DE102012215193A1 - Raindrop sensor attached to e.g. windshield of vehicle, has a projection extending from base in direction away from windshield and having a receiving portion engaged with engaging portion of outer housing attached to attachment element - Google Patents

Abstract

The sensor (10) has an inner housing (40) and an outer housing (30), and an attachment element (20). The outer housing has a tube (31) that covers the outer circumference of inner housing, and an engaging portion produced from inner wall of tube. An open end of tube is set closer to windshield (1). The base (21) of attachment element is located between windshield and inner housing. A projection extends from base in direction away from windshield and has a receiving portion. The outer casing is detachably attached to attachment element by engagement of receiving and engaging portions.

Description

The present disclosure relates to a raindrop sensor.

A raindrop sensor for detecting the amount of raindrops on an outer surface of a windshield of a vehicle is known. Information regarding the detected amount of raindrops is used to control a windshield wiper wiping the outer surface of the windshield.

A raindrop sensor located in the Japanese Patent No. 3701309 is disclosed includes two fastening members and two sliders for fixing a housing, in which a light-emitting element and a light-receiving element are received, to a windshield. The fastening members are attached to an inner surface of the windshield. The sliders couple the housing to one of the two attachment components.

A raindrop sensor located in the Japanese Patent No. 4103273 discloses a fastening member and a slider for fixing a housing, in which a light-emitting element and a light-receiving element are received, to a windshield. The fastening member is attached to an inner surface of the windshield. The slider couples the housing to the mounting member.

In the raindrop sensor located in the Japanese Patent No. 3701309 and no. 4103273 is disclosed, the housing is attached to the mounting member using the slider. Thus, the number of components is increased.

Further, the housing is coupled to the mounting member by pushing the slider while holding the housing with both hands. Thus, many hours of work are required to attach the housing to the mounting component.

In view of the above, it is an object of the present disclosure to provide a raindrop sensor for reducing the number of components and reducing man-hours needed to attach a housing to a mounting member.

According to one aspect of the present disclosure, a raindrop sensor is attachable to a surface of a windshield of a vehicle and detects the amount of raindrops on an outer surface of the windshield. The raindrop sensor includes a light-emitting element, a light-receiving element, a detecting means, an inner casing, an outer casing, and a fixing member. The light-emitting element emits a reference light. The light-receiving element receives the reference light reflected from the windshield. The detecting means detects the amount of raindrops on the outer surface of the windshield based on the intensity of the reference light received by the light-receiving element. The inner housing accommodates the light-emitting element and the light-receiving element. The outer housing includes a pipe section, a bottom section, and an engagement section integrated as a single piece. The pipe section has a first open end and a second open end which are opposed to each other and cover the outer periphery of the inner housing. The first open end is closer to the windshield than the second open end. The bottom section closes the second open end. The engagement portion protrudes inwardly from an inner wall of the pipe section. The fixing member includes a base portion and a protruding portion. The base portion is located between the windshield and the inner housing and is mounted on the inner surface of the windshield. The protruding portion extends from the base portion in a direction away from the windshield. The protruding portion has a receiving portion which is engageable with the engaging portion of the outer housing. When the receiving portion is engaged with the engaging portion, the outer case is detachably attached to the fixing member.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the present disclosure will become apparent from the following detailed description taken in conjunction with the drawings.

Show it:

1 3 is a diagram illustrating a cross-sectional view of a raindrop sensor according to a first embodiment of the present disclosure;

2 a diagram showing a front view of the raindrop sensor of 1 illustrated;

3 a diagram showing a view starting from the direction of an arrow III in FIG 2 illustrated;

4 a diagram showing an exploded view of the raindrop sensor of 2 illustrated;

5A a diagram showing a plan view of a holder of the raindrop sensor of 2 illustrated, 5B a diagram showing a view starting from the direction of an arrow VB in 5A illustrated, and 5C a diagram showing a view starting from the direction of an arrow VC in 5A illustrated;

6A a diagram showing a plan view of an outer housing of the raindrop sensor of 2 illustrated, 6B a diagram showing a view starting from the direction of an arrow VIB in 6A illustrated, and 6C a diagram showing a view starting from the direction of an arrow VIC in 6A illustrated;

7A a diagram showing a plan view of an inner housing of the raindrop sensor of 2 illustrated, 7B a diagram showing a view starting from the direction of an arrow VIIB in 7A illustrated, and 7C a diagram showing a view starting from the direction of an arrow VIC in 7A illustrated;

8th a cutaway view of 2 illustrating an enlarged view of a receiving cutout and a projection;

9 a diagram showing the raindrop sensor of 2 illustrated in the middle of the assembly and illustrating a state in which the outer casing is placed on the inner casing so that the inner casing can be housed inside the outer casing;

10 a cutaway view of 9 illustrating an enlarged view of the projection;

11 a diagram showing the raindrop sensor of 2 illustrated in the middle of the assembly and illustrating a state in which the outer casing and the inner casing are temporarily assembled to form a casing assembly;

12 is a cutaway view of 11 illustrating an enlarged view of the projection;

13 a diagram showing the raindrop sensor of 2 illustrated in the middle of the assembly, and illustrates a state in which the housing assembly is attached to the holder;

14 a diagram showing a view starting from the direction of an arrow XIV in 13 illustrated;

15 a diagram showing a perspective view of 13 illustrated and illustrates a position adjustment means;

16 a diagram illustrating a movement of the projection when the outer housing relative to the bracket, starting from the state in 13 is shown, is rotated;

17 3 is a diagram illustrating a cross-sectional view of a raindrop sensor according to a second embodiment of the present disclosure;

18 a diagram showing a front view of the raindrop sensor 17 illustrated;

19 a diagram showing a view starting from the direction of an arrow XIX in 18 illustrated;

20 a diagram showing an exploded view of the raindrop sensor of 18 illustrated;

21A a diagram showing a plan view of a holder of the raindrop sensor of 18 illustrated, 21B a diagram showing a view starting from the direction of an arrow XXIB in 21A illustrated, and 21C a diagram showing a view starting from the direction of an arrow XXIC 21A illustrated;

22A a diagram showing a plan view of an outer housing of the raindrop sensor of 18 illustrated, 22B a diagram showing a view starting from the direction of an arrow XXIIB in 22A illustrated, and 22C a diagram showing a view starting from the direction of an arrow XXIIC in 22A illustrated;

23A a diagram showing a plan view of an inner housing and a detector of Raindroppfensensors of 18 illustrated, 23B a diagram showing a view starting from the direction of an arrow XXIIIB of 23A illustrated, and 23C a diagram showing a view starting from the direction of an arrow XXIIIC in 23A illustrated;

24 a cutaway view of 18 illustrating an enlarged view of a receiving cutout and a projection;

25 a diagram showing the raindrop sensor of 18 in the middle of And illustrates a state in which the outer housing is placed on the inner housing so that the inner housing can be received within the outer housing;

26 a diagram showing the raindrop sensor of 18 illustrated in the middle of the assembly and illustrating a state in which the outer case and the inner case are temporarily assembled to form a case assembly;

27 a diagram showing the raindrop sensor of 18 illustrated in the middle of the assembly and illustrates a state in which the housing assembly is attached to the holder; and

28 a diagram showing a perspective view of 18 illustrated and illustrates a state in which a hook of a connector with the outer housing engages.

First Embodiment

A raindrop sensor according to a first embodiment of the present disclosure will be described below with reference to FIG 1 to 7 explained. As in 1 is the raindrop sensor 10 on an inner surface 2 a windshield 1 attached to a vehicle. The windshield 1 is a front window of the vehicle. The raindrop sensor 2 is located in a windshield wiper area of the windshield 1 , The wiper area is an area where a wiper of the vehicle wipes. Further, there is the raindrop sensor 10 on an upper side of the windshield 1 so that a view of a driver can not be obstructed by the raindrop sensor. 1 illustrates a state in which the raindrop sensor 10 on the windshield 1 is appropriate. Unless otherwise mentioned, the description of the first embodiment is based on the assumption that the raindrop sensor 10 in the state that is in 1 is shown. In 2 (and 13 ) is the windshield 1 drawn horizontally for the sake of expediency.

