JP3759871B2 - Headlamp cleaner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a headlamp cleaner that injects a cleaning liquid to clean a headlamp of a vehicle, and more particularly, an extendable headlamp that is retracted when a telescopic nozzle having an ejection port is accommodated when it is not in operation and is extended to a predetermined position when it is in operation. Regarding cleaners.
[0002]
[Prior art]
There is a headlamp cleaner as an apparatus for optionally cleaning a headlamp by operating a switch at hand of an occupant (driver) when the headlamp of an automobile becomes dirty. Some headlamp cleaners have a structure in which an expansion / contraction nozzle having an injection port at the tip is extended toward the vicinity of the headlamp only when the headlamp is cleaned.
[0003]
As this expansion / contraction structure, a piston / cylinder structure utilizing the pressure of the cleaning liquid is generally employed. That is, a piston portion provided at one end of the expansion / contraction nozzle is disposed in a bottomed cylindrical cylinder, and a cleaning liquid is supplied from a cleaning liquid pump between the bottom portion of the cylinder and the piston portion. The expandable nozzle is urged toward the bottom of the cylinder by a compression coil spring in a state where the nozzle is inserted through the opening of the cylinder and the injection port provided at the other end is located outside the cylinder. The expansion / contraction nozzle has a flow path for the cleaning liquid over substantially the entire length including the piston portion, and the injection port communicates with a portion in the cylinder to which the cleaning liquid is supplied. Further, on the upstream side of the injection port, a check valve is provided that communicates the flow path of the cleaning liquid and the injection port only when the liquid pressure of the cleaning liquid exceeds a predetermined value.
[0004]
In the headlamp cleaner having such a structure, the piston portion of the expansion / contraction nozzle is normally in a shortened state positioned toward the bottom side of the cylinder by the biasing force of the compression coil spring. On the other hand, when the cleaning liquid pump is operated and the hydraulic pressure of the cleaning liquid between the cylinder bottom and the piston rises, the piston moves to the cylinder opening against the biasing force of the compression coil spring. Thus, the headlamp cleaner is in an extended state (reaching the cleaning liquid injection position onto the headlamp). From this state, when the liquid pressure of the cleaning liquid further exceeds the predetermined value, the check valve is opened and the cleaning liquid is ejected from the ejection port toward the headlamp.
[0005]
[Problems to be solved by the invention]
By the way, in the headlamp cleaner having the expansion and contraction structure as described above, in order to ensure airtightness before and after the piston part or to prevent the seal material provided on the outer peripheral part of the piston from being worn, It is necessary to make the surface roughness as low as the mirror finish (finish the cylinder inner surface smoothly).
[0006]
However, in the conventional headlamp cleaner as described above, since the bottomed cylindrical cylinder is integrally formed, the inner peripheral surface of the cylinder is polished and mirror finished, and high precision is required for machining the cylinder. In addition, the number of processing steps is large, which causes high costs.
[0007]
An object of the present invention is to obtain a headlamp cleaner which is easy to process a cylinder and low in cost in consideration of the above facts.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, the headlamp cleaner according to the first aspect of the present invention is such that the piston portion slides with respect to the cylinder by the liquid pressure of the cleaning liquid acting on the piston portion arranged in the cylinder. A headlamp cleaner in which an expansion / contraction nozzle that is integral with the piston portion and has an injection port for injecting the cleaning liquid to one of the axially outer sides of the cylinder is moved to a predetermined injection position, Both ends are open and the inner diameter is constant over the entire length, and the opening on one side is covered with a first cover member that slidably supports the telescopic nozzle, and on the other side The opening is covered with a second cover member, and the first coverElementIs the opening of the cylinderofThe opening in the state engaged with the end facePartA locking piece provided at the end is caulked in the recess and is held by the cylinder, and the telescopic nozzle is supported so as not to rotate about the axis of the cylinder.
[0009]
In the headlamp cleaner according to claim 1, when the liquid pressure of the cleaning liquid in the cylinder whose end openings are covered by the first cover member and the second cover member acts on the piston portion of the expansion / contraction nozzle, the piston portion is against the cylinder. The telescopic nozzle is moved to a predetermined injection position while sliding with the first cover member. Thereby, the ejection port of the expansion / contraction nozzle reaches the ejection position of the cleaning liquid, for example, near the headlamp provided in the vehicle.
