JP7412194B2 - Wiper blade and blower device - Google Patents

Description

The present disclosure relates to wiper blades and blower devices.

A known method for removing liquid present on the surface of an object is to wipe the surface of the object with a wiper blade. Furthermore, a method of sucking liquid is known, as disclosed in Patent Document 1.

German Patent Application No. 102008004966

When removing liquid present on the surface of an object, there is a need for a technique that can remove the liquid evenly and efficiently.

The present disclosure aims to remove liquid on the surface of an object evenly and efficiently.

According to the present disclosure, there is provided a wiper blade attached to a blower device, comprising a wiping member that has a gas outlet that blows out gas supplied from the blower device and wipes the surface of an object. A blade is provided.

According to the present disclosure, liquid on the surface of an object can be removed evenly and efficiently.

FIG. 1 is a perspective view from the rear showing a blower device according to an embodiment. FIG. 2 is a perspective view from the front showing the blower device according to the embodiment. FIG. 3 is a perspective view showing a part of the internal structure of the blower device according to the embodiment. FIG. 4 is a side view showing the nozzle part and wiper blade according to the embodiment. FIG. 5 is a sectional view showing a nozzle part and a wiper blade according to the embodiment. FIG. 6 is an exploded perspective view from the rear showing the nozzle part and wiper blade according to the embodiment. FIG. 7 is an exploded perspective view from the front showing the nozzle part and wiper blade according to the embodiment. FIG. 8 is a plan view from above showing the wiper blade according to the embodiment. FIG. 9 is a front view from the front showing the wiper blade according to the embodiment. FIG. 10 is a side view from the left showing the wiping member according to the embodiment. FIG. 11 is a plan view from above showing the wiping member according to the embodiment. FIG. 12 is a plan view from below showing the wiping member according to the embodiment. FIG. 13 is a front view from the front showing the wiping member according to the embodiment. FIG. 14 is a sectional view showing the wiping member according to the embodiment. FIG. 15 is a diagram for explaining the operation of the blower device according to the embodiment. FIG. 16 is a diagram for explaining a gas outlet according to another embodiment. FIG. 17 is a diagram for explaining a gas outlet according to another embodiment. FIG. 18 is a diagram for explaining a gas outlet according to another embodiment. FIG. 19 is a side view showing an attachment according to another embodiment. FIG. 20 is a plan view from below showing an attachment according to another embodiment.

Hereinafter, embodiments according to the present disclosure will be described with reference to the drawings, but the present disclosure is not limited thereto. The components of the embodiments described below can be combined as appropriate. Furthermore, some components may not be used.

In the embodiment, the positional relationship of each part will be described using the terms "left", "right", "front", "rear", "upper", and "lower". These terms indicate relative positions or directions with respect to the center of the blower device 1.

[Blower device]
FIG. 1 is a perspective view from the rear showing a blower device 1 according to an embodiment. FIG. 2 is a perspective view from the front showing the blower device 1 according to the embodiment. FIG. 3 is a perspective view showing a part of the internal structure of the blower device 1 according to the embodiment.

The blower device 1 injects gas onto the surface of an object to remove foreign matter present on the surface of the object. The gas is air. Note that the gas may not be air. A liquid is exemplified as a foreign substance that exists on the surface of an object. Examples of the liquid present on the surface of an object include water droplets or a water film that remains on the surface of the object after the object is washed with water. A glass window or a tile wall is exemplified as an object to be washed with water.

As shown in FIGS. 1, 2, and 3, the blower device 1 includes a main body portion 2, a grip portion 3, a battery mounting portion 4, a trigger switch 5, a duct portion 6, a nozzle portion 7, A wiper blade 8 is provided.

The main body 2 includes a fan 9 , a motor 10 that rotates the fan 9 , a fan housing 11 that accommodates the fan 9 , and a motor housing 12 that accommodates the motor 10 .

The fan 9 rotates around a rotation axis AX. The rotation axis AX extends in the left-right direction. As the fan 9 rotates, airflow is generated.

The motor 10 is a power source for the blower device 1 . The motor 10 generates power to rotate the fan 9. Motor 10 is arranged on the right side of fan 9. The motor 10 is an inner rotor type brushless motor. The motor 10 has a cylindrical stator and a rotor disposed inside the stator. The rotor has a rotor shaft connected to a fan 9. As the rotor rotates, the fan 9 rotates.

Fan housing 11 accommodates fan 9. The fan housing 11 has a gas inlet 13 and a gas outlet 14 . The gas inlet 13 is provided on the left side of the fan housing 11. The gas outlet 14 is provided at the front of the fan housing 11. As the fan 9 rotates, at least a portion of the gas around the fan housing 11 flows into the internal space of the fan housing 11 via the gas inlet 13 . The gas that has flowed into the internal space of the fan housing 11 flows out from the gas outlet 14 as the fan 9 rotates.

Motor housing 12 houses motor 10 . The motor housing 12 is connected to the right side of the fan housing 11.

The grip part 3 is held by the user of the blower device 1. The blower device 1 is a portable blower device. The user can perform work using the blower device 1 while holding the grip portion 3. The grip part 3 is connected to the motor housing 12. The grip portion 3 is annular.

The battery mounting part 4 is arranged at the lower part of the grip part 3. A battery 15 is attached to the battery attachment section 4 .

The battery 15 supplies power to the electric equipment or electronic equipment mounted on the blower device 1 while being installed in the battery installation part 4 . Battery 15 supplies power to at least motor 10 . The battery 15 is a general-purpose battery that can be used as a power source for various electrical or electronic devices. The battery 15 can be used as a power source for the power tool. The battery 15 can be used as a power source for electrical equipment or electronic equipment other than power tools. The battery 15 can be used as a power source for a blower device other than the blower device 1 according to the embodiment. Battery 15 includes a lithium ion battery. The battery 15 is a rechargeable battery. The battery mounting section 4 has a structure similar to that of a battery mounting section of a power tool.

