Cleaning device and method for cleaning surface of target device
阅读说明:本技术 用于清洗目标装置表面的清洗装置及方法 (Cleaning device and method for cleaning surface of target device ) 是由 R·L·加莱拉 O·A·赫尔南德斯 于 2019-07-22 设计创作,主要内容包括:本发明涉及用于清洗目标装置表面的清洗装置及方法。该清洗装置包括用于移动至少一个擦拭器(130)的至少一个第一擦拭器驱动致动器(140)和至少一个第二擦拭器驱动致动器(150)并包括用于朝向目标装置(200)喷射清洗流体的至少一个喷嘴(120),其中擦拭器驱动致动器(140,150)彼此链接,使得在使用中,通过所述第一擦拭器驱动致动器(140)沿着第一线(X)驱动所述擦拭器(130)以接触待清洗的所述目标装置(200)的表面(210),并且通过所述第二擦拭器驱动致动器(150)沿着第二线(Y)驱动所述擦拭器(130)以擦拭所述目标装置(200)的所述表面(210)的至少一部分。(The present invention relates to a cleaning device and a method for cleaning a target device surface, the cleaning device comprising at least wiper drive actuators (140) and at least second wiper drive actuators (150) for moving at least wipers (130) and comprising at least nozzles (120) for spraying cleaning fluid towards a target device (200), wherein the wiper drive actuators (140, 150) are linked to each other such that, in use, the wiper (130) is driven along a line (X) by the wiper drive actuator (140) to contact a surface (210) of the target device (200) to be cleaned and the wiper (130) is driven along a second line (Y) by the second wiper drive actuator (150) to wipe at least parts of the surface (210) of the target device (200).)
A cleaning device (100) for cleaning a surface (210) of a target device (200) in a motor vehicle, the cleaning device (100) comprising:
-at least st wiper drive actuator (140), said th wiper drive actuator (140) being telescopically operable by a cleaning fluid to move at least wipers (130) along th line (X) from a th position to a second position or from the second position to an th position;
-at least second wiper drive actuators (150), the second wiper drive actuators (150) being operable to move the wiper (130) along a second line (Y) from a position to a second position or from a second position to a position;
-at least nozzles (120), the at least nozzles (120) being for ejecting cleaning fluid towards the surface (210) of the target device (200) to be cleaned;
wherein the wiper drive actuator (140) and the second wiper drive actuator (150) are mechanically linked to each other such that, in use, the wiper (130) is driven by the wiper drive actuator (140) along the th line (X) to contact at least portions of the surface (210) of the target device (200) to be cleaned, and the wiper (130) is driven by the second wiper drive actuator (150) along the second line (Y) to wipe the at least portions of the surface (210) of the target device (200).
2. The cleaning device (100) according to claim 1, wherein at least second wiper drive actuators (150) are telescopically operable by the cleaning fluid to move the wiper (130) from a position to a second position or from a second position to a position.
3. Cleaning device (100) according to claim 1 or 2, wherein the cleaning device (100) comprises a cleaning structure (110), the cleaning structure (110) being arranged to at least partially surround the surface (210) of the target device (200), the cleaning structure (110) carrying the at least nozzles (120) and the at least wipers (130), such that the at least wipers (130) contact the side surface (210) of the target device (200) when the cleaning structure (110) is driven along the second line (Y) by the second wiper-driving actuator (150).
4. The cleaning device (100) according to any of the preceding claims, wherein the second line (Y) is inclined with respect to the line (X).
5. A cleaning device (100) according to claim 3 or 4, wherein the cleaning device (100) is configured to:
-spraying a cleaning fluid from the nozzle (120) towards the surface (210) of the target device (200) to be cleaned;
-driving the cleaning structure (110) along the th line (X) by the th wiper drive actuator (140) until the wiper (130) contacts the surface (210) of the target device (200), and
-driving the cleaning structure (110) along the second line (Y) by the second wiper driving actuator (150) with the wiper (130) contacting the surface (210) of the target device (200).
6. Cleaning device (100) according to any of claims 3-5, wherein the cleaning structure (110) comprises a ring assembly defined by at least two half-ring elements (110a, 110b), the half-ring elements (110a, 110b) being connected to each other by the wiper drive actuator (140), the wiper drive actuator being adapted to drive the half-ring elements (110a, 110b) along the line (X) from the position to the second position or from the second position to the position.
7. The cleaning device (100) according to any of the preceding claims, wherein the wiper (130) is formed from multiple parts.