[0010]
Here, since the cylinder is formed in a cylindrical shape with both ends opened, it is easy to process the inner peripheral surface and the cost is low. Further, by applying a drawn pipe formed with high accuracy and low surface roughness to the cylinder, the finishing process of the inner peripheral surface of the cylinder is unnecessary, and the cost is further reduced.
[0011]
Thus, in the headlamp cleaner according to the first aspect, the processing of the cylinder is easy and the cost is low.
[0013]
  Also,Claim1In the described headlamp cleaner, a locking piece is formed at the opening end of the cylinder, and the opening end surfaces on both sides of the cylinderInFirst cover partMaterialIn the engaged state, the locking piece is caulked,FirstA cover member is held by the cylinder. As a result, the cylinder has the first cover portionMaterialWhen assembling, it is not necessary to use other members for coupling (for example, screws, adhesives, etc.).
[0014]
  For this reason, it is easy to cover at least one of the opening portions at both ends of the cylinder, and an increase in the number of parts is suppressed.Furthermore, in the headlamp cleaner according to the first aspect, since the first cover member supports the extendable nozzle so as to be slidable and non-rotatable around the axis of the cylinder, the extendable nozzle is moved to a predetermined injection position. This prevents rotation around the axis. For this reason, without increasing the number of parts (for example, adding a guide shaft or the like disposed outside the cylinder), the cleaning liquid injection direction from the injection port provided in the extendable nozzle is maintained in a constant direction.
[0018]
  Claim2The headlamp cleaner according to the invention described in claim1In the above-described headlamp cleaner, the first cover member includes a cylindrical portion that extends into the cylinder along the inner peripheral surface of the cylinder, and the piston portion slides relative to the cylinder by the cylindrical portion. It is characterized by being restricted in scope.
[0019]
  Claim2In the described headlamp cleaner, since the first cover member has a cylindrical portion that extends into the cylinder along the inner peripheral surface of the cylinder, the first cylindrical member moves to the predetermined injection position of the telescopic nozzle. The cylinder radial load acting on the cover member is supported, and the first cover member is not displaced or dropped off.
[0020]
In addition, since this cylindrical portion functions as a stopper that regulates the sliding range (movement amount of the expansion / contraction nozzle) of the piston portion, a headlamp cleaner having various movement amounts (strokes) of the expansion / contraction nozzles is obtained by using a common cylinder. be able to.
[0022]
Thus, since the 1st cover member serves as various functions, the increase in a number of parts is further suppressed.
[0025]
  Claim3A headlamp cleaner according to the invention described in claim 1.OrClaim2In the above-described headlamp cleaner, the second cover member is provided with a supply port for supplying the cleaning liquid into the cylinder.
[0026]
  Claim3In the described headlamp cleaner, since the supply port for supplying the cleaning liquid into the cylinder is provided in the second cover member, the number of processing steps of the cylinder is reduced and the influence on the accuracy of the inner peripheral surface of the cylinder is reduced.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
[0028]
FIG. 1 is a sectional view showing the overall structure of a headlamp cleaner 10 according to an embodiment of the present invention. FIG. 2 is an exploded perspective view showing the configuration of the expansion / contraction mechanism of the headlamp cleaner 10.
[0029]
As shown in FIGS. 1 and 2, the headlamp cleaner 10 includes a cylinder 12. The cylinder 12 is formed of a cylindrical drawn tube having both ends opened, and has an inner diameter dimension (roundness) with high accuracy and an inner peripheral surface with low surface roughness. A cylinder bottom portion 16 as a second cover member that covers the opening portion 14 is provided at the one end side opening portion 14 of the cylinder 12.
[0030]
The cylinder bottom portion 16 includes an engagement portion 18 having an outer diameter that is substantially the same as the outer diameter of the cylinder 12, and a fitting portion 20 having an outer diameter that is substantially the same as the inner diameter of the cylinder 12. 20 is inserted (fitted) into the cylinder 12 and the engaging portion 18 is arranged in a state of being engaged with the end of the opening 14 of the cylinder 12. In this state, as shown in FIG. 3 (B), the cylinder bottom portion 16 is provided with a locking piece 24 provided outside the opening 14 of the cylinder 12 in a recess 22 provided at the outer peripheral end of the engaging portion 18. The caulking prevents the cylinder 12 from falling off.
