the space occupied by the entire apparatus including the operation region where the link member operates can be reduced.
- the hollow material is crushed and formed into a U-shaped cross section, so that the dimension H1 in the direction along the output shaft 84 of the wiper motor 4 in the motor fixing portion 13 is the first. It becomes smaller than the dimension H2 of the direction along the output shaft 84 of the wiper motor 4 in the 2 holder fixing
- FIG. Therefore, the distance H3 between the crank arm 66 fixed to the output shaft 84 and the motor fixing portion 13 can be set larger than in the case where the hollow material is not U-shaped in cross section. Thereby, interference with the crank arm 66 and the motor fixing
- the wiper motor 4 which is a heavy object, is arranged on the proximal end side in the direction along the axis of the first pivot shaft 34 with respect to the motor fixing portion 13 in the attached state to the connection frame 3. Therefore, it is possible to prevent the wiper motor 4 from hindering the impact mitigation of the collision object from above the vehicle (the tip end side of the pivot shaft 34). Further, the link member is arranged on the opposite side of the motor fixing portion 13 from the rotation axis L1 of the rotation shaft 74 of the wiper motor 4. Therefore, the deformation of the link member can mitigate the impact.
- the holder mounting portion 36 fixed to the first holder fixing portion 12 includes the motor portion 71, the output portion 72 (gear housing 81), and the mounting seat surface 23 of the first holder fixing portion 12. It arrange
- the wiper motor 4 includes the motor unit 71 that generates a rotational force and the output unit 72 that decelerates and outputs the rotation generated by the motor unit 71.
- the wiper motor 4 is not limited to the above configuration as long as it outputs a rotational force that rotates the crank arm 66.
- the first and second motor mounting portions 85 and 86 fixed to the outer surface of the motor fixing portion 13 have nut holding portions 85b and 86b that hold the inserted nuts 91 and 93, respectively.
- the first and second motor mounting portions 85 and 86 are not necessarily provided with nut holding portions 85b and 86b as long as the wiper motor 4 is fixed to the motor fixing portion 13 by being fixed to the motor fixing portion 13. It does not have to be.
- the bolts 52, 92, and 94 are not limited to hexagon socket head bolts, but may be hexagon bolts or the like.
- the nuts 91 and 93 and the bolts 92 and 94 are used as the motor fixing member that fixes the wiper motor 4 to the motor fixing portion 13.
- the motor fixing member is not limited to the nut and the bolt as long as the wiper motor 4 can be fixed to the motor fixing portion 13.
- the holder attaching portion 36 fixed to the first holder fixing portion 12 has the nut holding portion 36b that holds the inserted nut 51.
- the holder mounting portion 36 does not necessarily include the nut holding portion 36b as long as it is fixed to the first holder fixing portion 12 to fix the first pivot holder 1 to the first holder fixing portion 12. Also good.
- the head portion 52a of the bolt 52 is accommodated inside the first holder fixing portion 12, but the head portion 52a is not necessarily accommodated inside the first holder fixing portion 12. .
- a part of the head 52a may be arranged outside the first holder fixing part 12.
- the heads 92a, 94a of the bolts 92, 94 are accommodated inside the motor fixing part 13, but the heads 92a, 94a are not necessarily accommodated inside the motor fixing part 13. Also good.
- part of the heads 92a and 94a may be disposed outside the motor fixing unit 13.
- the nut 51 and the bolt 52 are used as a holder fixing member that fixes the first pivot holder 1 to the first holder fixing portion 12.
- the holder fixing member is not limited to a nut and a bolt.
- the second pivot holder 2 is fixed to the second holder fixing portion 14 by caulking the second holder fixing portion 14 in which the mounting shaft 46 is inserted.
- the second pivot holder 2 includes the second holder fixing portion 14 by means of a bolt penetrating the second holder fixing portion 14 and the mounting shaft 46 in a direction orthogonal to the axial direction of the mounting shaft 46 and a nut screwed to the bolt. It may be fixed to.
- the second holder fixing portion 14 has a cylindrical shape with a circular cross section, but may have a cylindrical shape such as a polygonal cross section or an elliptical cross section.