8. Cleaning device (100) according to any of the preceding claims, wherein the cleaning device (100) further comprises a respective spring mechanism for biasing the wiper drive actuator (140) and the second wiper drive actuator (150) along the line (X) and the second line (Y), respectively.
9. The cleaning device (100) according to claim 8, wherein the spring mechanisms have mutually different spring rates such that the wiper (130) is driven by the th wiper drive actuator (140) and the second wiper drive actuator (150) from the th position to the second position at different times along the th line (X) or the second line (Y).
10. Cleaning device (100) according to any of the preceding claims, wherein the nozzle (120) is configured to eject cleaning fluid only when at least of the wiper drive actuator (140) and the second wiper drive actuator (150) have been telescopically extended by a determined length.
11. The cleaning device (100) according to any of claims 3-10, wherein the wiper drive actuator (140) is operable by the second wiper drive actuator (150) to move along a second line (Y), the wiper drive actuator (140) carrying the at least nozzles (120) and the wiper (130) such that the wiper (130) contacts the surface (210) of the target device (200) when the cleaning structure (110) is driven along the th line (X) by the wiper drive actuator (140).
12. The cleaning device (100) according to any of the preceding claims, wherein at least nozzles (120) are fluidly linked with the wiper drive actuator (140).
13, a method for cleaning a surface (210) of a target device (200) mounted on a vehicle, the method comprising the steps of:
-providing a cleaning device (100) according to any of the preceding claims;
-spraying a cleaning fluid from a nozzle (120) towards the surface (210) of the target device (200) to be cleaned;
-driving a wiper (130) by an th wiper drive actuator (140) along a th line (X) towards the surface (210) of the target device (210) to be cleaned, and
-driving the wiper (130) along a second line (Y) by a second wiper driving actuator (150) with the wiper (130) contacting the surface (210) of the target device (200).
14. The method of claim 13, wherein the cleaning device (100) comprises a cleaning structure (110), the cleaning structure (110) at least partially surrounding the surface (210) of the target device (200) and carrying at least wipers (130), and wherein
The step of driving the wiper (130) along the th line (X) is performed by driving the cleaning structure (110) along the th line (X) from a second position to a third position by the th wiper drive actuator (140), and wherein
The step of driving the wiper (130) along the second line (Y) is performed by driving the cleaning structure (110) from the second position to a third position by the second wiper driving actuator (150) with the wiper (130) contacting the surface (210) of the target device (200).
15. The method of claim 13 or 14, wherein jetting of cleaning fluid from the nozzle (120) is prevented when the wiper (130) is driven into contact with the surface (210) of the target device (200).
Technical Field
The present disclosure relates to washing devices for washing a surface of a target device in a motor vehicle, and to methods of washing a surface of a target device using such washing devices.
Background
Sensors, such as cameras and other various optical devices fitted on the outside of motor vehicles (in particular outdoor sensors), are increasingly used in the automotive field. Such sensors are typically exposed to dirt, dust, water droplets, etc., and debris that may accumulate thereon, which should be removed to keep the sensor clean and clean to effectively perform its intended function.
It is very important to keep the sensors clean and clean, especially in the case of autonomous or autonomous driving cars that include LIDAR (light detection and ranging) sensors, which are typically mounted on the top of the vehicle so as to scan in all directions to produce a three-dimensional view of the vehicle surroundings. The accumulation of dirt, dust and debris may clog the lidar sensor, reducing its accuracy. Since this may jeopardize safe driving, it should be wiped clean constantly.
To keep such sensors clean and dry, large amounts of water are used on site, typically by sprayers placed under the window or windshield and on the roof of the vehicle. This results in a high consumption of water and in many cases also a downward pouring of water through the window, which is undesirable.
In order to improve efficiency, motor-driven wiper-based washing devices have also recently been used, which incorporate water and/or air nozzles to spray a washing fluid to clean the surface of the sensor examples of such washing devices are disclosed in US2016121855 and US 2017151933A spray nozzle is provided adjacent a dome on the roof of a vehicle and in combination with a motor-driven wiper blade arranged around the dome.
US2016244028 provides wiping devices for maintaining detection accuracy of a sensor, the wiping device comprising a wiping mechanism having a rotation shaft coupled to a motor drive shaft, and a wiper having an arm extending gradually downward sloping forward from the rotation shaft and a rubber wiper blade attached to the arm.
US2018009418 discloses an sensor cleaning system including at least wiper blades configured to move from a th position to a second position in conjunction with a fluid directing nozzle configured to direct pressurized fluid to clean a sensor area.