[0031]
Further, a tube joint portion 26 as a supply port integral with the cylinder bottom portion 16 is erected from the outer end portion of the cylinder 12, and the cylinder bottom portion 16 and the tube joint portion 26 are provided inside the cylinder 12. The supply hole 28 communicated with is provided. The tube joint portion 26 is connected to a pressure-resistant tube (both not shown) connected to a cleaning liquid pump connected to the cleaning liquid tank, and supplies the cleaning liquid into the cylinder 12 through the supply hole 28. Further, an O-ring groove 30 is provided on the outer peripheral portion of the cylinder bottom portion 16, and the O-ring 32 disposed in the O-ring groove 30 is provided between the outer periphery of the cylinder bottom portion 16 and the inner peripheral portion of the cylinder 12. It prevents the leakage of cleaning liquid.
[0032]
On the other hand, in the cylinder 12, a part of the expansion / contraction nozzle 34 having a longitudinal direction along the longitudinal direction of the cylinder 12 is inserted. The expansion / contraction nozzle 34 has a substantially cylindrical shape in which a cleaning liquid channel 36 extending over the entire length is formed. In addition, a piston portion 38 whose outer diameter is expanded to be substantially the same as the inner diameter of the cylinder 12 is provided at one end portion of the expandable nozzle 34 located in the cylinder 12. A seal groove 40 is provided in the outer peripheral portion of the piston portion 38, and a reciprocating seal 42 is disposed in the seal groove 40. As a result, the inner peripheral surface of the cylinder 12, the outer peripheral surface of the piston portion 38, and the reciprocating seal 42 slide, so that the telescopic nozzle 34 can reciprocate with respect to the cylinder 12. The leakage of the cleaning liquid from between the outer peripheral portion of the portion 38 and the inner peripheral portion of the cylinder 12 is prevented. Furthermore, a convex rail 44 is provided over the entire length of the outer peripheral surface of the telescopic nozzle 34 where the piston portion 38 is not provided.
[0033]
In addition, the other end side opening 46 of the cylinder 12 is provided with a cylinder top portion 48 as a first cover member that covers the opening 46. The cylinder top portion 48 includes a cylinder top upper portion 48A and a cylinder top lower portion 48B that are divided into two along the axis of the cylinder 12.
[0034]
The cylinder top portion 48 (hereinafter simply referred to as the cylinder top portion 48 means an assembled state of the cylinder top upper portion 48A and the cylinder top lower portion 48B) has an outer diameter substantially equal to the outer diameter of the cylinder 12. The joint portion 50 has a fitting portion 52 as a cylindrical portion having an outer diameter substantially the same as the inner diameter of the cylinder 12, and the fitting portion 52 is inserted into the cylinder 12 along the inner peripheral surface of the cylinder 12 ( And the engaging portion 50 is disposed in a state of being engaged with the end of the opening 46 of the cylinder 12. In this state, as shown in FIG. 3 (A), the cylinder top portion 48 has a locking piece 24 provided outside the opening 46 of the cylinder 12 in the concave portion 22 provided at the outer peripheral end portion of the engaging portion 50. The caulking is prevented from falling off the cylinder 12. Further, a guide portion 54 having a smaller diameter than the engaging portion 50 is extended from the outer end surface of the engaging portion 50 on the cylinder 12 side.
[0035]
The fitting portion 50 of the cylinder top portion 48 is provided with a spring hole 56 that opens toward one end of the cylinder 12 and has an inner diameter that is sufficiently larger than the dimension of the outer diameter of the telescopic nozzle 34 plus the height of the rail 44. ing. The bottom of the spring hole 56 is a flat spring receiving surface 58.
[0036]
Further, a guide hole 60 is provided from the spring receiving surface 58 to the end of the guide portion 54. The guide hole 60 is formed corresponding to the outer diameter of the expansion / contraction nozzle 34, and has a rail guide portion 60A corresponding to the rail 44 of the expansion / contraction nozzle 34 on the cylinder top upper part 48A side. As a result, the cylinder top portion 48 slides (reciprocates) without rotating around the axis of the telescopic nozzle 34 whose intermediate portion passes through the spring hole 56 and the guide hole 60 and whose other end portion is located outside the cylinder 12. This is a structure that supports the movement.