- fixed part 14 may be crushed similarly to the 1st holder fixing
- a gradual change portion may be provided between the second holder fixing portion 14 and the connecting portion 15 to leave the cylindrical connecting portion 15 between the second holder fixing portion 14 and the motor fixing portion 13.
- the link member that transmits the rotational force output from the wiper motor 4 to the first and second pivot shafts 34, 44 is the crank arm 66, the drive rod 67, the connecting rod 63, the first and second levers. 61, 62.
- the configuration of the link member may be changed as appropriate.
- the connecting and fixing portion 11 includes a flat plate-like fixing portion 20 and a pair of side wall portions 21 and 22 that are bent substantially at right angles to the fixing portion 20 on both sides in the short direction of the fixing portion 20. It is composed of That is, the description “cross-sectional U-shape” in the present embodiment is not intended to limit the connection fixing portion 11 to a shape including a curve.
- the cross section of the connecting and fixing part 11 in the above embodiment may be configured to partially include a curved surface, or may be configured to be entirely curved.
- link member Drive rod 71 ... motor portion, 72 ... output portion, 85 ... first motor mounting portion as a motor mounting portion, 85b, 86b ... nut holding portion, 85e, 86e Bolt insertion holes, the second motor mounting portion of the 86 ... motor mounting portion, 91, 93 ... nut as a motor fixing member, a bolt as 92, 94 ... motor fixing member, 92a, 94a ... head, S1 ... space.
Abstract
Description
この構成によれば、第1ホルダ固定部は断面U字状である一方、第2ホルダ固定部は筒状をなす。そのため、連結フレーム全体が断面U字状である場合に比べて、連結フレームのねじり剛性を高めることができる。従って、モータ固定部を第1ホルダ固定部に近づけた構成であっても、ねじり剛性の高い連結フレームを得ることができる。 In the wiper device, it is preferable that the second holder fixing portion has a cylindrical shape.
According to this configuration, the first holder fixing portion has a U-shaped cross section, while the second holder fixing portion has a cylindrical shape. Therefore, the torsional rigidity of the connection frame can be increased as compared with the case where the entire connection frame has a U-shaped cross section. Therefore, even with a configuration in which the motor fixing portion is close to the first holder fixing portion, a connection frame having high torsional rigidity can be obtained.
上記ワイパ装置において、前記ホルダ固定部材は、前記第1ホルダ固定部の前記取付座面に前記第1ピボットホルダを固定するボルト及びナットであり、当該ボルトの頭部は前記第1ホルダ固定部の内側に収容されていることが好ましい。 According to this configuration, since the head portion of the bolt that fixes the wiper motor to the motor fixing portion is housed inside the motor fixing portion, the bolt head portion can be prevented from interfering with surrounding components.
In the wiper device, the holder fixing member is a bolt and a nut for fixing the first pivot holder to the mounting seat surface of the first holder fixing portion, and a head portion of the bolt is a member of the first holder fixing portion. It is preferable to be accommodated inside.
図1(a)に示すように、ワイパ装置は、図示しない車両のフロントウインドシールドの下方で車体に対して固定されるものである。 Hereinafter, an embodiment of the wiper device will be described.
As shown to Fig.1 (a), a wiper apparatus is fixed with respect to a vehicle body under the front windshield of the vehicle which is not shown in figure.
モータ部71は、例えば直流モータよりなり、略有底円筒状のヨークハウジング73の内側に回転軸74と一体に回転駆動される図示しない回転電機子が収容されている。回転軸74の先端部は、ヨークハウジング73の開口部から出力部72の内部に突出している。また、回転軸74において、ヨークハウジング73の外部に延びて出力部72の内部に配置された先端側の部分には、螺子歯状のウォーム75が形成されている。 As shown in FIG. 3A, the
The
第1ホルダ固定部12は、第1ホルダ固定部12を構成する中空材がモータ固定部13から連続して潰されて断面U字状に成形されている。そのため、モータ固定部13と第1ホルダ固定部12との間に、断面形状を徐々に変更するための徐変部を設けなくてもよい。従って、モータ固定部13を所望の距離だけ第1ホルダ固定部12に近づけることが容易となる。 Next, the operation of this embodiment will be described.