The raindrop sensor 10 includes a bracket 20 , an outer casing 30 , an inner case 40 , a feather 50 and a detector 60 ,

The holder 20 serving as a fixing member includes a base portion 21 , three protruding sections 23 and a guide section 28 , The base section 21 , the protruding section 23 and the guide section 28 are formed as a single piece or are formed as a single piece. The base section 21 has a ring plate shape and is attached to the inner surface of the windshield 1 attached by an adhesive or the like. The base section 21 has a feedthrough hole 22 in his midst.

Each protruding section 23 stands from the base section 21 in a direction away from the windshield 1 out. The protruding section 23 has a plate shape. The protruding section 23 has a thickness in a radial direction of the base portion 21 on. The three protruding sections 23 are equal to each other in a circumferential direction of the base portion 21 spaced.

The radial direction of the base section 21 is hereinafter referred to simply as "radial direction" and the circumferential direction of the base portion 21 is hereinafter simply referred to as "circumferential direction".

The protruding section 23 has a recording cutout 25 which serves as a receptacle section. An edge 24 of the protruding section 23 is on a side in the circumferential direction of the receiving cutout 25 cut out. The recording cutout 25 extends in the circumferential direction and parallel to the inner surface 2 the windshield 1 ,

The guide section 28 which serves as a first guide portion is located between adjacent protruding portions 23 and stands from the base section 21 in a direction away from the windshield 1 out. The guide section 28 provides a position adjustment means 80 in conjunction with a connector 76 ready, which serves as a second guide section. The connector 76 is located adjacent to the guide section 28 in the circumferential direction. The position adjustment means 80 allows the holder 20 and the inner housing 40 be aligned with each other in the circumferential direction by the connector 76 in a predetermined position with respect to the guide portion 28 is adjusted in the circumferential direction.

Each recording excerpt 25 the holder 20 engages with a corresponding engagement projection 35 of the outer housing 30 into each other, leaving the outer casing 30 removable on the holder 20 can be attached.

The outer case 30 includes a pipe section 31 , a floor 33 and the three engagement projections 35 ,

The pipe section 31 has an inner wall 32 which defines a hollow cylindrical shape. Of the pipe section 31 covers the outer circumference of the inner case 40 off and surrounds each protruding section 23 the holder 20 ,

The pipe section 31 has a first open end and a second open end opposite each other. The first open end of the pipe section 31 is through the ground 33 closed. The second open end of the pipe section 31 is closer to the bracket 20 as the first open end of the pipe section 31 ,

An inner wall of the floor 33 has a planar sliding surface 34 on, on which a spring 50 , which serves as a biasing member, can slide. The inner wall of the floor 33 is inside the pipe section 31 , Every engaging projection 35 serving as an engaging portion projects radially inward from the inner wall 32 of the pipe section 31 out. The three engagement projections 35 are equally spaced from each other in the circumferential direction. Every engaging projection 35 is in a corresponding recording section 25 the holder 20 fitted.

The inner housing 40 is in the outer case 30 added. The inner housing 40 has a hollow cylindrical shape with a bottom and is located inside the pipe section 31 of the outer housing 30 , The bottom of the inner case 40 is closer to the base section 21 the holder 20 as an opening of the inner housing 40 , That is, the bottom of the inner casing 40 is further away from the ground 33 of the outer housing 30 as the opening of the inner housing 40 , Thus, the bottom of the inner housing 40 arranged so that it is the base section 21 the holder 20 opposite.

An outer wall of the inner housing 40 has three first slots 41 on. Every first slot 41 is at a position corresponding to each other one of the protruding portions 23 the holder 20 in the circumferential direction. Every first slot 21 is shaped to the other of the protruding sections 23 the holder 20 correspond to. The first slot 41 extends in an axis direction of the inner housing 40 , The axis direction of the inner housing 40 is perpendicular to the inner surface 2 the windshield 1 , A movement of the inner case 40 in the direction parallel to the inner surface 2 the windshield 1 is prevented when the protruding section 23 the holder 20 in contact with an inner wall of the first slot 41 comes. The axis direction of the inner housing 40 is hereinafter simply referred to as "axis direction".

The inner housing 40 has feedthrough holes 44 and 45 on. The implementation hole 44 is located in the middle of the bottom of the inner case 40 and penetrates the bottom of the inner housing 40 in the axis direction. The feedthrough hole is directed in a front direction of the vehicle. Thus, ambient light around the vehicle surrounding the windshield 1 happens in the inner case 40 by means of the feedthrough hole 45 penetration.

The detector 60 is inside the inner case 40 added.

The feather 50 serving as a biasing member is located between the ground 33 of the outer housing 30 and the inner housing 40 so that the inner case 40 in a direction away from the ground 33 of the outer housing 30 can be biased. For example, the spring 50 to be a leaf spring.

A first end of the spring 50 is at an opening end of the inner housing 40 attached. The opening end defines the opening of the inner housing 40 , A second end of the spring 50 is in contact with the sliding surface 34 of the soil 33 of the outer housing 30 , The second end of the spring 50 is curved, allowing a sliding resistance between the spring 50 and the sliding surface 34 can be reduced. According to the first embodiment, there are two springs 50 includes and equidistant from each other in the circumferential direction.

The detector 60 includes a first light guide member 61 , a first light-receiving element 67 , a second light-receiving element 68 , a second light guide member 69 , a light-emitting element 72 , a third light-receiving element 73 and a processing device 74 ,

The first light guide component 61 is located near the bushing hole 45 inside the inner case 40 , The first light guide component 61 is made of transparent resin, glass or the like. The first light guide component 61 has a light-receiving surface 62 and a light-emitting surface 63 on. The light-receiving surface 62 is closer to the feedthrough hole 45 as the light-emitting surface 63 , From the ambient light, the windshield 1 happens, a headlight hits 5 in the on the light-receiving surface 62 , The front light 5 comes from the direction of the vehicle to the vehicle. After the front light 5 on the light-receiving surface 62 meets, the front light passes 5 the inner side of the first light guide member 61 and then from the light-emitting surface 63 emitted.

In addition to the light-receiving surface 62 and to the light-emitting surface 63 has the light guide component 61 a light-receiving surface 64 and a light-emitting surface 65 on. From the ambient light, the windshield 1 happens, meets an upper light 6 the light-receiving surface 64 , The upper light 6 comes from above the vehicle towards the vehicle. After the upper light 6 on the light-receiving surface 64 meets, becomes the upper light 6 at an interface 66 between the inner side and outer side of the first light guide member 61 totally reflected and then from the light-emitting surface 65 emitted. A circuit board 75 is located at the opening end of the inner housing 40 , The first light-receiving element 67 , the second light-receiving element 68 , the light-emitting element 72 , the third light-receiving element 73 and the processing device 74 are on the circuit board 75 appropriate. For example, the light-receiving element 67 a photodiode or a phototransistor. The first light-receiving element is located at a predetermined position where the first light-receiving element 67 the front light 5 can receive that from the light-emitting surface 63 the first light guide member 61 is emitted. Receives the light-receiving element 67 the front light 5 , it outputs a signal indicating the intensity of the receiving headlight 5 indicates. In particular, the first light-receiving element is 67 According to the first embodiment, a signal indicative of the intensity of a visible light component of the received front light 5 indicates. The output signal of the first light-receiving element 67 is sent to a controller (not shown) through the connector 76 transfer.

For example, the second light-receiving element 68 a photodiode or a phototransistor. The second light-receiving element 68 is at a predetermined position at which the second light-receiving element 68 the upper light 6 can receive that from the light-emitting surface 65 the first light guide member 61 is emitted. When receiving the upper light 6 , gives the second light-receiving element 68 a signal indicating the intensity of the receiving upper light 6 indicates. In particular, according to the first embodiment, the second light-receiving element is 68 a signal indicating the intensity of a visible light component of the receiving upper light 6 indicates. The output signal of the second light-receiving element 68 gets to the controller through the connector 76 transfer.

Two light-emitting elements 72 are on the circuit board 75 mounted such that the second light-receiving element 68 between the light-emitting elements 72 can be located. Each light-emitting element 72 emits a reference light 7 in the direction of the second light-guiding component 69 , According to the first embodiment, the reference light 7 passing through the light-emitting element 72 is emitted, an infrared light.