[0037]
Further, a compression coil spring 62 is disposed between the expandable nozzle 34 and the cylinder top portion 48. The inner diameter of the compression coil spring 62 when the outer shape is regarded as a cylindrical shape is made larger than the dimension obtained by adding the height of the rail 44 to the outer diameter of the expansion / contraction nozzle 34, and the outer diameter is smaller than the spring hole 56. Has been. The compression coil spring 62 has one end abutted against the cylinder 12 other end side end surface of the piston portion 38 of the expansion nozzle 34 and the other end portion of the cylinder top with the intermediate portion of the expansion nozzle 34 inserted therein. It is in contact with the spring receiving surface 58 of the portion 48.
[0038]
As a result, the expansion / contraction nozzle 34 is normally biased toward the one end side of the cylinder 12 by the compression coil spring 62 and is configured to be in a shortened state in which most of the expansion / contraction nozzle 34 is located in the cylinder 12. Further, in this state, a seal damper 64 is fitted at the end of the guide portion 54 of the cylinder top portion 48 with which an outer body 72 of an injection nozzle 70, which will be described later, comes into contact, and serves as a buffer when the telescopic nozzle 34 is shortened.
[0039]
On the other hand, the expansion / contraction nozzle 34 is extended with respect to the cylinder 12 against the urging force of the compression coil spring 62 by the driving force acting on the piston portion 38 by the hydraulic pressure of the cleaning liquid supplied into the cylinder 12 through the tube joint portion 26. In the state, the piston portion 38 comes into contact with the end surface of the fitting portion 52 of the cylinder top portion 48 (the opening end surface of the spring hole 56). The length of the fitting portion 52 is determined so that a later-described injection nozzle 70 reaches a predetermined injection position with the piston portion 38 in contact therewith.
[0040]
An injection nozzle 70 is provided at the other end of the extendable nozzle 34. The injection nozzle 70 includes an outer body 72. The outer body 72 is formed in a bottomed cylindrical shape, and is coaxially and integrally formed with the other end portion of the expansion / contraction nozzle 34 with the opening 74 at the tip. Is provided. As shown in an enlarged view in FIG. 4, a flow path 78 communicating with the cleaning liquid flow path 36 of the extendable nozzle 34 is provided at the bottom 76 of the outer body 72. In addition, a seal groove 80 formed in an annular shape coaxially therewith is provided outside the flow path 78 on the inner surface of the outer body 72 of the bottom 76. The outer wall (center-facing side wall) of the seal groove 80 coincides with the inner peripheral surface of the cylindrical portion of the outer body 72. Furthermore, two engagement holes 82 that can be engaged with an engagement claw 100 of a nozzle base 90 described later are provided in a cylindrical portion near the opening 74 of the outer body 72.
[0041]
An elastically deformable valve seat seal 84 is disposed in the outer body 72. As shown in FIGS. 5A and 5B, the valve seat seal 84 is formed in a ring shape having a through hole 86 corresponding to the flow path 78 in the center. In addition, an annular protrusion 88A standing on the bottom 76 side of the outer body 72 along the axial direction, and an opening 74 side of the outer body 72 along the axial direction are provided on the outer periphery of the valve seat seal 84. Each of the annular projections 88B is provided. Among these, the annular protrusion 88 </ b> A has a dimensional shape corresponding to the seal groove 80 provided in the bottom 76 of the outer body 72.
[0042]
The injection nozzle 70 includes a nozzle base 90. The nozzle base 90 has a cylindrical inner body portion 92 whose outer diameter is substantially the same as the inner diameter of the outer body 72 and is coaxial with the outer body 72, and a tip that is bent at a substantially right angle with respect to the axis of the inner body portion 92. A tip holding portion 94 having an enlarged inner diameter is also provided, and a nozzle tip 98 having an injection port 96 is fitted to the tip of the tip holding portion 94. The nozzle 96 of the nozzle tip 98 is disposed so as to be able to spray a cleaning liquid toward a headlamp (not shown) in a state where the nozzle 96 is mounted on a vehicle and the expandable nozzle 34 is extended with respect to the cylinder 12.