The first
(1)モータ固定部13に固定されるワイパモータ4を、第1ホルダ固定部12に固定される第1ピボットホルダ1に容易に近接させて配置することができる。 Next, advantageous effects of this embodiment will be described.
(1) The
・上記実施形態では、第1ホルダ固定部12に固定されたホルダ取付部36は、モータ部71と、出力部72(ギヤハウジング81)と、第1ホルダ固定部12の取付座面23との間の空間S1に配置されている。しかしながら、ホルダ取付部36は、当該空間S1から外れた位置に配置されるものであってもよい。 In addition, you may change the said embodiment as follows.
In the above embodiment, the
・上記実施形態では、ワイパモータ4をモータ固定部13に固定するモータ固定部材として、ナット91,93及びボルト92,94が用いられている。しかしながら、ワイパモータ4をモータ固定部13に固定することができるのであれば、モータ固定部材は、ナット及びボルトに限らない。 The
In the above-described embodiment, the nuts 91 and 93 and the
Claims (10)
- それぞれワイパが連結される第1及び第2ピボット軸と、
該第1及び第2ピボット軸をそれぞれ支持する第1及び第2ピボットホルダと、
中空材からなり、長手方向の第1端部に前記第1ピボットホルダが固定される第1ホルダ固定部を有し、長手方向の第2端部に前記第2ピボットホルダが固定される第2ホルダ固定部を有し、前記第1ホルダ固定部と前記第2ホルダ固定部との間に前記中空材が潰されて断面U字状に成形されたモータ固定部を有する連結フレームと、
前記モータ固定部に固定されるワイパモータと、
前記ワイパモータの駆動力を前記第1及び第2ピボット軸に伝達するリンク部材と、
を備えたワイパ装置であって、
前記第1ホルダ固定部は、前記モータ固定部から連続して前記中空材が潰されて断面U字状に成形されており、
前記第1ピボットホルダは、前記第1ホルダ固定部にホルダ固定部材にて固定され、
前記ワイパモータは、前記ホルダ固定部材からずれた位置で前記モータ固定部にモータ固定部材にて固定されていることを特徴とするワイパ装置。 First and second pivot shafts to which wipers are respectively connected;
First and second pivot holders for supporting the first and second pivot shafts, respectively;
A second member is made of a hollow material and has a first holder fixing portion to which the first pivot holder is fixed at a first end portion in the longitudinal direction, and the second pivot holder is fixed to a second end portion in the longitudinal direction. A connecting frame having a holder fixing portion, and having a motor fixing portion in which the hollow material is crushed and formed into a U-shaped cross section between the first holder fixing portion and the second holder fixing portion;
A wiper motor fixed to the motor fixing portion;
A link member for transmitting the driving force of the wiper motor to the first and second pivot shafts;
A wiper device comprising:
The first holder fixing part is formed in a U-shaped cross-section by continuously crushing the hollow material from the motor fixing part,
The first pivot holder is fixed to the first holder fixing portion with a holder fixing member,
The wiper device, wherein the wiper motor is fixed to the motor fixing portion by a motor fixing member at a position shifted from the holder fixing member. - 請求項1に記載のワイパ装置において、
前記第2ホルダ固定部は、筒状をなすことを特徴とするワイパ装置。 The wiper device according to claim 1,
The wiper device characterized in that the second holder fixing portion has a cylindrical shape. - 請求項1又は請求項2に記載のワイパ装置において、
前記連結フレームは、前記モータ固定部と前記第1ホルダ固定部とに亘って外側面を延びる取付座面を有し、
前記モータ固定部材は、前記モータ固定部の前記取付座面に前記ワイパモータを固定するボルト及びナットであり、当該ボルトの頭部は前記モータ固定部の内側に収容されていることを特徴とするワイパ装置。 The wiper device according to claim 1 or 2,
The connection frame has a mounting seat surface extending an outer surface across the motor fixing portion and the first holder fixing portion,
The motor fixing member is a bolt and a nut for fixing the wiper motor to the mounting seat surface of the motor fixing portion, and a head of the bolt is housed inside the motor fixing portion. apparatus. - 請求項3に記載のワイパ装置において、
前記ホルダ固定部材は、前記第1ホルダ固定部の前記取付座面に前記第1ピボットホルダを固定するボルト及びナットであり、当該ボルトの頭部は前記第1ホルダ固定部の内側に収容されていることを特徴とするワイパ装置。 The wiper device according to claim 3.