The second light guide component 69 is located on the bottom of the inner case 40 such that a first surface 70 the second light guide member 79 through the implementation hole 44 of the inner housing 40 can be exposed. The second light guide component 69 is made of transparent resin, glass or the like. The second light guide component 69 is colored to block a light of a predetermined wavelength range. According to the first embodiment, the second light guide member is 69 colored to block a visible light of a predetermined wavelength range, so that the infrared light 7 passing through the light-emitting element 72 is emitted, the second light guide member 69 can happen.

A plate-shaped transparent elastic component 81 is located between the second light guide member 69 and the windshield 1 within the feedthrough hole 22 the holder 20 , The elastic component 81 is in close contact with the second light guide member 69 and the windshield 1 ,

When the light-emitting element 72 the infrared light 7 emitted, meets the infrared light 7 on a second surface 71 the second light guide member 69 and then from the first surface 70 emitted. The infrared light 7 that from the first surface 70 the second light guide member 69 is emitted, the elastic member passes 81 and then gets to an interface 4 between the windshield 1 and the outside of the vehicle reflects. The infrared light 7 that at the interface 4 is reflected, the elastic component happens 81 , meets the first surface 70 the second light guide member 69 and then from the second surface 71 emitted. The second surface of the second light guide member 69 is shaped like a lens, so the infrared light 7 passing through the light-emitting element 72 is emitted effectively (for example, totally) at the interface 4 can be reflected and that the infrared light 7 that at the interface 4 effectively reflects the third light-receiving element 73 can reach. For example, the third light-receiving element 73 a photodiode or a phototransistor. The third light-receiving element 73 is at a predetermined position where the light-receiving element 73 the infrared light 7 can receive that from the second surface 71 the second light guide member 69 is emitted. When receiving the infrared light 7 , gives the third light-receiving element 73 a signal indicating an intensity of the receiving infrared light 7 indicates the output signal of the third light-receiving element 73 is sent to the processing device 74 transmit, which serves as a detection means.

When raindrops on the outer surface 3 the windshield 1 adhere to the amount (that is, intensity) of the infrared light 7 that at the interface 4 reflected, reduced. As a result, the amount of infrared light becomes 7 transmitted through the third light-receiving element 73 is received and reduces the output signal of the third light-receiving element 73 changes. The processing device 74 captures the amount of raindrops attached to the outer surface 3 the windshield 1 based on a change in the output signal of the third light-receiving element 73 , The processing device 74 outputs a signal indicating the detected amount of raindrops. The output signal of the processing device 74 gets to the controller through the connector 76 transfer.

The controller controls ON and OFF of a headlamp of the vehicle based on the output signal of the first light-receiving element 67 that the intensity of the headlight 5 indicates, and the output signal of the second light-receiving element 68 , which indicates the intensity of the upper light. Further, the controller controls an operation mode of the windshield wiper of the vehicle based on the output signal of the processing device 74 indicating the amount of raindrops.

Next, the engaging projection 35 and the recording cutout 25 in detail with respect to 8th explained. As mentioned above, according to the first embodiment, three engaging protrusions 35 and three recording cutouts 25 includes. The following description refers to one of the engagement projections 35 and one of the recording cutouts 25 ,

As in 8th is shown, the receiving cutout 25 a sloped surface 26 on. The inclined surface 26 is located on an inner wall of the receiving cutout 25 more on the side of the windshield 1 than on the side of the floor 33 , The inclined surface 26 is inclined to look at the windshield 1 approach, as they are from the edge 24 of the protruding section 23 towards a deep portion of the receiving cutout 25 extends. Furthermore, the receiving cutout 25 a lead 27 which serves as a second projection. The lead 27 stands in the direction of the windshield 1 starting from one end of the inclined surface 26 protruding, opposite the edge 24 of the protruding section 23 ,

The engaging projection 25 has an elliptical cross-sectional area which is orthogonal to the radial direction and a major axis parallel to the inner surface 2 the windshield 1 having. The engaging projection 35 has a lead 36 up in a direction away from the windshield 1 protrudes. The lead 36 the engaging projection 35 is closer to the deep portion of the receiving cutout 25 as at the lead 27 of the recording cutout 25 , A movement of the engaging projection 35 in a direction in which the engaging projection 35 from the recording cutout 25 is removed, is suppressed when the projection 27 in contact with the projection 36 comes.

An outer wall of the inner housing 40 has three second slots 42 on. Every second slot 42 is for a corresponding engagement projection 35 , The second slot 42 extends in the circumferential direction from the inner wall of the first slot 41 on the side of the edge 24 , The second slot 42 is shaped so that the engaging projection 35 in the second slot 42 can be fitted.

The second slot 42 has a lead 43 which serves as a first projection. The lead 43 stands in the direction of the windshield 1 and is located at a connecting portion between the second slot 42 and the inner wall of the first slot 41 on the side of the floor 33 of the outer housing 30 , A corner portion of the projection 43 opposite the first slot 41 is rounded.

As in 8th is an end of the inclined surface 46 on the side of the edge 24 from the windshield 1 separated by a distance L1 in the axis direction. The lead 27 is from the windshield 1 separated by a distance L2 in the axis direction. The inner wall of the reception cutout 25 on the side of the projection 27 is from the windshield 1 separated by a distance L3 in the axis direction. The lead 43 is from the windshield 1 separated by a distance L4 in the axis direction. The inner wall of the second slot 42 on the side of the projection 43 is from the windshield 1 separated by a distance L5 in the axis direction. The distances L1-L5 have the following relationships (1) and (2): L1 <L4 <L2 (1) L3 <L5 (2)

Next, a method of assembling the raindrop sensor will be described 10 regarding 1 to 2 and 8th to 16 explained. The assembly process can be roughly divided into three processes.

(First processing)

In the first processing become the detector 60 and the spring 50 on the inner housing 40 appropriate. In particular, as in 1 is shown, the elements and the connector 46 on the circuit board 75 appropriate. Then, as in 7 is shown, the light guide member 61 , the second light guide member 69 and the circuit board 75 to the inner housing 40 appropriate. Then, as in 7 is shown, the spring 50 on the inner housing 40 appropriate.

(Second processing)

In the second processing become the inner casing 40 and the outer case 30 temporarily assembled. First, as in 9 is shown, the outer housing 30 on the inner case 40 placed so that the inner case 40 inside the outer case 30 can be included. At this time, the engaging projection becomes 35 of the outer housing 30 in the first slot 41 of the inner housing 40 by moving the engagement projection 35 along a path that goes in 10 is shown fitted.

Then the outer case becomes 30 with respect to the inner housing 40 turned so that the inner case 40 and the outer case 30 can be temporarily assembled, as in 11 is shown. At this time, the engaging projection is 35 of the outer housing 30 in the second slot 42 of the inner housing 40 by moving the engagement projection 35 along a path B in 12 is shown fitted. The inner housing 40 and the outer case 30 in the temporarily assembled state are hereinafter referred to as "housing assembly 82 "Denotes (compare 14 ).

In the housing assembly 82 is the outer case 30 through the spring 50 in a direction away from the inner housing 40 biased. Thus, as in 12 is shown, is the engaging projection 35 of the outer housing 30 against the inner wall of the second slot 42 of the inner housing 40 on the front of the projection 53 pressed. Further, the engaging projection comes 35 in contact with the projection 43 , allowing a movement of the engaging projection 35 in a direction in which the engaging projection 35 from the second slot 42 dissolved or removed, can be prevented. As a result, the inner case 40 and the outer case 30 as the housing assembly 82 maintained.

(Third processing)

In the third processing becomes the housing assembly 82 on the windshield 1 appropriate. In particular, as in 13 is shown, the holder 20 in a predetermined position on the inner surface 2 the windshield 1 appropriate. Then the housing assembly 82 to the holder 20 mounted so that the protruding portion 23 the holder 20 in the first slot 41 of the inner housing 40 is introduced. At this time, as in 14 and 15 is shown, there is the connector 76 next to the guide section 28 the holder 20 so that the housing assembly and the bracket can be adjusted with respect to each other in the circumferential direction.

Then the outer case becomes 30 towards the windshield 1 pushed or pushed, so that the engaging projection 35 get closer to the windshield 1 as the lead 27 can be located. Then the outer case becomes 30 relative to the bracket 20 turned. At this time, the engaging projection becomes 35 in the recording section 25 by moving the engagement projection 35 along a path C in 16 is shown fitted. Thus, as in 2 is shown, the raindrop sensor 10 on the windshield 1 appropriate.