[0043]
On the other hand, an engagement claw 100 that can be engaged with the engagement hole 82 of the outer body 72 is provided on the outer peripheral portion of the inner body portion 92, and is engaged when the inner body portion 92 is fitted into the outer body 72. The claw 100 is engaged with the engagement hole 82 to prevent the nozzle base 90 from being detached from the outer body 72. In addition, the inner diameter of the inner body portion 92 opened toward the bottom 76 side of the outer body 72 is substantially the same as the inner wall (the radially outward side wall) of the seal groove 80 of the outer body 72. Thus, in the engaged state between the engaging claw 100 and the engaging hole 82, the axial end surface of the inner body portion 92 presses the annular protrusion 88 </ b> B of the valve seat seal 84, and The valve seat seal 84 in which the annular protrusions 88A and 88B are elastically deformed is tightly held between the axial end face of the body portion 92.
[0044]
Further, the inside of the inner body 92 is a valve housing portion 102. As shown in FIG. 6, a plurality of (four in the present embodiment) convex portions 104 protrude from the inner peripheral surface of the valve housing portion 102 toward the axial center portion of the valve housing portion 102. Each convex portion 104 has a rod shape or a plate shape that is formed in the longitudinal direction along the axis of the inner body portion 92, and the diameter of a virtual circle that connects the radially inner ends of the respective convex portions 104 is equal to that of the outer body 72. The diameter is sufficiently larger than the inner diameter of the flow path 78 (the through hole 86 of the valve seat seal 84).
[0045]
The valve accommodating portion 102 is provided in the tip holding portion 94 and communicates with a cleaning liquid passage 106 having substantially the same diameter as the passage 78, and the communicating portion is formed in a conical shape. The end portions of the convex portions 104 on the chip holding portion 94 side are also inclined corresponding to the conical communication portions, and the inclined portions serve as spring receiving portions 108. The cleaning liquid channel 106 is bent at a substantially right angle in accordance with the outer shape of the chip holding portion 94 and the inner diameter after the bending is enlarged as described above, and the nozzle 96 is fitted to the injection port 96 fitted therein. It is communicated.
[0046]
In addition, a spherical valve 110 and a compression coil spring 112 that constitute a check valve are disposed inside the valve housing portion 102. The spherical valve 110 has a sufficiently larger diameter than the through-hole 86 of the valve seat seal 84 and a slightly smaller diameter than a virtual circle connecting the radially inner ends of the convex portions 104 of the valve accommodating portion 102. While the movement of the valve housing portion 102 in the radial direction is limited by 104, the valve housing portion 102 is disposed so as to be movable in the axial direction. As a result, when the spherical valve 110 is in contact with the inner peripheral edge of the through hole 86 of the valve seat seal 84, the through hole 86 (flow path 78) is closed to prevent the supply of the cleaning liquid into the nozzle base 90. In the state where the spherical valve 110 is separated from the through hole 86, the cleaning liquid is supplied into the nozzle base 90 through the space between the convex portions 104.
[0047]
Further, the compression coil spring 112 is compressed by a predetermined amount and is in contact with the spherical valve 110 at the other end with one end engaged with the spring receiving portion 108. Thus, normally, the spherical valve 110 is urged toward the bottom 76 of the outer body 72 along the axial direction of the inner body portion 92 by the compression coil spring 112, and the inner peripheral edge of the through hole 86 of the valve seat seal 84. It is the structure contact | abutted to.
[0048]
The headlamp cleaner 10 described above is disposed at an appropriate position of the vehicle (for example, in the front bumper, for example) via a bracket (not shown) integrally provided with the cylinder 12 or the cylinder top portion 48, a frame member holding the cylinder 12, or the like. ) Can be attached.
[0049]
Next, the operation of the present embodiment will be described.
[0050]
In the headlamp cleaner 10 configured as described above, normally (when the cleaning liquid pump is not operated), the expansion / contraction nozzle 34 is shortened with respect to the cylinder 12 by the urging force of the compression coil spring 62 (the bottom 76 of the outer body 72 becomes the seal damper 64). For example, the expandable nozzle 34 is accommodated in the front bumper of the vehicle.
[0051]
In this state, the spherical valve 110 is brought into contact with the inner peripheral edge of the through hole 86 of the valve seat seal 84 by the urging force of the compression coil spring 112, and the supply of the cleaning liquid to the nozzle base 90 (injection port 96) is blocked. Yes. In this state, the cleaning liquid is filled in the pressure-resistant tube, between the piston portion 38 of the cylinder 12 and the cylinder bottom portion 16, in the cleaning liquid flow path 36 of the extendable nozzle 34, and the like.