The user of the blower device 1 can carry out the work of mounting the battery 15 on the battery mounting part 4 and the work of removing the battery 15 from the battery mounting part 4. The battery mounting section 4 includes a guide member that guides the battery 15 and a main body terminal that is connected to a battery terminal of the battery 15. The user can attach the battery 15 to the battery attachment section 4 by inserting the battery 15 into the battery attachment section 4 from behind. The battery 15 is inserted into the battery mounting portion 4 while being guided by the guide member. By attaching the battery 15 to the battery attachment part 4, the battery terminal of the battery 15 and the main body terminal of the battery attachment part 4 are electrically connected. The user of the blower device 1 can remove the battery 15 from the battery mounting portion 4 by moving the battery 15 backward.

The trigger switch 5 is operated by a user to start the motor 10. The trigger switch 5 is provided on the grip section 3. The trigger switch 5 includes a trigger member 5A and a switch body 5B. At least a portion of the trigger member 5A protrudes from the surface of the grip portion 3. The switch main body portion 5B is arranged in the internal space of the grip portion 3. When the trigger member 5A is operated by the user's finger holding the grip portion 3, the motor 10 is switched between driving and stopping.

The duct part 6 is connected to the fan housing 11. The duct portion 6 has an internal flow path through which gas can flow. At least a portion of the duct portion 6 is flexible.

In the embodiment, the duct portion 6 includes a first joint pipe 6A, a hose 6B, and a second joint pipe 6C. The first joint pipe 6A is connected to the fan housing 11. At least a portion of the first joint pipe 6A is inserted into the gas outlet 14. Hose 6B is flexible. A bellows hose is exemplified as the flexible hose 6B. The rear end of the hose 6B and the first joint pipe 6A are connected. The front end of the hose 6B and the second joint pipe 6C are connected. The second joint pipe 6C is connected to the nozzle section 7.

The gas flowing out from the gas outlet 14 of the fan housing 11 flows through the internal flow path of the duct portion 6. In the embodiment, the gas flowing out from the gas outlet 14 flows through the internal flow path of the first joint pipe 6A, flows through the internal flow path of the hose 6B, and then flows through the internal flow path of the second joint pipe 6C. .

The nozzle section 7 is connected to the duct section 6 and the wiper blade 8, respectively. The nozzle portion 7 has an internal flow path through which gas can flow.

In the embodiment, the nozzle portion 7 includes a joint pipe 7A, a mounting member 7B, and a rotation mechanism 7C. Joint pipe 7A is connected to second joint pipe 6C. The mounting member 7B is connected to the wiper blade 8. The rotation mechanism 7C is arranged between the joint pipe 7A and the mounting member 7B. The rotation mechanism 7C rotatably supports the mounting member 7B.

Gas flowing out from the gas outlet 14 of the fan housing 11 and flowing through the internal flow path of the duct portion 6 flows into the internal flow path of the nozzle portion 7 . The gas that has passed through the internal flow path of the nozzle section 7 is supplied to the wiper blade 8. The gas supplied to the wiper blade 8 flows through the internal flow path of the nozzle portion 7 . In the embodiment, the gas that has passed through the internal flow path of the duct portion 6 flows through the internal flow path of the joint pipe 7A, and after flowing through the internal flow path of the mounting member 7B, is supplied to the wiper blade 8.

The mounting member 7B is connected to the joint pipe 7A via a rotation mechanism 7C. The mounting member 7B is rotatable around the rotation axis BX. The rotation axis BX extends in the left-right direction.

FIG. 4 is a side view showing the nozzle part 7 and wiper blade 8 according to the embodiment. FIG. 5 is a sectional view showing the nozzle part 7 and wiper blade 8 according to the embodiment. FIG. 6 is an exploded perspective view from the rear showing the nozzle part 7 and wiper blade 8 according to the embodiment. FIG. 7 is an exploded perspective view from the front showing the nozzle part 7 and wiper blade 8 according to the embodiment.

As shown in FIGS. 4, 5, 6, and 7, the joint pipe 7A includes a pipe portion 7Aa and a connecting portion 7Ab. The pipe portion 7Aa is connected to the second joint pipe 6C of the duct portion 6. The connecting portion 7Ab is connected to the mounting member 7B. The connecting portion 7Ab is arranged in front of the pipe portion 7Aa. The connecting portion 7Ab has a pair of plate portions 7Abp arranged in the left-right direction. The pair of plate portions 7Abp face each other with a gap interposed therebetween. The space between the pair of plate parts 7Abp communicates with the internal flow path of the pipe part 7Aa.

The mounting member 7B has a connecting portion 7Ba and a mounting portion 7Bb. The connecting portion 7Ba is connected to the connecting portion 7Ab of the joint pipe 7A. The mounting portion 7Bb is connected to the wiper blade 8. The connecting portion 7Ba is arranged above the mounting portion 7Bb. The connecting portion 7Ba has a substantially cylindrical shape. The connecting portion 7Ba is arranged between the pair of plate portions 7Abp. With the connecting portion 7Ba disposed between the pair of plate portions 7Abp, the internal flow path of the connecting portion 7Ba communicates with the internal flow path of the pipe portion 7Aa.

The rotation mechanism 7C includes a joint opening 7Ca provided in the connecting portion 7Ab of the joint pipe 7A, a stopper opening 7Cb provided in the connecting portion 7Ab of the joint pipe 7A, and a joint provided in the connecting portion 7Ba of the mounting member 7B. It has a convex portion 7Cc and a stopper convex portion 7Cd provided on the connecting portion 7Ba of the mounting member 7B.

The joint opening 7Ca is provided in each of the pair of plate parts 7Abp. Joint opening 7Ca is provided to include rotation axis BX.