The holder fixing member is a bolt and a nut for fixing the first pivot holder to the mounting seat surface of the first holder fixing portion, and a head portion of the bolt is accommodated inside the first holder fixing portion. A wiper device characterized by comprising: - 請求項1乃至請求項4の何れか1項に記載のワイパ装置において、
前記ホルダ固定部材は、前記第1ホルダ固定部に前記第1ピボットホルダを固定するボルト及びナットであり、
前記第1ピボットホルダは、前記ボルト及びナットにて前記第1ホルダ固定部の外側面に固定されるホルダ取付部を有し、
前記ホルダ取付部は、内側に前記ナットを保持し当該ナットの回転を阻止する凹状のナット保持部と、当該ナット保持部と連続して設けられ前記第1ホルダ固定部を貫通した前記ボルトが挿通されるボルト挿通孔とを有することを特徴とするワイパ装置。 The wiper device according to any one of claims 1 to 4,
The holder fixing member is a bolt and a nut for fixing the first pivot holder to the first holder fixing portion;
The first pivot holder has a holder mounting portion fixed to an outer surface of the first holder fixing portion with the bolt and nut,
The holder attaching portion includes a concave nut holding portion that holds the nut inside and prevents rotation of the nut, and the bolt that is provided continuously with the nut holding portion and penetrates the first holder fixing portion. A wiper device having a bolt insertion hole. - 請求項5に記載のワイパ装置において、
前記モータ固定部材は、前記モータ固定部に前記ワイパモータを固定するボルト及びナットであり、
前記ワイパモータは、前記ボルト及びナットにて前記モータ固定部の外側面に固定されるモータ取付部を有し、
前記モータ取付部は、内側に前記ナットを保持し当該ナットの回転を阻止する凹状のナット保持部と、当該ナット保持部と連続して設けられ前記モータ固定部を貫通した前記ボルトが挿通されるボルト挿通孔とを有することを特徴とするワイパ装置。 The wiper device according to claim 5,
The motor fixing member is a bolt and a nut for fixing the wiper motor to the motor fixing portion,
The wiper motor has a motor mounting portion fixed to the outer surface of the motor fixing portion with the bolt and nut.
The motor mounting portion includes a concave nut holding portion that holds the nut inside to prevent rotation of the nut, and the bolt that is provided continuously with the nut holding portion and penetrates the motor fixing portion. A wiper device having a bolt insertion hole. - 請求項5又は請求項6に記載のワイパ装置において、
前記連結フレームは、前記モータ固定部と前記第1ホルダ固定部とに亘って外側面を延びる取付座面を有し、
前記ワイパモータは、少なくとも一部が前記第1ホルダ固定部の前記取付座面と対向する位置に配置され回転力を発生するモータ部と、前記モータ部と一体に設けられ前記モータ部よりも前記取付座面に向かって突出し前記モータ固定部の前記取付座面に固定され前記モータ部の回転を減速して出力する出力部とを有し、
前記ホルダ取付部は、前記第1ホルダ固定部の前記取付座面と前記モータ部と前記出力部とに囲まれた空間に配置されていることを特徴とするワイパ装置。 The wiper device according to claim 5 or 6,
The connection frame has a mounting seat surface extending an outer surface across the motor fixing portion and the first holder fixing portion,
The wiper motor is disposed at a position at least partially facing the mounting seat surface of the first holder fixing portion and generates a rotational force; and the motor portion is provided integrally with the motor portion and is mounted more than the motor portion. An output portion that protrudes toward the seat surface and is fixed to the mounting seat surface of the motor fixing portion and decelerates and outputs the rotation of the motor portion;
The wiper device, wherein the holder mounting portion is disposed in a space surrounded by the mounting seat surface of the first holder fixing portion, the motor portion, and the output portion. - 請求項3及び請求項3を引用する請求項4~7の何れか1項に記載のワイパ装置において、
前記リンク部材は、前記第1ピボット軸に第1端部が固定された第1レバーと、前記第2ピボット軸に第1端部が固定された第2レバーと、前記第1レバーと前記第2レバーとを駆動連結する連結ロッドと、前記ワイパモータの出力軸に第1端部が固定されたクランクアームと、該クランクアームの第2端部と前記連結ロッドの中間部とにそれぞれ駆動連結された駆動ロッドとを有し、
前記クランクアームは、前記出力軸の回転軸線方向からみて、前記クランクアームの第2端部が前記連結フレームに対して前記ワイパモータと反対側の領域を部分的に通過するように回動することを特徴とするワイパ装置。 The wiper device according to any one of claims 4 to 7, which refers to claim 3 and claim 3.