[0052]
When the cleaning liquid pump is operated, the liquid pressure of the cleaning liquid rises, and the piston part 38 (reciprocating seal 42) resists the urging force of the compression coil spring 62 by the driving force acting on the piston part 38 due to this liquid pressure. Slide against the cylinder 12. The expansion / contraction nozzle 34 extends with respect to the cylinder 12 by the sliding of the piston portion 38. When the piston portion 38 comes into contact with the end surface of the fitting portion 52 of the cylinder top portion 48, further expansion of the expansion / contraction nozzle is restricted, and the ejection nozzle 70 disposed at the tip of the expansion / contraction nozzle 34 is used as a cleaning liquid for the headlamp. Reach the sprayable position.
[0053]
In this state, when the hydraulic pressure of the cleaning liquid further rises, the spherical valve 110 is forced from the through hole 86 of the valve seat seal 84 against the urging force of the compression coil spring 112 by the driving force acting on the spherical valve 110 by this hydraulic pressure. After being separated, the closed state of the through hole 86 is released. When the closed state of the through hole 86 is released, the cleaning liquid passes through the flow path 78, the through hole 86, the space between the convex portions 104 of the valve housing portion 102, and the cleaning liquid flow path 106 to the injection port 96 of the nozzle tip 98. Supplied and ejected from the ejection port 96 toward the headlamp.
[0054]
Here, since the cylinder 12 is formed in a cylindrical shape having the openings 14 and 46 at both ends, the processing of the inner peripheral surface is easy and the cost is low. In particular, in the above-described configuration, the cylinder 12 is made of a drawn tube that is molded with high accuracy and low surface roughness, so that the finishing process of the inner peripheral surface of the cylinder 12 is not required and the cost is further reduced.
[0055]
Thus, in the headlamp cleaner 10 according to the present embodiment, the processing of the cylinder is easy and the cost is low.
[0056]
Further, here, since the cylinder bottom portion 16 and the cylinder top portion 48 are held by the cylinder 12 by the engagement of the recess 22 and the locking piece 24 of the cylinder 12, the cylinder bottom portion 16 and the cylinder top portion are attached to the cylinder 12. When assembling 48, it is not necessary to use another member for coupling (for example, a screw or an adhesive). For this reason, it is easy to cover the openings at both ends of the cylinder 12, and an increase in the number of parts is suppressed.
[0057]
Furthermore, since the cylinder top part 48 is provided with the fitting part 52 inserted in this cylinder 12 along the internal peripheral surface of the cylinder 12, this fitting part 52 is set to the predetermined injection position of the expansion-contraction nozzle 34 here. A load in the radial direction of the cylinder 12 acting on the cylinder top portion 48 during the movement is supported, so that the cylinder top portion 48 is not displaced or dropped off from the cylinder 12. In addition, since the fitting portion 52 functions as a stopper for restricting the sliding range of the piston portion 38 (the amount of movement of the expansion / contraction nozzle 34), the cylinder 12 is used in common so that various movement amounts (strokes) of the expansion / contraction nozzle 34 can be obtained. The headlamp cleaner 10 having the above can be obtained. In other words, only by changing the shape of the cylinder top portion 48 (the length of the fitting portion 52), it is possible to obtain the headlamp cleaner 10 having strokes corresponding to various vehicles while sharing other components.
[0058]
Further, since the expansion / contraction nozzle 34 has a rail 44 and the cylinder top portion 48 has a rail guide portion 60A corresponding to the rail 44 in the guide hole 60 for slidably supporting the expansion / contraction nozzle 34, the expansion / contraction nozzle 34 has a predetermined length. It is possible to prevent the cylinder 12 from rotating around the axis along with the movement to the injection position. For this reason, the cleaning liquid injection direction from the injection port 96 provided at the other end of the expansion / contraction nozzle 34 is constant without increasing the number of parts (for example, addition of a guide shaft arranged outside the cylinder 12 or the like). Maintained.
[0059]
  Furthermore, since the hose joint portion 26 for supplying the cleaning liquid into the cylinder 12 is provided integrally with the cylinder bottom portion 16, the processing man-hour of the cylinder 12 is reduced and the influence on the accuracy of the inner peripheral surface of the cylinder 12 is small. Become.
(Cylinder, cylinder bottom and cylinder topreferenceExample)
7 and 8 show reference examples.
[0060]
Note that parts and portions that are basically the same as those in the above embodiment are denoted by the same reference numerals as those in the above embodiment, and description thereof is omitted.