The stopper opening 7Cb is provided in each of the pair of plate portions 7Abp. A plurality of stopper openings 7Cb are provided around the joint opening 7Ca. The plurality of stopper openings 7Cb are arranged at intervals. In the radial direction of the rotation axis BX, the distances between the rotation axis BX and each of the plurality of stopper openings 7Cb are equal.

The joint convex portion 7Cc is provided on each of the left and right surfaces of the connecting portion 7Ba. The joint convex portion 7Cc is provided so as to include the rotation axis BX. The joint convex portion 7Cc is arranged in the joint opening 7Ca. With the joint convex portion 7Cc disposed in the joint opening 7Ca, the connecting portion 7Ab and the connecting portion 7Ba are relatively rotatable about the rotation axis BX.

The stopper convex portion 7Cd is provided on each of the left and right surfaces of the connecting portion 7Ba. One stopper convex portion 7Cd is provided around the joint convex portion 7Cc. The stopper convex portion 7Cd can be arranged in the stopper opening 7Cb. By arranging the stopper convex portion 7Cd in the stopper opening 7Cb, relative rotation between the connecting portion 7Ab and the connecting portion 7Ba is regulated. The stopper opening 7Cb and the stopper convex portion 7Cd function as a rotation restriction mechanism 7S that restricts rotation of the mounting member 7B.

The user can adjust the angle of the mounting member 7B with respect to the joint pipe 7A by relatively rotating the connecting portion 7Ab and the connecting portion 7Ba. The user can fix the mounting member 7B at an arbitrary angle with respect to the joint pipe 7A by arranging the stopper protrusion 7Cd in an arbitrary stopper opening 7Cb among the plurality of stopper openings 7Cb.

[Wiper blade]
The wiper blade 8 wipes the surface of the object. The wiper blade 8 is attached to the nozzle section 7. A wiper blade 8 can be attached to and detached from the nozzle section 7 . In the embodiment, the wiper blade 8 is attached to the attachment portion 7Bb of the attachment member 7B.

An opening 7Bm is provided at the lower end of the mounting portion 7Bb. The opening 7Bm is arranged at the lower end of the internal flow path of the mounting member 7B. At least a portion of the wiper blade 8 is inserted into the internal flow path of the mounting member 7B via the opening 7Bm. The wiper blade 8 is attached to the attachment member 7B by inserting at least a portion of the wiper blade 8 into the internal flow path of the attachment member 7B through the opening 7Bm.

FIG. 8 is a plan view from above showing the wiper blade 8 according to the embodiment. FIG. 9 is a front view from the front showing the wiper blade 8 according to the embodiment. As shown in FIG. 4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. A wiping member 17 for wiping is provided. The wiping member 17 has a gas outlet 18 that blows out the gas supplied from the gas outlet 14 of the main body 2 onto the surface of the object.

The holding member 16 holds the upper part of the wiping member 17. The holding member 16 is long in the front-rear direction. The front-rear direction is the longitudinal direction of the holding member 16. The left-right direction is the lateral direction of the holding member 16. The holding member 16 is attached to the attachment member 7B.

The holding member 16 has a main body portion 16A, a groove portion 16B, a flow path 16C, a first convex portion 16D, and a second convex portion 16E.

The main body portion 16A is long in the front-rear direction. The outer shape of the main body portion 16A is substantially rectangular parallelepiped. The main body portion 16A is made of synthetic resin. Note that the main body portion 16A may be made of metal.

The groove portion 16B is formed to be recessed upward from the lower surface of the main body portion 16A. The groove portion 16B is long in the front-rear direction. Two groove portions 16B are provided in the left and right direction. As shown in FIG. 9, the groove portion 16B has a first width portion 16Ba and a second width portion 16Bb arranged above the first width portion 16Ba. The opening at the lower end of the first width portion 16Ba is provided on the lower surface of the main body portion 16A. In the left-right direction, the dimension Wa of the first width portion 16Ba is smaller than the dimension Wb of the second width portion 16Bb.

16 C of flow paths are formed so that the upper surface and lower surface of 16 A of main-body parts may be penetrated. Gas can flow through the flow path 16C. As shown in FIG. 8, the flow path 16C is long in the front-rear direction. In the left-right direction, the flow path 16C is formed in the center of the main body 16A. The gas flowing out from the gas outlet 14 and supplied to the holding member 16 via the duct portion 6 and the nozzle portion 7 flows through the flow path 16C.

The first convex portion 16D is provided on the front surface of the main body portion 16A. The first convex portion 16D protrudes forward from the front surface of the main body portion 16A.

The second convex portion 16E is provided on the rear surface of the main body portion 16A. The second convex portion 16E includes a first extending portion 16Ea connected to the rear surface of the main body portion 16A and extending upward, and a second extending portion 16Ea connected to the upper end portion of the first extending portion 16Ea via a bent portion 16Ec and extending downward. 16Eb, a projection 16Ed that projects rearward from the lower end of the second extension 16Eb, and a projection 16Ee that is arranged above the projection 16Ed and projects rearward from the second extension 16Eb. The second convex portion 16E can be elastically deformed so that the first extending portion 16Ea and the second extending portion 16Eb approach each other.

The holding member 16 is attached to the attachment member 7B. The holding member 16 is inserted into an opening 7Bm formed on the lower surface of the mounting member 7B. The opening 7Bm is long in the front-back direction. The opening 7Bm is connected to the internal flow path of the mounting member 7B. By inserting the holding member 16 into the opening 7Bm, the holding member 16 is attached to the mounting member 7B.

The nozzle portion 7 has an attachment/detachment mechanism 7D to which the wiper blade 8 can be attached and detached. In the embodiment, the attachment/detachment mechanism 7D attaches and detaches the holding member 16.