The link member includes a first lever having a first end fixed to the first pivot shaft, a second lever having a first end fixed to the second pivot shaft, the first lever, and the first lever. A connecting rod for driving and connecting the two levers, a crank arm having a first end fixed to the output shaft of the wiper motor, and a second end of the crank arm and an intermediate portion of the connecting rod. A drive rod,
The crank arm is rotated so that the second end portion of the crank arm partially passes through a region opposite to the wiper motor with respect to the connection frame when viewed from the rotation axis direction of the output shaft. A wiper device characterized. - 請求項1~8の何れか1項に記載のワイパ装置において、
前記モータ固定部における前記ワイパモータの出力軸に沿った方向の寸法は、前記第2ホルダ固定部における前記ワイパモータの出力軸に沿った方向の寸法よりも小さいことを特徴とするワイパ装置。 The wiper device according to any one of claims 1 to 8,
The wiper device according to claim 1, wherein a dimension of the motor fixing portion along the output shaft of the wiper motor is smaller than a dimension of the second holder fixing portion along the output shaft of the wiper motor. - 請求項1~9の何れか1項に記載のワイパ装置において、
前記ワイパモータの出力軸の回転軸線と直交する方向から見て、前記リンク部材は、前記モータ固定部に対して前記ワイパモータの回転軸の回転軸線とは反対側に配置され、
前記ワイパモータの回転軸の回転軸線は前記モータ固定部よりも前記第1ピボット軸の軸線方向基端側に配置されていることを特徴とするワイパ装置。 The wiper device according to any one of claims 1 to 9,
The link member is disposed on the opposite side to the rotation axis of the rotation shaft of the wiper motor with respect to the motor fixing portion when viewed from a direction orthogonal to the rotation axis of the output shaft of the wiper motor.
The wiper device according to claim 1, wherein a rotation axis of a rotation shaft of the wiper motor is disposed closer to a proximal end side in the axial direction of the first pivot shaft than the motor fixing portion.
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JP5351324B2 (en) | 2012-10-29 | 2013-11-27 | アスモ株式会社 | Wiper device |
-
2017
- 2017-11-22 WO PCT/JP2017/041994 patent/WO2018110235A1/en active Application Filing
- 2017-11-22 JP JP2018556529A patent/JPWO2018110235A1/en active Pending
- 2017-11-22 KR KR1020197014252A patent/KR20190072593A/en not_active Application Discontinuation
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2000038117A (en) * | 1998-07-24 | 2000-02-08 | Asmo Co Ltd | Manufacture of wiper device and hollow frame of wiper device |
JP2007153111A (en) * | 2005-12-05 | 2007-06-21 | Asmo Co Ltd | Wiper |
JP2007182200A (en) * | 2006-01-10 | 2007-07-19 | Asmo Co Ltd | Wiper device |
JP2009113569A (en) * | 2007-11-05 | 2009-05-28 | Mitsuba Corp | Wiper device |
JP2009208740A (en) * | 2008-03-06 | 2009-09-17 | Asmo Co Ltd | Wiper device |
JP2010137685A (en) * | 2008-12-11 | 2010-06-24 | Asmo Co Ltd | Wiper device |
JP2016094081A (en) * | 2014-11-13 | 2016-05-26 | アスモ株式会社 | Vehicle wiper device and vehicle front part structure |
Also Published As
Publication number | Publication date |
---|---|
KR20190072593A (en) | 2019-06-25 |
JPWO2018110235A1 (en) | 2019-10-24 |
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