[0061]
  thisReference example7 and 8, a cylinder 120 is provided in place of the cylinder 12 as shown in FIGS. The cylinder 120 is made of a drawn tube as in the cylinder 12 and has engagement holes 122 at two locations near the opening portions 14 and 46 in place of the locking piece 24.
[0062]
A cylinder bottom portion 124 is provided in the opening 14 of the cylinder 120. Similar to the cylinder bottom portion 16, the cylinder bottom portion 124 includes an engagement portion 18, a fitting portion 20 provided with an O-ring groove 30, a tube joint portion 26, and a supply hole 28. Is provided with an O-ring 32. Unlike the cylinder bottom portion 16, the engagement portion 18 is not formed with the recess 22.
[0063]
Further, two hook members 126 corresponding to the engagement holes 122 of the cylinder 120 are erected along the outer peripheral surface of the fitting portion 20 at the end portion of the fitting portion 20 facing the piston portion 38. The hook member 126 includes a hook-like engagement claw 128 at the tip, and is formed to be elastically deformable in the radial direction of the fitting portion 20 (cylinder 120). Further, the engaging claw 128 can be engaged with the engaging hole 122 of the cylinder 120, and in this engaged state, the cylinder bottom portion 124 cannot be removed from the cylinder 120.
[0064]
The cylinder bottom portion 124 is inserted (relatively moved) into the cylinder 120 in a state where the hook member 126 is elastically deformed radially inward of the fitting portion 20, and the engagement claw 128 is engaged with the engagement hole 122 of the cylinder 120. When this position is reached, the elastic deformation state of the hook member 126 is released, and the engagement claw 128 is engaged with the engagement hole 122 of the cylinder 120. In this state, the dimensions of each part are determined so that the engaging part 18 engages with the end part of the opening part 14 of the cylinder 120. Accordingly, the cylinder bottom portion 124 is held by the cylinder 120 in a state in which the cylinder bottom portion 124 is prevented from being further inserted into the cylinder 120 and coming off from the cylinder 120 (see FIG. 8).
[0065]
On the other hand, a cylinder top portion 130 is provided in the opening 46 on the other end side of the cylinder 120. The cylinder top portion 130 includes a cylinder top upper portion 130A and a cylinder top lower portion 130B that are divided into two along the axis of the cylinder 120.
[0066]
The cylinder top portion 130 (hereinafter simply referred to as the cylinder top portion 130 means an assembled state of the cylinder top upper portion 130A and the cylinder top lower portion 130B) is the same as the cylinder top portion 48, the fitting portion 52, the guide portion. 54, a spring hole 56, a spring receiving surface 58, a guide hole 60, and a rail guide portion 60A. Unlike the cylinder top portion 48, the cylinder top portion 130 is not provided with the engaging portion 50.
[0067]
Further, two hook members 132 corresponding to the engagement holes 122 of the cylinder 120 are erected along the outer peripheral surface of the fitting portion 52 at the end portion on the guide portion 54 side of the fitting portion 52. The hook member 132 includes a hook-like engagement claw 134 in the vicinity of the tip portion, and is formed so as to be elastically deformable in the radial direction of the fitting portion 52 (cylinder 120). Further, the engaging claw 134 can be engaged with the engaging hole 122 of the cylinder 120, and in this engaged state, the cylinder top portion 130 cannot be removed from the cylinder 120.
[0068]
The hook member 132 (engagement claw 134) is formed on the hook member upper piece 132A (formed on both the cylinder top upper portion 130A and the cylinder top lower portion 130B along the mating surface of the cylinder top upper portion 130A and the cylinder top lower portion 130B. The engagement claw upper part 134A) and the hook member lower piece 132B (engagement claw lower part 134B) are configured so that the engagement claw upper part 134A and the engagement claw lower part 134B are engaged with one engagement hole 122. It has become.
[0069]
The cylinder top portion 130 is inserted (relatively moved) into the cylinder 120 in a state where the hook member 132 is elastically deformed radially inward of the fitting portion 52, and the engagement claw 134 is engaged with the engagement hole 122 of the cylinder 120. When this position is reached, the elastic deformation state of the hook member 132 is released, and the engagement claw 134 is engaged with the engagement hole 122 of the cylinder 120. As a result, the cylinder top portion 130 is held by the cylinder 120 in a state in which the cylinder top portion 130 is prevented from falling off the cylinder 120 (see FIG. 8). Note that the cylinder top portion 130 is biased in the direction of extraction from the cylinder 120 by the compression coil spring 62 on the spring receiving surface 58, and thus is not inserted into the cylinder 120 more than necessary.