The attachment/detachment mechanism 7D includes a first hole 7Da provided at the front of the attachment member 7B, and a second hole 7Db provided at the rear of the attachment member 7B. Mounting member 7B has an inner surface facing the internal flow path of mounting member 7B. Each of the first hole 7Da and the second hole 7Db is formed to penetrate the inner and outer surfaces of the mounting member 7B. The holding member 16 is attached to the attachment member 7B by inserting the first protrusion 16D into the first hole 7Da and inserting the protrusion 16Ee of the second protrusion 16E into the second hole 7Db.

As described above, the second convex portion 16E is elastically deformable. When attaching the holding member 16 to the attachment member 7B, the user inserts at least a portion of the main body portion 16A into the opening 7Bm, inserts the first convex portion 16D into the first hole 7Da, and then inserts the second convex portion 16E. is inserted into the internal flow path of the mounting member 7B while being elastically deformed. The user inserts the main body portion 16A into the internal channel of the mounting member 7B so that the protrusion portion 16Ee is inserted into the second hole 7Db. By inserting the protrusion 16Ee into the second hole 7Db, the holding member 16 is attached to the attachment member 7B. When removing the holding member 16 from the mounting member 7B, the user elastically deforms the second protrusion 16E so that the protrusion 16Ee is removed from the second hole 7Db. After the projection 16Ee is removed from the second hole 7Db, the user can remove the holding member 16 from the mounting member 7B by moving the main body 16A downward.

FIG. 10 is a side view from the left showing the wiping member 17 according to the embodiment. FIG. 11 is a plan view from above showing the wiping member 17 according to the embodiment. FIG. 12 is a plan view from below showing the wiping member 17 according to the embodiment. FIG. 13 is a front view from the front showing the wiping member 17 according to the embodiment. FIG. 14 is a sectional view showing the wiping member 17 according to the embodiment. As shown in FIGS. 9, 10, 11, 12, 13, and 14, the wiping member 17 has a gas outlet 18 that blows out the gas supplied from the fan 9 of the main body 2.

The wiping member 17 is long in the front-rear direction. The front-rear direction is the longitudinal direction of the wiping member 17. The left-right direction is the lateral direction of the wiping member 17.

The wiping member 17 is flexible. The wiping member 17 is elastically deformable. The wiping member 17 is made of rubber. Note that the wiping member 17 may be made of synthetic resin such as polyvinyl chloride (PVC).

The wiping member 17 includes a main body portion 17A held by the holding member 16, a wiping portion 17C that wipes the surface of an object, and a connecting portion 17B that connects the main body portion 17A and the wiping portion 17C. The main body portion 17A is arranged above the wiping member 17. The wiping section 17C is arranged at the lower part of the wiping member 17. In the vertical direction, the connecting portion 17B is arranged between the main body portion 17A and the wiping portion 17C.

The main body portion 17A includes an upper end portion of the wiping member 17. The main body portion 17A is arranged in the groove portion 16B of the holding member 16. By arranging the main body portion 17A in the groove portion 16B of the holding member 16, the upper part of the wiping member 17 is held by the holding member 16. The main body portion 17A includes a first portion 17Aa and a second portion 17Ab disposed above the first portion 17Aa. As shown in FIG. 13, the dimension Va of the first portion 17Aa is smaller than the dimension Vb of the second portion 17Ab in the left-right direction. As shown in FIG. 9, the first portion 17Aa is arranged in the first width portion 16Ba of the groove portion 16B. The second portion 17Ab is arranged in the second width portion 16Bb of the groove portion 16B.

The wiping section 17C is brought into contact with the top surface of the object in order to remove foreign matter present on the surface of the object. The wiping part 17C has a lower surface 17Ca, a left surface 17Cb, and a right surface 17Cc. The left surface 17Cb is one side surface in the width direction of the wiping portion 17C. The right surface 17Cc is the other side surface in the lateral direction of the wiping portion 17C. In a state where no external force is acting on the wiping member 17, each of the lower surface 17Ca, the left surface 17Cb, and the right surface 17Cc is flat. Each of the lower surface 17Ca, the left surface 17Cb, and the right surface 17Cc is long in the front-rear direction. As shown in FIG. 13, in the left-right direction, the dimension U of the wiping section 17C is smaller than the dimension V of the main body section 17A and the dimension T of the connecting section 17B. The dimension V is the maximum dimension of the main body portion 17A in the left-right direction. The dimension T is the minimum dimension of the connecting portion 17B in the left-right direction.

The gas outlet 18 is provided in the connecting portion 17B. That is, the gas outlet 18 is arranged above the wiping part 17C. With the wiping part 17C in contact with the surface of the object, the gas outlet 18 blows gas onto the surface of the object from a position away from the surface of the object.

The connecting portion 17B has a first surface 17Ba disposed on the left side of the wiping portion 17C, and a second surface 17Bb disposed on the right side of the wiping portion 17C. The left side of the wiping part 17C is one side of the wiping member 17 in the lateral direction. The right side of the wiping part 17C is the other side of the wiping member 17 in the lateral direction.

The first surface 17Ba is inclined toward one side in the lateral direction of the wiping member 17 from the wiping portion 17C toward the main body portion 17A. That is, the first surface 17Ba slopes upward and to the left. The second surface 17Bb is inclined toward the other side in the lateral direction of the wiping member 17 from the wiping portion 17C toward the main body portion 17A. That is, the second surface 17Bb slopes upward and to the right. The connecting portion 17B has a tapered shape that increases in size toward the top.

As shown in FIGS. 12 and 13, the gas outlet 18 is provided on each of the first surface 17Ba and the second surface 17Bb. At least a portion of the gas blown out from the gas outlet 18 on the first surface 17Ba is guided to the left surface 17Cb of the wiping section 17C. At least a portion of the gas blown out from the gas outlet 18 on the second surface 17Bb is guided to the right surface 17Cc of the wiping portion 17C. Each of the left surface 17Cb and the right surface 17Cc can function as a guide surface that guides at least a portion of the gas blown out from the gas outlet 18.