Will the outer case 30 relative to the bracket 20 turned, comes the inner wall of the first slot 41 of the inner housing 40 in contact with the first section 23 the holder 20 , Accordingly, the inner housing rotates 40 not with the rotation of the outer case 30 ,

Further, when the engaging projection 35 in the recording section 25 is fitted, moves the engaging projection 35 in the circumferential direction, while looking towards the windshield 1 along the inclined surface 26 emotional. Thus, the inner case becomes 40 towards the windshield 1 pressed, so that the second light guide component 29 , the elastic component 81 and the windshield may be in close contact with each other in the axial direction.

Next, a method for detaching the outer casing will be described 30 from the holder 20 explained. First, the mesh of the projection 36 the engaging projection 35 with the lead 27 by pushing the outer case 30 towards the windshield 1 unlocked. Then the engaging projection becomes 35 in the second slot 42 by turning the outer housing 30 fitted in the circumferential direction such that the engaging projection 35 towards the second slot 42 emotional. Consequently, as in 13 is shown, the outer housing 30 and the inner case 40 temporarily assembled to the housing assembly 82 train. Then the outer case becomes 30 from the holder 20 by moving the housing assembly 82 in a direction away from the windshield 1 solved or accepted.

Advantages of the first embodiment are summarized below.

As described above, according to the first embodiment, the outer housing includes 30 the pipe section 31 , the ground 33 for closing one end of the pipe section 31 and the engaging projection 35 that goes inward from the inner wall 32 of the pipe section 31 protrudes. The engaging projection 35 of the outer housing 30 is in the recording cutout 25 of the protruding section 23 the holder 20 fitted so that the outer case 30 detachable or detachable on the holder 20 is appropriate. Because the outer case 30 on the bracket 20 is attached without an additional fastening component, the number of components of the raindrop sensor 10 be reduced.

The outer case 30 gets to the bracket 20 by moving the outer case 30 relative to the bracket 20 mounted such that the engaging projection 35 of the outer housing 30 in the recording section 25 the holder 20 is fitted. With such an approach, a user or worker can use the outer housing 30 to the holder 20 by holding the outer housing 30 with one hand. Accordingly, working hours that are necessary to the outer housing 30 on the bracket 20 to be reduced.

Further, according to the first embodiment, the holder 20 several protruding sections 23 in the circumferential direction around the inner housing 40 are arranged around. The recording cutout 25 the holder 20 extends in a direction along the circumferential direction. The outer case 30 gets to the bracket 20 by turning the outer housing 30 mounted in one direction and removed from the bracket 20 by turning the outer housing 30 dissolved in the direction opposite to the one direction.

Because the outer case 30 on the bracket 20 by turning the outer housing 30 in the circumferential direction after placing the outer housing 30 to cover the bracket 20 is attached, a user or worker can use the outer casing 30 to the holder 20 with a single movement, that is, without changing a way, like the outer housing 30 is held with one hand. Further, a user or worker can use the outer case 30 to the holder 20 attach by a simple operation, that is by simply turning the outer housing 30 , Further, since the size of the raindrop sensor before and after the housing 30 is rotated, unchanged, the outer casing can 30 to the holder 20 be installed without extra space. Thus, the raindrop sensor 10 simply be attached to the vehicle.

Further, according to the first embodiment, the inner housing 40 a hollow cylindrical shape. The outer wall of the inner housing 40 has the first slot 41 and the second slot 42 on. The first slot 41 extends in the axis direction. The second slot 42 extends from the first slot 41 in the circumferential direction and is shaped so that the engaging projection 35 in the second slot 42 can be fitted.

Due to such structures, the outer housing 30 and the inner case 40 be temporarily assembled to the housing assembly 82 by turning the outer housing 30 relative to the inner housing 40 form, so that the engaging projection 35 can move out of the first slot and into the second slot 42 can be fitted after the outer housing is placed around the inner housing 40 cover so that the engaging projection 35 and the first slot 41 are aligned in the circumferential direction. It is less likely that the housing assembly will be disassembled even if the housing assembly is worn by a user or worker.

Further, according to the first embodiment, the inner wall of the second slot 42 of the inner housing 40 the lead 43 on. The lead 43 extends in a direction away from the ground 33 of the outer housing 30 and is located at the connecting portion between the second slot 42 and the first slot 41 , Accordingly, it is in the housing assembly 82 in which the outer casing 30 and the inner case 40 are temporarily assembled, less likely that the engaging projection 35 of the outer housing 30 from the second slot 42 of the inner housing 40 is solved or accepted. As a result, even if the housing assembly 82 worn by a user or worker, less likely that the housing 82 taken apart or disassembled.

Further, according to the first embodiment, the movement of the inner housing 40 in the direction parallel to the inner surface 2 the windshield 1 through the protruding section 23 the holder 20 stopped when the protruding section 23 in contact with the inner wall of the first slot 41 comes.

With such an approach, the movement of the inner housing 40 prevented when the outer case 30 on the bracket 20 by turning the outer housing 30 relative to the bracket 20 is appropriate. Accordingly, it is less likely that the elastic member 81 extending between the second light guide member 69 and the windshield 1 located, by the movement of the inner housing 40 is deformed. As a result, it is less likely that as a result of the deformation of the elastic member 81 Air between the second light guide member 69 and the windshield 1 penetrates.

Further, according to the first embodiment, the spring is located 50 between the inner case 40 and the floor 33 of the outer housing 30 , The feather 50 clamps the inner case 40 in a direction away from the ground 33 in front.

Further, in the housing assembly 82 in which the outer casing 30 and the inner case 40 are temporarily assembled, the engaging projection 35 of the outer housing 30 against the inner wall of the second slot 42 of the inner housing 40 pressed. As a result, it is less likely that the engaging projection 35 of the outer housing 30 from the second slot 42 of the inner housing 40 is solved.

Further, according to the first embodiment, the spring 50 on the inner housing 40 and in contact with the inner wall of the floor 33 of the outer housing 30 appropriate. The floor 33 of the outer housing 30 has the sliding surface 34 on, at which the spring 50 can slide.

With such an approach, movement of the inner housing is inhibited when the outer housing 30 on the bracket 20 by turning the outer housing 30 is attached. Accordingly, it is less likely that the elastic member 81 extending between the second light guide member 69 and the windshield 1 located, by the movement of the inner housing 40 is deformed. As a result, air is less likely to be between the second light guide member 69 and the windshield 1 as a result of the deformation of the elastic member 81 penetrates.

Further, according to the first embodiment, the receiving cutout 25 the holder 20 by cutting out part of the protruding section 23 starting from the edge 24 of the protruding section 23 educated. Furthermore, the receiving cutout 25 the inclined surface 26 on. The inclined surface 26 is located on the inner wall of the receiving cutout 25 more on the side of the floor 33 of the outer housing 30 as on the side of the windshield 1 , The inclined surface 26 is inclined to look at the windshield 1 approach as they are in the flank 24 towards the deep portion of the receiving cutout 25 extends.

Due to such structures, the outer housing 30 to the bracket by turning the outer case 30 relative to the bracket 22 be attached so that the engaging projection 35 of the outer housing 30 in the deep section of the recording cutout 25 can be fitted, whereby a user or worker the outer housing 30 to the holder 20 by holding the outer housing 30 can attach with one hand.

The simple operation, that is moving the engagement projection 35 of the outer housing 30 along the inclined surface 26 of the recording cutout 25 , allows the outer housing 30 to the holder 20 to be attached, wherein the inner housing 40 through the outer housing 30 is pressed in the direction of the windshield. Thus, the second light guide member 69 passing through the inner housing 40 is worn, just in close contact with the windshield 1 come.

Furthermore, according to the first embodiment, the receiving cutout 25 the lead 27 on. The lead 27 is in the direction of the windshield from the end of the inclined surface 26 opposite the edge 24 of the protruding section 23 out. Further, the engaging projection 35 of the outer housing 30 the lead 36 up, with the lead 27 can interlock. Thus, the outer housing 30 and the holder 20 firmly attached to each other.

Further, according to the first embodiment, the outer case 30 three engagement projections 35 which are equally spaced from each other in the circumferential direction. If the inner case 40 through the outer housing 30 is pressed in the direction of the windshield, therefore, the compressive force in the circumferential direction is equally distributed.