[0073]
  The form of the above implementationIn stateAre the cylinder 12, the cylinder bottom part 16 and the cylinder top part 4Both sides are caulkingAlthough it was set as the structure engaged by a means, this invention is not limited to this,For example, a cylinder bottom portion 124 may be employed instead of the cylinder bottom portion 16.
[0074]
  In addition, the above embodimentIn stateThe expansion / contraction nozzle 34 has the rail 44 and the cylinder top portions 48 and 130 have the rail guide portion 60A, so that the expansion / contraction nozzle 34 is prevented from rotating around the axes of the cylinders 12 and 120. The present invention is not limited to this. For example, the cross-sectional shapes of the expansion / contraction nozzle 34 and the guide hole 60 may be configured to prevent the rotation of the expansion / contraction nozzle 34 by using an elliptical diameter or a polygonal shape. Further, the expansion / contraction nozzle 34 (excluding the piston portion 38) and the guide hole 60 may be eccentric from the axial centers of the cylinders 12 and 120.
[0075]
  In addition, the above implementation formIn stateIs the cylinder top 48 isAlthough the structure is divided into two, the present invention is not limited to this, and the cylinder top portion 48 isIt may be formed integrally. In this case, it is desirable that the outer body 72 of the injection nozzle 70 be provided so as to be able to pass through the guide hole 60 or be detachable from the extendable nozzle 34.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an overall configuration of a headlamp cleaner according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing a telescopic mechanism that constitutes the headlamp cleaner according to the embodiment of the present invention.
FIGS. 3A and 3B are views showing a covering state of a cylinder opening constituting the headlamp cleaner according to the embodiment of the present invention, wherein FIG. 3A is a perspective view showing a cylinder top portion, and FIG. 3B is a cylinder bottom portion; FIG.
FIG. 4 is an enlarged cross-sectional view showing a sealing structure of an injection nozzle constituting the headlamp cleaner according to the embodiment of the present invention.
5A is a front view showing a valve seat seal of an injection nozzle constituting the headlamp cleaner according to the embodiment of the present invention, and FIG. 5B is a cross-sectional view of the valve seat seal.
6 is a cross-sectional view taken along line 6-6 of FIG.
[Fig. 7]Reference exampleIt is a disassembled perspective view which shows the expansion-contraction mechanism part which concerns on.
[Fig. 8]Reference exampleIt is sectional drawing which shows the covering state of the cylinder both ends which concern on this.
[Explanation of symbols]
        10 Headlamp cleaner
        12 cylinders
        16 Cylinder bottom (second cover member)
        24 Locking piece
        26 Hose joint (supply port)
        34 Telescopic nozzle
        38 Piston part
        48 Cylinder top (first cover member)
        52 Fitting part (cylindrical part)
        96 injection port

Claims (3)

The piston part slides with respect to the cylinder by the liquid pressure of the cleaning liquid acting on the piston part arranged in the cylinder, so that the cleaning liquid is integrated with the piston part and on one side outside the cylinder in the axial direction. A headlamp cleaner in which a telescopic nozzle having an injection port for injecting is moved to a predetermined injection position,
The cylinder is formed in a cylindrical shape having both ends opened and an inner diameter constant over the entire length, and the opening on the one side is covered with a first cover member that slidably supports the expansion / contraction nozzle. , The opening on the other side is covered with the second cover member,
In the state where the first cover member is engaged with the end face of the opening of the cylinder, the locking piece provided at the end of the opening is caulked into the recess and is held by the cylinder. A telescopic nozzle is supported so as not to rotate about the cylinder axis;
A headlamp cleaner characterized by that. The first cover member includes a cylindrical portion extending into the cylinder along the inner peripheral surface of the cylinder,
The piston part is regulated in a sliding range with respect to the cylinder by the cylindrical part,
Claim 1 Symbol mounting the headlamp cleaner, characterized in that. It said second cover member is provided with a supply port for supplying the cleaning liquid in the cylinder, according to claim 1 or claim 2 headlamp cleaner wherein a.

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