As shown in FIG. 10, a plurality of gas outlets 18 are provided in the longitudinal direction of the wiping member 17 in the connecting portion 17B. The shapes and dimensions of the plurality of gas outlets 18 are the same. In the embodiment, the shape of the gas outlet 18 is substantially square. Note that the shape of the gas outlet 18 may be triangular or circular.

The plurality of gas outlets 18 are provided at equal intervals in the longitudinal direction of the wiping member 17, which is the front-rear direction. In the front-rear direction, which is the longitudinal direction of the wiping member 17, the dimension H of the gas outlet 18 is larger than the dimension G between adjacent gas outlets 18.

As shown in FIGS. 11 and 14, the wiping member 17 has an internal space 17D. An opening 17E provided at the upper end of the internal space 17D communicates with the flow path 16C of the holding member 16. The gas that flows out from the gas outlet 14 of the main body part 2, flows through the internal flow path of the duct part 6 and the internal flow path of the nozzle part 7, and flows through the flow path 16C passes through the opening 17E to the wiping member 17. It flows into the internal space 17D.

The wiping member 17 has a plurality of ribs 19 arranged in the internal space 17D of the wiping member 17. The plurality of ribs 19 are partition members that partition the plurality of gas outlets 18. The wiping member 17 has an inner surface 17F facing the internal space 17D. The rib 19 is connected to the inner surface 17F of the wiping member 17.

As shown in FIGS. 5, 11, and 14, the ribs 19 connect the plurality of horizontal ribs 19A provided in the longitudinal direction of the wiping member 17 in the longitudinal direction of the wiping member 17 in the internal space 17D. vertical ribs 19B disposed in the vertical ribs 19B. The vertical ribs 19B extend in the front-rear direction. In the left-right direction, the vertical rib 19B is arranged at the center of the internal space 17D. The horizontal ribs 19A are arranged at intervals in the front-rear direction. The ribs 19 provide a flow path 20 through which gas flows in the internal space 17D of the wiping member 17. A plurality of channels 20 are provided in the internal space 17D so as to be connected to each of the plurality of gas outlets 18. Each of the plurality of channels 20 extends in the vertical direction. The gas outlet 18 is arranged at the lower end of the flow path 20.

The gas flowing through the flow path 16C and flowing into the internal space 17D of the wiping member 17 through the opening 17E is branched into each of the plurality of flow paths 20 by the ribs 19. The gas that has passed through each of the plurality of channels 20 is blown out from the plurality of gas blow-off ports 18 at the same time.

[motion]
FIG. 15 is a diagram for explaining the operation of the blower device 1 according to the embodiment. When removing liquid remaining on the surface of an object, the user of the blower device 1 grips the grip section 3 with one hand and, for example, the nozzle section 7 with the other hand. A user can start the motor 10 by operating the trigger switch 5. When the motor 10 starts, the fan 9 rotates. As the fan 9 rotates, gas flows out from the gas outlet 14 of the main body 2. The gas flowing out from the gas outlet 14 flows through the internal flow path of the duct portion 6 and the nozzle portion 7, and then flows into the flow path 16C of the holding member 16. The gas flowing through the flow path 16C flows into the internal space 17D of the wiping member 17 via the opening 17E. The gas that has entered the internal space 17D flows into each of the plurality of channels 20 by the ribs 19. The gas that has passed through each of the plurality of channels 20 is blown out from the plurality of gas blow-off ports 18 at the same time.

The user operates the rotation mechanism 7C to adjust the angle of the wiper blade 8 with respect to the joint pipe 7A of the nozzle portion 7 to an arbitrary angle. After adjusting the angle of the wiper blade 8, as shown in FIG. 15, the user moves the other hand while keeping the wiping part 17C in contact with the surface of the object so that the wiping member 17, for example, Operate the nozzle part 7 so as to move it to one side (left side) in the lateral direction. The wiping member 17 is moved to the left with the wiping portion 17C in contact with the surface of the object.

The surface of the object is wiped by the wiping member 17 by moving the wiping section 17C in contact with the surface of the object. Thereby, the liquid remaining on the surface of the object is removed by the wiping section 17C.

Gas is blown out from the gas outlet 18. The gas blown out from the gas outlet 18 is blown onto the surface of the object. As a result, liquid remaining on the surface of the object is removed evenly and efficiently. For example, if the surface of the object includes a curved surface, it may be difficult to bring the wiping section 17C into sufficient contact with the surface of the object. Further, when grooves exist on the surface of an object such as a tile wall, it may be difficult to remove liquid that has entered the grooves only by wiping with the wiping section 17C. According to the embodiment, by the wiping process by the wiping unit 17C and the gas blowing process by the gas outlet 18, even if the surface of the object includes a curved surface, the liquid remaining on the surface of the object is removed by the wiper blade 8. Efficiently removed. In addition, liquid that has entered the grooves on the surface of the object is also efficiently removed by the wiper blade 8.

When the wiping member 17 is moved to the left, the gas blown out from the gas outlet 18 provided on the first surface 17Ba on the left side of the wiping part 17C is blown onto the surface of the object. After the gas from the gas outlet 18 provided on the first surface 17Ba is blown onto the surface of the object, the surface of the object is wiped by the wiping section 17C. That is, the surface of the object is subjected to a gas blowing process by the gas outlet 18, and then is subjected to a wiping process by the wiping unit 17C. This effectively removes liquid remaining on the surface of the object.

The first surface 17Ba is inclined to the left from the wiping part 17C toward the main body part 17A. As a result, as shown in FIG. 15, when the wiping member 17 is moved to the left, the gas is emitted from the gas outlet 18 with the gas outlet 18 provided on the first surface 17Ba facing the surface of the object. The gas is efficiently blown onto the surface of the object.