Further, according to the first embodiment, the guide portion 28 the holder 20 and the connector 76 of the inner housing 40 the position adjustment means 80 for adjusting the holder 20 and the inner casing 40 ready for each other. If the housing assembly 82 to the holder 20 is attached, the guide section 28 and the connector 76 aligned in the circumferential direction, so that the holder 20 and the inner case 40 can be compared with each other. Thus, the housing assembly 82 just to the holder 20 be attached.

Second Embodiment

A raindrop sensor 90 According to a second embodiment of the present disclosure will be described below with reference to 17 to 23C explained. As in 17 is the raindrop sensor 90 like the raindrop sensor 10 the first embodiment on the inner surface of the windshield 1 attached to the vehicle. Unless otherwise stated, the description of the second embodiment is based on the assumption that the raindrop sensor 90 in the state that is in 17 is shown. In 18 (and 27 ) is the windshield 1 drawn horizontally for the sake of expediency.

The raindrop sensor 90 includes a bracket 100 , an outer casing 110 , an inner case 120 , a feather 130 and the detector 60 ,

The holder 100 serving as a fixing member includes a base portion 101 , and protruding sections 103 to 106 , The base section 101 and the protruding sections 103 to 106 may be formed as a single piece. The base section 101 has a plate shape and is on the inner surface 2 the windshield 1 attached by an adhesive or the like. The base section 21 has a feedthrough hole 102 in his midst.

The protruding sections 103 to 106 stand from an outer edge of the base portion 101 in a direction away from the windshield 1 out. The protruding sections 103 and 104 are side-by-side in a first direction parallel to the inner surface 2 the windshield 1 arranged. The protruding sections 105 and 106 are arranged side by side in a second direction parallel to the first direction.

Each of the protruding sections 103 to 106 has a recording cutout 108 on, starting from its edge 107 extends in the first direction or the second direction.

The recording cutout 108 serves as a recording section. Each of the protruding sections 103 to 106 has a thickness in a direction perpendicular to both the first direction and the second direction. For the sake of simplicity, unless otherwise stated, each of the protruding portions 103 to 106 just follow as the "protruding section".

Each recording excerpt 108 the holder 101 engages with a corresponding engagement projection 115 of the outer housing 110 into each other so that the outer case 101 removable on the holder 100 can be attached.

The outer case 110 includes a pipe section 111 , a floor 114 , and the four engaging projections 115 ,

The pipe section 111 has a pair of opposed parallel inner walls 112 and a pair of opposing parallel inner walls 113 on. The inner walls 112 and the inner walls 113 are connected together to define a hollow rectangular cylindrical shape so that the pipe section 111 a rectangular cross section along a plane parallel to the inner surface 2 the windshield 1 can have. The pipe section 111 covers the outer circumference of the inner case 120 from and surrounds each protruding portion of the bracket 100 ,

The pipe section 111 has a first open end and a second open end opposite each other. The first open end of the pipe section 111 is through the ground 114 closed. The pipe section 111 and the ground 114 can be formed as a single piece.

Every engaging projection 115 serving as an engaging portion is located at a position corresponding to each other of the receiving cutouts 108 and protrudes in a direction perpendicular to both the first direction and the second direction. Every engaging projection 115 is in a corresponding receiving section 108 the holder 100 fitted.

The inner housing 120 is in the outer housing 110 added.

The inner housing 120 has a hollow cylindrical shape with a bottom and is located inside the pipe section 111 of the outer housing 110 , The bottom of the inner case 120 is closer to the base section 101 the holder 100 as at an opening of the inner housing 120 , That is, the bottom of the inner casing 120 is further away from the ground 114 of the outer housing 110 as the opening of the inner housing 120 , Thus, the bottom of the inner housing 120 arranged so that he the base section 101 the holder 100 opposite.

An outer wall of the inner housing 120 has four first slots 121 , Every first slot 121 is located at a position corresponding to a respective other of the protruding portions of the holder 100 in a direction perpendicular to the inner surface 2 the windshield 1 , Every first slot 121 is shaped to the respective other of the protruding portions of the holder 100 correspond to. A movement of the inner case 120 in a direction parallel to the inner surface 2 the windshield 1 is prevented when the protruding portion of the bracket 100 in contact with an inner wall of the first slot 121 comes.

One end of the inner casing 20 on the side of the floor 114 of the outer housing 110 has a sliding surface 125 on where a spring 130 , which serves as a biasing member, can slide. The inner housing 120 has feedthrough holes 126 and 127 on. The implementation hole 126 is located in the middle of the bottom of the inner case 120 , The implementation hole 127 is directed in a front direction of the vehicle. Thus, ambient light around the vehicle surrounding the windshield 1 happens on the inner case 120 by means of the feedthrough hole 127 to meet.

The detector 60 is in the inner case 120 added.

The feather 130 serving as a biasing member is located between the ground 114 of the outer housing 110 and the inner housing 120 so that the inner casing is in a direction away from the ground 114 of the outer housing 110 can be biased. For example, the spring 130 to be a leaf spring. A middle section of the spring 130 is at the bottom of the outer casing 110 attached and both ends of the spring 130 are in contact with the sliding surface 125 of the inner housing 120 , The ends of the spring 130 are curved, allowing a sliding resistance between the spring 130 and the sliding surface 125 can be reduced.

The detector 60 The second embodiment is almost the same as the detector 60 the first embodiment. A difference of the detector 60 between the first embodiment and the second embodiment is as follows.

The first light guide component 61 is located near the bushing hole 127 inside the inner case 120 , The light-receiving surface 62 the first light guide member 61 is closer to the bushing hole 127 as at the light-emitting surface 63 , The circuit board 75 is located at the opening end of the inner housing 120 , The second light guide component 69 is located on the bottom of the inner case 120 such that the first surface of the second light guide member 69 through the implementation hole 126 of the inner housing 120 can be exposed. The elastic component 81 is located between the second light guide member 69 and the windshield 1 within the feedthrough hole 102 the holder 100 , The elastic component 81 is in close contact with the second light guide member 69 and the windshield 1 ,

The second light-receiving element 68 gives a signal indicating the intensity of the upper light 6 indicates to the controller through a connector 140 off, on the circuit board 75 is appropriate. The pipe section 111 of the outer housing 110 has a connector insertion hole 116 in which the connector 140 is introduced. The connector 140 has hooks 141 on. If the engaging projection 115 of the outer housing 110 into a deep section of the receiving cutout 108 the holder is fitted, the hook engages 141 of the connector 140 with an edge portion of the connector insertion hole 116 into each other so that the outer case 110 detachable or detachable on the holder 100 can be attached.

As in 19 is shown, the hook indicates 141 a flexible section 143 and a lead 144 on. The flexible section 143 extends from a body 142 of the connector 140 in the direction of the outer housing 110 , The lead 144 protrudes outward from the flexible section 143 in a width direction of the outer case 110 out.

The flexible section 143 has a first end that goes with the body 142 and a second end opposite to the first end. The second end of the flexible section 143 may be toward the inner side of the connector insertion hole 116 be bent, that is, in the direction of the body 142 in the width direction of the outer case 110 ,

Will the engagement projection 115 in the recording section 108 fitted, attacks the projection 144 with the edge portion of the connector insertion hole 116 each other. If the flexible section 143 in the direction of the body 142 is bent, the mesh of the projection becomes 144 with the edge portion of the connector insertion hole 116 solved.

The engaging projection 115 and the recording cutout 108 will be discussed in detail below with reference to 24 explained. As mentioned above, according to the second embodiment, four engagement projections 115 and four recording cutouts 108 includes. The following description refers to one of the engagement projections 115 and one of the recording cutouts 108 ,

As in 24 shown, has the receiving cutout 108 a sloped surface 109 on. The inclined surface 109 is located on an inner wall of the receiving cutout 108 more on the side of the floor 114 as on the side of the windshield 1 , The inclined surface 109 is inclined to look at the windshield 1 approach, as they are from the edge 107 of the protruding section 103 towards the deep portion of the receiving cutout 108 extends.

An outer wall of the inner housing 120 has four second slots 122 on. Every second slot 122 can with a corresponding engagement projection 115 be fitted. The second slot 122 extends from the inner wall of the first slot 121 on the side of the edge 107 in a direction opposite to a direction in which the receiving cutout 108 extends.