In the embodiment, the gas outlet 18 is provided not only on the first surface 17Ba but also on the second surface 17Bb on the right side of the wiping part 17C. When the wiping member 17 is moved to the right, the surface of the object is subjected to a gas blowing process by the gas outlet 18 provided on the second surface 17Bb, and then a wiping process by the wiping unit 17C. Even in this case, the liquid remaining on the surface of the object is effectively removed.

In the embodiment, the plurality of gas outlets 18 and flow paths 20 are defined by ribs 19 . The ribs 19 prevent the rigidity of the wiping member 17 from decreasing excessively. Thereby, gas is supplied to the internal space 17D, and even if the pressure in the internal space 17D becomes high, deformation of the gas outlet 18 is suppressed.

At least a portion of the duct portion 6 is flexible. Therefore, the user can freely move the nozzle section 7 by simply holding the grip section 3 with one hand and moving the other hand.

[effect]
As described above, according to the embodiment, the gas outlet 18 is provided in the wiping member 17 that wipes the surface of the object. By performing the gas blowing process by the gas outlet 18 in conjunction with the wiping process by the wiping member 17, the wiper blade 8 , foreign matter on the surface of an object can be removed evenly and efficiently.

A plurality of gas outlets 18 are provided in the longitudinal direction of the wiping member 17. Thereby, the wiper blade 8 can simultaneously spray gas onto a wide range of surfaces of objects.

The shapes and dimensions of the plurality of gas outlets 18 are the same. Thereby, foreign matter on the surface of the object is removed uniformly and efficiently.

The plurality of gas outlets 18 are provided at equal intervals in the longitudinal direction. Thereby, foreign matter on the surface of the object is removed uniformly and efficiently. Further, the rigidity of the wiping member 17 in the longitudinal direction can be made uniform.

In the longitudinal direction, the dimension H of the gas outlet 18 is larger than the dimension G between adjacent gas outlets 18 . As a result, a sufficient flow rate of gas is blown out from the gas outlet 18. The wiper blade 8 can sufficiently spray gas onto the surface of the object.

The plurality of gas outlets 18 and flow paths 20 are defined by ribs 19 . The rib 19 is connected to the inner surface 17F of the wiping member 17. The ribs 19 prevent the rigidity of the wiping member 17 from decreasing excessively. Thereby, gas is supplied to the internal space 17D, and even if the pressure in the internal space 17D becomes high, deformation of the gas outlet 18 is suppressed.

The wiping member 17 includes a main body portion 17A held by the holding member 16, a wiping portion 17C that wipes the surface of an object, and a connecting portion 17B that connects the main body portion 17A and the wiping portion 17C. The gas outlet 18 is provided in the connecting portion 17B. If the gas outlet 18 is provided in the wiping section 17C, the wiping function of the wiping section 17C may be impaired. Furthermore, if the gas outlet 18 is provided in the wiping section 17C, there is a possibility that the gas outlet 18 will be blocked by the surface of the object. By providing the gas outlet 18 in the connecting portion 17B, both the wiping function by the wiping part 17C and the gas blowing function by the gas outlet 18 are fully exhibited.

By providing the gas outlet 18 in the connecting part 17B, the gas outlet 18 can be moved to a position away from the surface of the object without being blocked by the surface of the object while the wiping part 17C is in contact with the surface of the object. Gas can be blown out onto the surface of an object. Thereby, the wiper blade 8 can uniformly and efficiently remove foreign matter from the surface of the object.

When the wiping member 17 is moved to the left side, the gas blowing process is performed by the gas outlet 18 provided on the first surface 17Ba on the left side of the wiping part 17C, and then the wiping process is performed by the wiping part 17C. Ru. This effectively removes liquid remaining on the surface of the object.

The first surface 17Ba is inclined to the left from the wiping part 17C toward the main body part 17A. As a result, as described with reference to FIG. 15, when the wiping member 17 is moved to the left, the gas outlet 18 provided on the first surface 17Ba is not blocked by the surface of the object. Gas can be efficiently blown onto the surface of an object while facing the surface of the object.

The gas outlet 18 is provided not only on the first surface 17Ba but also on the second surface 17Bb on the right side of the wiping portion 17C. When the wiping member 17 is moved to the right, the gas blowing process is performed by the gas outlet 18 provided on the second surface 17Bb, and then the wiping process is performed by the wiping part 17C. Even in this case, the liquid remaining on the surface of the object is effectively removed.

At least a portion of the duct portion 6 is flexible. Thereby, when moving the wiping member 17 with respect to the surface of an object, the user does not have to move the entire blower device 1. The user can freely move the nozzle part 7 with respect to the surface of the object by simply moving the other hand while holding the grip part 3 with one hand.

The nozzle part 7 has a rotation mechanism 7C that rotatably supports the mounting member 7B. The angle of the wiper blade 8 with respect to the joint pipe 7A of the nozzle portion 7 is adjusted to an arbitrary angle by the rotation mechanism 7C.

The rotation mechanism 7C includes a rotation restriction mechanism 7S including a stopper opening 7Cb and a stopper convex portion 7Cd. The rotation restriction mechanism 7S allows the user to fix the wiper blade 8 at any angle.

The nozzle portion 7 has an attachment/detachment mechanism 7D to which the wiper blade 8 can be attached and detached. The wiper blade 8 can be easily replaced by the attachment/detachment mechanism 7D.

[Other embodiments]
Each of FIGS. 16 and 17 is a diagram for explaining a gas outlet 18 according to another embodiment. In the embodiment described above, the dimensions of the plurality of gas outlets 18 are the same. As shown in FIGS. 16 and 17, the plurality of gas outlets 18 may have different dimensions.

In the example shown in FIG. 16, the gas outlet 18 includes a gas outlet 18A, a gas outlet 18B, and a gas outlet 18C, which have different dimensions in the front-rear direction. The size of the gas outlet 18A is the smallest, the size of the gas outlet 18B is the next smallest after the gas outlet 18A, and the dimension of the gas outlet 18C is the largest. The gas outlet 18A is arranged at the end of the wiping member 17 in the front-rear direction. The gas outlet 18C is arranged at the center of the wiping member 17 in the front-rear direction. The gas outlet 18B is arranged between the gas outlet 18A and the gas outlet 18C in the front-rear direction.

In the example shown in FIG. 17, the gas outlet 18 includes a gas outlet 18D, a gas outlet 18E, and a gas outlet 18F, which have different dimensions in the front-rear direction. The size of the gas outlet 18D is the largest, the size of the gas outlet 18E is the next largest after the gas outlet 18D, and the dimension of the gas outlet 18F is the smallest. The gas outlet 18D is arranged at the end of the wiping member 17 in the front-rear direction. The gas outlet 18F is arranged at the center of the wiping member 17 in the front-rear direction. The gas outlet 18E is arranged between the gas outlet 18D and the gas outlet 18F in the front-rear direction.

FIG. 18 is a diagram for explaining a gas outlet 18 according to another embodiment. In the embodiment described above, a plurality of gas outlets 18 are provided. As shown in FIG. 18, one gas outlet 18 may be provided in the wiping member 17. In the example shown in FIG. 18, the gas outlet 18S has a slit shape long in the front-rear direction.

In the embodiment described above, the gas outlet 18 is provided on both the first surface 17Ba and the second surface 17Bb of the connecting portion 17B. The gas outlet 18 may be provided on one of the first surface 17Ba and the second surface 17Bb of the connecting portion 17B. When removing foreign matter from the surface of an object while moving the wiping member 17 to the left, the gas outlet 18 may be provided on the first surface 17Ba. When removing foreign matter from the surface of an object while moving the wiping member 17 to the right, the gas outlet 18 may be provided on the second surface 17Bb.

In the embodiment described above, the gas outlet 18 may be provided, for example, on the lower surface 17Ca of the wiping section 17C.

In the embodiment described above, the wiper blade 8 is attached to the nozzle part 7. The wiper blade 8 only needs to be attached to at least a portion of the blower device 1. The wiper blade 8 only needs to be attached to a prescribed portion of the blower device 1 to which gas from the fan 9 is supplied.

In the embodiments described above, the wiper blade 8 may not be a component of the blower device 1. The wiper blade 8 may be a type of attachment of the blower device 1.

FIG. 19 is a side view showing an attachment 30 according to another embodiment. FIG. 20 is a plan view from below showing an attachment 30 according to another embodiment. As shown in FIGS. 19 and 20, an attachment 30 different from the wiper blade 8 may be attached to the blower device 1. An attachment 30 can be attached to and detached from the nozzle section 7 .

The attachment 30 includes a holding member 31 mounted on the mounting member 7B of the nozzle section 7, a tube 32 connected to the holding member 31, and a wiping member 33 connected to the holding member 31. The holding member 31 is plate-shaped. The holding member 31 has an internal flow path through which gas can flow. The gas that flows out from the gas outlet 14 of the main body part 2 and flows through the internal flow path of the duct part 6 and the internal flow path of the nozzle part 7 flows into the internal flow path of the holding member 31 .

The upper end of the tube 32 is connected to the holding member 31. The tube 32 is connected to the holding member 31 so that the flow path of the tube 32 and the internal flow path of the holding member 31 communicate with each other. A plurality of tubes 32 are provided in the front-rear direction. A gas outlet 18T is provided at the lower end of the tube 32. The gas that has passed through the internal flow path of the holding member 31 flows into the flow path of the tube 32 from the upper end of the tube 32 . The gas flowing through the flow path of the tube 32 is blown out from the gas outlet 18T at the lower end of the tube 32.

The wiping member 33 is composed of a plurality of fibers. The wiping member 33 is a brush. The upper end of the wiping member 33 is fixed to the holding member 31. A plurality of wiping members 33 are arranged around the tube 32. In the vertical direction, the position of the lower end of the tube 32 and the position of the lower end of the wiping member 33 are substantially equal.

A user can use the attachment 30 to remove foreign matter from the surface of an object. Powder is exemplified as a foreign substance on the surface of an object. An example of powder on the surface of an object is pollen attached to clothing.

When the user operates the trigger switch 5, the motor 10 is activated and the fan 9 is rotated. As the fan 9 rotates, gas flows out from the gas outlet 14 of the main body 2. The gas flowing out from the gas outlet 14 flows through the internal flow path of the duct portion 6 and the nozzle portion 7, and then flows into the internal flow path of the holding member 31. The gas that has passed through the internal flow path of the holding member 31 flows into the flow path of the tube 32 . The gas flowing through the flow path of the tube 32 is blown out from the gas outlet 18T at the lower end of the tube 32.

The user operates the rotation mechanism 7C to adjust the angle of the attachment 30 of the nozzle part 7 with respect to the joint pipe 7A to an arbitrary angle, and then wipes the surface of the clothes with the wiping member 33. As a result, pollen adhering to the surface of the clothes is removed by the wiping member.

Gas is blown out from the gas outlet 18T. The gas blown out from the gas outlet 18T is blown onto the surface of the clothes. As a result, pollen adhering to clothing is removed evenly and efficiently.

In the above-described embodiment, the wiper blade 8 or the attachment 30 is attached to the blower device 1 that blows out gas. The wiper blade 8 or attachment 30 may be attached to a dust collector that sucks in gas. For example, when the wiper blade 8 is attached to a dust collector, the gas outlet 18 described in the above embodiment functions as an inlet. Foreign matter present on the surface of the object is sucked into the suction port along with the surrounding gas. This removes foreign matter from the surface of the object. In the attachment 30, the gas outlet 18T at the lower end of the tube 32 functions as a suction port.