The second slot 122 has a lead 123 which serves as a first projection. The lead 123 is located at a connecting portion between the second slot 122 and the inner wall of the first slot 121 on the side of the floor 114 of the outer housing 110 , The lead 123 has an inclined surface 124 on one side, the first slot 121 opposite. The inclined surface 124 of the projection 123 and the inclined surface 109 of the recording cutout 108 are inclined at the same angle to form a continuous surface.

As in 24 is an end of the inclined surface 109 on the side of the edge 107 from the windshield 1 separated by a distance L11 in the axis direction. The inner wall of the reception cutout 108 on the side of the floor 114 is from the windshield 1 separated by a distance L12 in the axis direction. The lead 123 is from the windshield 1 separated by a distance L13 in the axis direction. The inner wall of the second slot 122 on the side of the floor 114 , is from the windshield 1 separated by a distance L14 in the axis direction. The distances L11 to L14 have the following relationships (3) and (4): L12 <L11 <L14 (3) L12 <L13 <L14 (4)

Next, a method of assembling the raindrop sensor will be described 90 regarding 18 to 19 and 24 to 28 explained. The assembly process can be roughly divided into three processes.

(First processing)

In the first processing the detector becomes 60 to the inner housing 120 attached and the spring 130 gets to the outer case 110 appropriate.

(Second processing)

In the second processing become the inner casing 120 and the outer case 110 temporarily assembled. In particular, as in 25 is shown, the outer housing 110 on the inner case 120 placed so that the inner case 120 inside the outer case 110 can be included. At this time, the engaging projection is 115 of the outer housing 110 in the first slot 121 of the inner housing 120 fitted.

Then the outer case becomes 110 relative to the inner housing 120 turned so that the inner case 120 and the outer case 110 can be temporarily assembled, as in 26 is shown. At this time, the engaging projection becomes 115 of the outer housing 110 in the second slot 122 of the inner housing 120 fitted. The inner housing 120 and the outer case 110 in the temporarily assembled state are hereinafter referred to as "housing assembly".

In the housing assembly becomes the inner housing 120 through the spring 130 in a direction away from the ground 114 of the outer housing 110 biased. Thus, the engagement protrusion becomes 115 of the outer housing 110 against the inner wall of the second slot 122 of the inner housing 120 on the side of the projection 123 pressed. Further, the engaging projection comes 115 in contact with the projection 123 , allowing a movement of the engaging projection 115 in a direction in which the engaging projection 115 from the second slot 122 is removed, can be prevented. As a result, the inner casing and the outer casing are maintained as the casing assembly.

(Third processing)

In the third processing, the housing assembly is on the windshield 1 appropriate. In particular, as in 27 shown, the bracket 100 in a predetermined position on the inner surface of the windshield 1 appropriate. Then the housing assembly is attached to the bracket 20 mounted in such a way that the protruding section of the bracket 100 in the first slot 121 of the inner housing 120 is inserted.

Then the outer case becomes 110 towards the windshield 1 against the biasing force of the spring 130 pushed or pushed until the engagement projection 115 with the recording cutout 108 is balanced. Then the outer case becomes 110 relative to the bracket 100 moved in one direction along the first direction. Consequently, as in 18 is shown, the engaging projection 115 in the recording section 108 fitted such that the engaging projection 115 with the deep section of the recording cutout 108 can interlock. At this time, as in 19 and 28 is shown, the hook engages 141 of the connector 140 with the edge portion of the connector insertion hole 116 of the outer housing 110 each other. Thus, the outer case 110 and the inner case 120 attached together, allowing relative movement between the outer housing and the inner housing 120 can be prevented. In this way, the raindrop sensor becomes 90 on the windshield 1 appropriate.

In particular, as in 18 and 27 is shown when the outer housing 110 relative to the bracket 20 is moved, comes the inner wall of the first slot 121 of the inner housing 120 in contact with the protruding portion of the bracket 100 , Accordingly, the inner housing moves 120 not with the outer case 110 ,

Further, when the engaging projection 115 in the recording section 108 is fitted, moves the engaging projection 115 towards the windshield 1 along the inclined surfaces 109 and 124 , Thus, the inner case becomes 120 towards the windshield 1 pressed, so that the second light guide component 69 , the elastic component 81 and the windshield 1 may be in close contact with each other in the axial direction.

Next, a method of detaching the outer case will be described 110 from the holder 100 explained. First, the mesh of the hook 141 of the connector 140 with the outer housing 110 by pushing the hook 141 in the direction of the body 142 (ie, by holding the hook 141 with fingers, leaving the hooks 141 can approach each other) solved. Then the engaging projection becomes 115 in the second slot 122 by fitting the outer casing in the other direction along the first direction so as to fit the engaging projection 115 towards the second slot 122 emotional. Consequently, as in 26 is shown, the outer housing 110 and the inner case 120 temporarily assembled to form the housing assembly. Then the outer case becomes 110 from the holder 100 by moving the housing assembly in a direction away from the windshield 1 away.

Advantages of the second embodiment are summarized below.

As described above, the outer case includes 110 according to the second embodiment, the pipe section 111 , the ground 114 and the engaging projection 115 , starting from the inner wall of the pipe section 111 protruding inwards. The engaging projection 115 will be in the recording section 25 the protruding portion of the bracket 100 fitted so that the outer case 110 removable to the bracket 100 can be attached. Because the outer case 110 to the holder 100 can be attached without additional fastening component, the number of components of the raindrop sensor 90 be reduced.

The outer case 110 gets to the bracket 100 by moving the outer case 110 relative to the bracket 100 attached in such a way that the engaging projection 115 of the outer housing 110 in the recording section 108 the holder 100 is adjusted. With such an approach, a user or worker can use the outer housing 110 on the bracket 100 by holding the outer housing 110 with one hand. Accordingly, for attaching the outer housing 110 to the holder 100 Working hours reduced. Further, according to the second embodiment, the holder 100 several protruding sections 103 to 106 on. The protruding sections 103 and 104 are in the first direction parallel to the inner surface 102 the windshield 1 arranged. The protruding sections 105 and 106 are arranged in the second direction parallel to the first direction. The recording cutout 108 the holder 100 extends in the first direction or the second direction. The outer case 110 gets to the bracket 100 by moving the outer case straight 110 mounted in a direction along the first direction and from the bracket 100 by moving the outer case straight 110 in the other direction, which is opposite to the one direction away.

Because the outer case 110 to the holder 100 by moving the outer case straight 110 after placing the outer housing 110 to cover the bracket 100 is attached, a user or worker can use the outer casing 110 on the bracket 100 attach with a single movement, that is, without a kind and Way, like the outer case 110 held with one hand, change. Further, a user or worker can use the outer case 110 to the holder 100 by a simple operation, that is, by simply moving the outer case straight 110 , Thus, the raindrop sensor 90 simply be attached to the vehicle.

Further, according to the second embodiment, the inner housing 120 a hollow cylindrical shape. The outer wall of the inner housing 120 has the first slot 121 and the second slot 122 on. The first slot 121 extends in the axis direction. The second slot 122 extends from the first slot 121 in a direction perpendicular to the first slot 121 and is shaped so that the engaging projection 115 in the second slot 122 can be fitted.

Due to such structures, the outer housing 110 and the inner case 120 be temporarily assembled to the housing assembly by moving the outer housing 110 relative to the inner housing 120 so that the engaging projection 115 to get out of the first slot 121 can move and into the second slot 122 can be fitted, after the outer housing 110 is placed around the inner case 120 cover so that the engaging projection 115 and the first slot 121 are balanced. It is less likely that the housing assembly will diverge even when the housing assembly is being transported by a user or worker.

Further, according to the second embodiment, the inner wall of the second slot 122 of the inner housing 120 the lead 123 on. The lead 123 is in one direction away from the ground 114 of the outer housing 110 and is located at the connecting portion between the second slot 122 and the first slot 121 , Accordingly, it is in the housing assembly, in the outer housing 110 and the inner case 120 are temporarily assembled, less likely that the engaging projection 115 of the outer housing 110 for a second slot 122 of the inner housing 120 Will get removed. As a result, even if the housing assembly is transported by a user or worker, the housing assembly is less likely to be disassembled.