DESCRIPTION OF SYMBOLS 1... Blower device, 2... Main body part, 3... Grip part, 4... Battery mounting part, 5... Trigger switch, 5A... Trigger member, 5B... Switch main body part, 6... Duct part, 6A... First joint pipe, 6B ...Hose, 6C...Second joint pipe, 7...Nozzle part, 7A...Joint pipe, 7Aa...Pipe part, 7Ab...Connection part, 7Abp...Plate part, 7B...Mounting member, 7Ba...Connection part, 7Bb...Mounting part, 7Bm...opening, 7C...rotation mechanism, 7Ca...joint opening, 7Cb...stopper opening, 7Cc...joint convex part, 7Cd...stopper convex part, 7D...attachment/detachment mechanism, 7Da...first hole, 7Db...second hole, 7S ... Rotation regulating mechanism, 8... Wiper blade, 9... Fan, 10... Motor, 11... Fan housing, 12... Motor housing, 13... Gas inlet, 14... Gas outlet, 15... Battery, 16... Holding member, 16A... Main body part, 16B... Groove part, 16Ba... First width part, 16Bb... Second width part, 16C... Channel, 16D... First convex part, 16E... Second convex part, 16Ea... First extending part, 16Eb ...Second extension part, 16Ec...Bending part, 16Ed...Protrusion part, 16Ee...Protrusion part, 17... Wiping member, 17A... Main body part, 17Aa... First part, 17Ab... Second part, 17B... Connection part, 17Ba... 1st surface, 17Bb...2nd surface, 17C...wiping part, 17Ca...bottom surface, 17Cb...left surface, 17Cc...right surface, 17D...inner space, 17E...opening, 17F...inner surface, 18...gas outlet, 18A...gas blower Outlet, 18B... Gas outlet, 18C... Gas outlet, 18D... Gas outlet, 18E... Gas outlet, 18F... Gas outlet, 18S... Gas outlet, 18T... Gas outlet, 19... Rib, 19A... Horizontal rib, 19B... Vertical rib, 20... Channel, 30... Attachment, 31... Holding member, 32... Tube, 33... Wiping member, AX... Rotating shaft, BX... Rotating shaft, G... Dimension, H... Dimension, T ...dimension, U...dimension, V...dimension, Va...dimension, Vb...dimension, Wa...dimension, Wb...dimension.

Claims (19)

A wiper blade attached to a blower device comprising a main body portion having a fan, and a nozzle portion through which gas supplied from a gas outlet of the main body portion flows,
a holding member that is removably attached to the nozzle portion and has a longitudinally long flow path through which gas supplied from the nozzle portion flows , and grooves provided on both sides of the flow path in the left-right direction ;
an internal space held by the holding member and through which gas supplied from the holding member flows ; a main body portion provided on both sides of the internal space in the left-right direction and disposed in the groove; A wiping member that has a gas outlet that blows out gas and wipes the surface of an object,
wiper blade. A plurality of the gas outlets are provided in the longitudinal direction of the wiping member,
The wiper blade according to claim 1. The shape and size of the plurality of gas outlets are the same,
The wiper blade according to claim 2. The plurality of gas outlets are provided at equal intervals in the longitudinal direction,
The wiper blade according to claim 3. In the longitudinal direction, the size of the gas outlet is larger than the size between adjacent gas outlets,
The wiper blade according to any one of claims 2 to 4. The wiping member is characterized in that it has a plurality of ribs that partition the plurality of gas outlets,
A wiper blade according to any one of claims 2 to 5. The rib is arranged in the internal space and connected to the inner surface of the wiping member.
The wiper blade according to claim 6. A plurality of the ribs are provided in the longitudinal direction,
A channel through which gas flows is provided in the internal space by the rib,
The gas outlet is connected to the flow path,
The wiper blade according to claim 7. The wiping member is
a main body portion held by the holding member;
a wiping unit that wipes the surface of the object;
a connecting part that connects the main body part and the wiping part,
The gas outlet is provided in the connecting part,
A wiper blade according to any one of claims 1 to 8. The gas outlet blows out gas onto the surface of the object from a position away from the surface of the object while the wiping part is in contact with the surface of the object.
The wiper blade according to claim 9. The wiping member is moved to one side in the lateral direction of the wiping member with the wiping part in contact with the surface of the object,
The connecting portion has a first surface disposed on one side of the lateral direction than the wiping portion,
The gas outlet is provided on the first surface,
The wiper blade according to claim 9 or claim 10. The first surface is inclined toward one side in the lateral direction from the wiping part toward the main body part,
A wiper blade according to claim 11. The connecting portion has a second surface disposed on the other side of the wiping portion in the lateral direction,
The gas outlet is provided on the second surface,
The wiper blade according to claim 11 or claim 12. The second surface is inclined toward the other side in the lateral direction from the wiping part toward the main body part,
A wiper blade according to claim 13. with fans,
a fan housing having a gas inlet and a gas outlet and accommodating the fan;
A blower device comprising: a duct portion connected to the fan housing and through which gas flowing out from the gas outlet flows;
The wiper blade according to any one of claims 1 to 14,
a nozzle part connected to each of the duct part and the wiper blade through which gas to be supplied to the wiper blade flows;
The gas outlet blows out the gas supplied from the gas outlet,
Blower device. At least a portion of the duct portion is flexible,
A blower device according to claim 15. The nozzle part is
a mounting member to which the wiper blade is mounted;
characterized by having a rotation mechanism that rotatably supports the mounting member,
A blower device according to claim 15 or 16. The rotation mechanism is characterized in that it has a rotation restriction mechanism that restricts rotation of the mounting member.
A blower device according to claim 17. The nozzle part is characterized in that it has an attachment/detachment mechanism that allows the wiper blade to be attached and detached.
A blower device according to any one of claims 15 to 18.

Images