Further, according to the second embodiment, the movement of the inner housing becomes 120 in the direction parallel to the inner surface 2 the windshield 1 through the protruding section of the bracket 100 prevented when the protruding portion in contact with the inner wall of the first slot 121 comes.

With such an approach, the movement of the inner case becomes 120 prevented when the outer case 110 by moving the outer case 110 relative to the bracket 100 is attached. Accordingly, it is less likely that the elastic member 81 extending between the second light guide member 69 and the windshield 1 located, by the movement of the inner housing 120 is deformed. As a result, air is less likely to be between the second light guide member 69 and the windshield 1 as a result of the deformation of the elastic member 81 penetrates.

Further, according to the second embodiment, the spring is located 130 between the inner case 120 and the floor 114 of the outer housing 110 , The spring tensions the inner housing 120 in one direction away from the ground 114 in front.

Accordingly, in the housing assembly where the outer housing 110 and the inner case 120 temporarily assembled, the engaging projection 115 of the outer housing 110 against the inner wall of the second slot 122 of the inner housing 120 pressed. As a result, it is less likely that the engaging projection 115 of the outer housing 110 from the second slot 122 of the inner housing 120 Will get removed.

Further, according to the second embodiment, the spring 130 on the ground 114 of the outer housing 110 mounted and in contact with the opening end of the inner housing 120 , The opening housing of the inner housing 120 has the sliding surface 125 on where the spring is 130 can slide.

With such an approach, the movement of the inner housing 120 prevented when the outer case 110 to the holder 100 by moving the outer case 110 is attached. Accordingly, it is less likely that the elastic member 81 extending between the second light guide member 69 and the windshield 1 located, by the movement of the inner housing 120 is deformed. As a result, air is less likely to be between the second light guide member 69 and the windshield 1 as a result of the deformation of the elastic member 81 penetrates.

Further, according to the second embodiment, the receiving cutout 108 the holder 100 by cutting out a portion of the protruding portion from the edge 107 formed of the protruding portion. Furthermore, the receiving cutout 108 the inclined surface 109 on. The inclined surface 109 is located on the inner wall of the receiving cutout 108 more on the side of the floor 114 of the outer housing 110 as on the side of the windshield 1 , The inclined surface 109 is inclined to look at the windshield 1 approach as they are starting from the edge 107 towards the deep portion of the receiving cutout 108 extends.

Due to such structures, the outer housing 110 to the holder 100 by moving the outer case 110 relative to the bracket 100 be attached so that the engaging projection 115 of the outer housing 110 in the deep section of the recording cutout 108 can be fitted. Thus, a user or worker can use the outer case 110 to the holder 100 by holding the outer housing 110 with one hand.

The simple operation, that is, moving the engaging projection 115 of the outer housing 110 along the inclined surface of the receiving cutout 108 allows the outer case 110 to the holder 100 to be attached, wherein the inner housing 120 towards the windshield 1 through the outer housing 110 is pressed. Thus, the second light guide member 69 passing through the inner housing 120 just in close contact with the windshield 1 be.

Further, according to the second embodiment, the inner housing takes 120 the detector 60 on and has the connector 140 for outputting the output signal of the detector 60 on. The pipe section 111 of the outer housing 110 has the connector insertion hole 116 for receiving the connector 140 on. The connector 140 has the hook 141 on, with the edge portion of the connector insertion hole 116 interlocked when the engaging projection 115 of the outer housing 110 in the recording section 108 the holder 100 is fitted.

With such an approach, even if the vehicle vibrates, for example, while riding on a rough road, it is less likely that the outer housing 110 from the holder 100 is solved. Further, it can be easily determined whether or not the outer case 110 completely on the bracket 100 is attached visually by the state of the mesh between the hook 141 of the connector 140 and the connector insertion hole 116 of the outer housing 110 is checked. Furthermore, the interlocking of the hooks 141 with the outer housing 110 by holding the hook 141 be released with fingers, leaving the hooks 141 can approach. Thus, the outer housing 110 easy from the bracket 100 be removed without using a special tool.

Further, according to the second embodiment, the outer housing 110 four engagement projections 115 on, which are equal to each other in the circumferential direction of the pipe section 111 are spaced. Accordingly, if the inner housing 120 towards the windshield 1 through the outer housing 110 is pressed, the compressive force in the circumferential direction is evenly distributed.

(Modifications)

While the present disclosure has been explained with respect to its embodiments, it is to be understood that the disclosure is not limited to the embodiments and constructions. The present disclosure is intended to cover various modifications and equivalent arrangements. In addition, besides the various combinations and configurations, other combinations and configurations that include more, less, or more of a single element are also in light of the teachings and scope of the present disclosure.

The reference light emitted by the light-emitting element may be a light other than infrared light.

The processing means serving as detection means for detecting the amount of raindrops adhering to the windshield based on the intensity of the reference light may be included in an external device such as the controller.

The outer case is not limited to the cylindrical shape. For example, the outer housing may have a polygonal or elliptical cross-section perpendicular to its axis.

The number of receiving portions of the holder (and also the engaging portions of the outer case) is not limited to a specific number. Further, it is not always necessary that the receiving portions (and also the engaging portions) are equally spaced in the circumferential direction. In this case, the receiving portions (and also the engaging portions) should preferably be spaced in the circumferential direction so that adjacent receiving portions (and likewise adjacent engaging portions) may form an angle of 180 ° or less. In particular, the angle of 180 ° is defined by a line connecting a receiving portion to the center of the base portion and a line connecting the other receiving portion to the center of the base portion Base section connects, trained. With such an approach, when the inner casing is pressed by the outer casing toward the windshield, the pressing force in the circumferential direction can be evenly distributed.

The engagement portion of the outer case may have a shape with a polygonal cross section or a circular cross section perpendicular to the radial direction of the tube portion of the outer case. The engagement portion of the outer case may not have a projection extending toward the bottom of the outer case.

The base portion of the holder is not limited to a ring plate shape. For example, the base portion of the holder may have a C-shaped plate shape with a gap. The base portion of the holder may only have a protruding portion.

In the embodiments, the receiving portion of the holder is a cutout that penetrates the protruding portion in the radial direction of the base portion. Alternatively, the receiving portion of the holder may be a trench that does not penetrate the protruding portion in the radial direction of the base portion. The receiving portion of the holder may extend in a direction that is not parallel to the inner surface of the windshield. For example, the receiving portion of the holder may extend in a direction inclined with respect to the inner surface of the windshield. The receiving portion of the holder may not have a projection which engages with the projection of the outer case, and may not have an inclined surface.

The first slot of the inner housing may extend in a direction inclined with respect to the axial direction. The second slot of the inner housing may extend in a direction inclined with respect to the circumferential direction.

The second slot of the inner housing need not have a projection which extends in the direction of the windshield.

It is not always necessary that the biasing member is located between the bottom of the outer housing and the inner housing. The biasing member is not limited to a leaf spring. The biasing member may be attached to the outer housing instead of the inner housing. It is not always necessary that the end of the biasing member that is in contact with the bottom of the outer housing is curved.

The position adjustment means is not always necessary. The second guide portion of the position adjustment means is not limited to the connector.

The raindrop sensor can be mounted at any position on the inner surface of the windshield.

The windscreen is not limited to a windshield of the vehicle. For example, the raindrop sensor may be mounted on a rear window of the vehicle.

The invention can be summarized as follows. A raindrop sensor attachable to a windshield includes an inner and outer housing and a mounting member. The outer housing includes a tube and an engaging portion. The tube covers an outer circumference of the inner housing. An open end of the tube is closer to the windshield than a closed end of the tube. The engaging portion protrudes inwardly from an inner wall of the tube. The fastening component includes a base and a projection. The base is located between the windshield and the inner housing and is mounted on the windshield. The projection extends from the base in a direction away from the windshield. The projection has a receiving portion which can engage with the engaging portion. The outer case is detachably attached to the attachment member by engaging the receiving portion with the engagement portion.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 3701309 [0003, 0005]
• JP 4103273 [0004, 0005]

Claims (16)

Raindrop sensor mounted on an inner surface ( 2 ) a windshield ( 1 ) for detecting the amount of raindrops on an outer surface ( 3 ) of the windscreen ( 1 ), wherein the raindrop sensor comprises: a light-emitting element ( 72 ) for emitting a reference light; a light-receiving element ( 73 ) for receiving the reference light reflected from the windshield; a detection means ( 60 ) for detecting the amount of raindrops on the outer surface of the windshield ( 1 ) based on the intensity of the reference light emitted by the light-receiving element ( 73 ) Will be received; an inner casing ( 40 . 120 ) for receiving the light-emitting element ( 72 ) and the light-receiving element ( 73 ); an outer casing ( 30 . 110 ) including a pipe section ( 31 . 111 ), a bottom section ( 33 . 114 ) and an engaging portion ( 35 . 115 ), which are integrated as a single piece, the pipe section ( 31 . 111 ) has a first open end and a second open end which face each other and the outer periphery of the inner housing ( 40 . 120 ), the first open end being closer to the windshield than the second open end, the bottom section (FIG. 33 . 114 ) the second open end of the pipe section ( 31 . 111 ) and the engaging section ( 35 . 115 ) inward from an inner wall ( 32 . 112 . 113 ) of the pipe section ( 31 . 111 ) protrudes; and a fastening component ( 20 . 100 ) including a basic section ( 21 . 101 ) and a protruding section ( 23 . 103 - 106 ), wherein the base section ( 21 . 101 ) between the windshield ( 1 ) and the inner housing ( 40 . 120 ) and on the inner surface ( 2 ) of the windscreen ( 1 ) and the protruding section ( 23 . 103 - 106 ) starting from the base section ( 21 . 101 ) in a direction away from the windshield ( 1 ), wherein the projecting portion ( 23 . 103 - 106 ) a receiving section ( 25 . 108 ) which engages with the engaging portion ( 35 . 115 ) of the outer housing ( 30 . 110 ) and when the receiving section ( 25 . 108 ) with the engaging portion ( 35 . 115 ), the outer housing ( 30 . 110 ) detachable on the fastening component ( 20 . 100 ) is attached. Raindrop sensor according to claim 1, characterized in that the receiving portion ( 25 . 108 ) is a trench which is parallel to the inner surface ( 2 ) of the windscreen ( 1 ). Raindrop sensor according to claim 1 or 2, characterized in that the projecting portion ( 23 ) several protruding sections ( 23 ), which in a circumferential direction of the inner housing ( 40 ), the receiving section ( 25 ) of each protruding section ( 23 ) is a cutout that extends in a first direction along the circumferential direction, and the outer housing ( 30 ) to the fastening component ( 20 ) by turning the outer housing ( 30 ) attachable in the first direction and by the fastening component ( 20 ) by turning the outer housing ( 30 ) in a second direction, opposite to the first direction, along the circumferential direction is removable. Raindrop sensor according to claim 1 or 2, wherein the receiving portion ( 108 ) is a section which is parallel to the inner surface ( 2 ) of the windscreen ( 1 ), and the outer housing ( 110 ) to the fastening component ( 100 ) by moving the outer housing ( 110 ) in a first direction parallel to the inner surface ( 2 ) attachable and of the fastening component ( 100 ) by moving the outer housing ( 110 ) in a second direction parallel to the inner surface ( 2 ) opposite to the first direction is removable. Raindrop sensor according to one of claims 1-4, characterized in that an outer wall of the inner housing ( 40 . 120 ) a first slot ( 41 . 121 ) and a second slot ( 42 . 122 ), the first slot ( 41 . 121 ) in a direction perpendicular to the inner surface ( 2 ) of the windscreen ( 1 ), and the second slot ( 42 . 122 ) starting from the first slot ( 41 . 121 ) in a direction parallel to the inner surface ( 2 ) and with the protruding portion ( 23 . 103 - 126 ) matches. Raindrop sensor according to claim 5, characterized in that an inner wall of the second slot ( 42 . 122 ) a first lead ( 43 . 123 ) at a connecting portion between the first slot (FIG. 41 . 121 ) and the second slot ( 42 . 122 ), and the first projection ( 43 . 123 ) in a direction away from the bottom section (FIG. 33 . 114 ) of the outer housing ( 30 . 110 protruding). Raindrop sensor according to claim 5 or 6, characterized in that the projecting portion ( 23 . 103 - 106 ) of the fastening component ( 20 . 100 ) in contact with an inner wall of the first slot ( 41 . 121 ) of the inner housing ( 40 . 120 ) is to move the inner case ( 40 . 120 ) in a direction parallel to the inner surface ( 2 ) to prevent. A raindrop sensor according to any one of claims 1-7, further comprising: a biasing member (16); 50 . 130 ) located between the bottom section ( 33 . 114 ) of the outer housing ( 30 . 110 ) and the inner housing ( 40 . 120 ) to the inner housing ( 40 . 120 ) in a direction away from the bottom section (FIG. 33 . 114 ) of the outer housing ( 30 . 110 ) to bias. Raindrop sensor according to claim 8, characterized in that a first end of the biasing member ( 50 . 130 ) to one of the inner housing ( 40 . 120 ) or the outer housing ( 30 . 110 ) is attached, a second end of the biasing member ( 50 . 130 ) in contact with the other of the inner housing ( 40 . 120 ) and the outer housing ( 30 . 110 ), the other of the inner housing ( 40 . 120 ) and the outer housing ( 30 . 110 ) a sliding surface ( 34 . 125 ), and the second end of the biasing member (16) 50 . 130 ) on the sliding surface ( 34 . 125 ) is slidable, Raindrop sensor according to one of claims 1-9, characterized in that the receiving portion ( 25 . 108 ) is a section that is cut by cutting out a part of the protruding section ( 23 . 103 - 106 ) from the edge ( 24 . 107 ) of the protruding section ( 23 . 103 - 106 ) is formed, the receiving section ( 25 . 108 ) an inclined surface ( 26 . 109 ), the inclined surface ( 26 . 109 ) on the inner wall of the receiving portion ( 25 . 108 ) on the ground ( 33 . 114 ) Side of the outer housing ( 30 . 110 ), and the inclined surface ( 26 . 109 ) is inclined to the windscreen ( 1 ), as they move away from the edge ( 24 . 107 ) in a direction parallel to the inner surface ( 2 ) of the windscreen ( 1 ). Raindrop sensor according to claim 10, characterized in that the receiving portion ( 25 ) a second projection ( 27 ), and the second projection ( 27 ) in the direction of the windscreen ( 1 ) from one end of the inclined surface ( 26 ), opposite the edge ( 24 ) of the protruding section ( 23 ). A raindrop sensor according to claim 11, wherein the engaging portion (16) 35 ) has a third projection with the second projection ( 27 ) of the receiving section ( 25 ) is enlargeable. Regent drop sensor according to claims 1-12, characterized in that the detection means in the inner housing ( 120 ), the inner housing ( 120 ) a connector ( 140 ) for outputting an electrical signal from the detection means ( 60 ), the pipe section of the outer housing has a connector insertion hole (FIG. 116 ) into which the connector ( 140 ), the connector ( 140 ) a hook ( 141 ), the hook ( 141 ) of the connector ( 140 ) with an edge portion of the connector insertion hole (FIG. 116 ) in such a way that the outer housing ( 110 ) detachable on the inner housing ( 120 ) is attached when the engaging portion ( 115 ) of the outer housing ( 110 ) with the receiving section ( 108 ) of the holder ( 100 ) interlock. Raindrop sensor according to one of claims 1-13, characterized in that the pipe section ( 31 . 111 ) two or more engaging sections ( 35 . 115 ), and the engaging portions ( 35 . 115 ) of each other in the circumferential direction of the pipe section ( 31 . 111 ) are spaced so that adjacent engaging portions ( 35 . 115 ) form an angle of 180 ° or less. Raindrop sensor according to claim 14, characterized in that the engaging portions ( 35 . 115 ) are equal to each other in the circumferential direction of the pipe section ( 31 . 111 ) are spaced. Raindrop sensor according to one of claims 1-15, characterized in that the fastening component ( 20 ) a first guide section ( 28 ), the inner housing ( 40 ) or the outer housing ( 30 ) a second guide section ( 76 ), and the first guide section ( 28 ) and the second guide section ( 76 ) a position adjustment means ( 80 ) for balancing the fastening component ( 20 ) and one of the inner housing ( 40 ) and the outer housing ( 30 . 110 ) with each other, by adjusting the first guide section ( 28 ) and the second guide section ( 76 ) provide each other.

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