Although the above prior art cleaning devices have been found generally effective, they are undesirably complex due to the use of mechanical means, such as a motor, to operate the wiper. It has also been found that this also involves problems such as short circuits caused by the combination of electrical components (i.e. the motor and associated components) and hydraulic components (i.e. the cleaning fluid). In addition, a relatively large amount of cleaning fluid is still required to effectively clean the sensor, which is also undesirable.
Disclosure of Invention
washing devices for washing target devices, such as the surfaces of sensor lenses in various sensors used in motor vehicles, have been found to be very effective for washing sensors having a cylindrical shape, but it can be effectively applied to many other different sensor geometries.
The present cleaning device includes at least of the wiper drive actuators and at least of the second wiper drive actuators at least of the wiper drive actuators are, for example, telescopically operable from a retracted or collapsed state into an extended or operational state.
At least wipers are also provided, the at least wipers being configured to contact the target device to be cleaned so as to wipe at least portions of its surface (e.g., the surface of a sensor lens in a motor vehicle sensor) to remove dirt or liquid therefrom, hi cases, the wipers may be formed of multiple parts.
The wiper drive actuator is, for example, telescopically operable to move the at least wipers from the th position to the second position or from the second position to the th position along line operation of the wiper drive actuator may be performed by the cleaning fluid, for example, when pumping the cleaning fluid from the fluid source.
In turn, the second wiper drive actuator can also be operated, e.g., telescopically, to move the wiper along a second line from a th position to a second position, or from the second position to the th position.
The operation of the th wiper drive actuator and the second wiper drive actuator may be performed by the same fluid line or by two different fluid lines.
The second position, for example in a telescopic actuator, is a position extending steps further along at least of the th line or the second line than the th position in other words the length that each wiper drive actuator extends along the th line and/or the second line at the second position is longer than the length that each wiper drive actuator extends at the th position it may be preferred that the second line is inclined, for example by about 90 deg. with respect to the th line other different angles of inclination of the th line and the second line are possible, even though there is a non-inclined arrangement of the th line and the second line, i.e. inclined at an angle of 0 deg. with respect to each other.
As a result, in use, the wiper is driven by the th wiper drive actuator along the th line to contact at least portions of the surface of the target device to be cleaned, and is also driven by the second wiper drive actuator along the second line to wipe the portions of the surface of the target device.
When the th wiper drive actuator and the second wiper drive actuator are fluidly linked, the cleaning fluid will enter the cleaning device such that the th wiper drive actuator and the second wiper drive actuator are operated, i.e., telescopically extended, when the wiper drive actuators have been fully extended, or have reached their end of path, or they have been extended to a given length, e.g., such that the surface of the target device has been properly cleaned, fluid ejection ceases and the wiper drive actuators retract.
Driving the wiper along two different lines by a single common drive source (i.e. cleaning fluid) results in a very simple cleaning device, where few components are involved, while very effective removal of debris and dust as well as the rest of the cleaning fluid itself, combined with the absence of electronic components (e.g. electric motors), results in safety that is not compromised by the use of liquid (i.e. cleaning fluid together with these electronic components ).
The present cleaning apparatus also includes at least nozzles or fluid jets for spraying cleaning fluid toward the surface of the target device to be cleaned to clean at least portions thereof.
The th wiper drive actuator and the second wiper drive actuator each include a telescoping element so that they can be extended to a given position to eject cleaning fluid and to bring the wiper into proper contact with the target device to be cleaned.
The wipers may also be moved toward and away from a wall or surface of the target device to be cleaned, and also driven onto the wall or surface while wiping it, so as to clean and dry at least a portion thereof.
Two different approach movements of the wiper relative to the target device surface will now be described in detail.
Example 1: radial approach movement of a wiper
In a th advantageous example of the present cleaning device, a cleaning structure is provided, which is arranged at least partially around the surface of the target device, this example may be adapted for example to the case where the target device is cylindrical in shape, as with many commonly used vehicle sensors , in which case the cleaning structure may be, for example, annular and arranged around the surface of a cylindrical target device.
In this example, at least nozzles and at least wipers can be carried directly or indirectly by the cleaning structure such that at least wipers can contact the target device to wipe its side surfaces as the second wiper-driving actuator drives the cleaning structure along the second line to wipe the portion of the target device surface.
As mentioned above, the second line is inclined, for example, by about 90 ° with respect to the th line, but other different angles of inclination of the th line and the second line are also possible.
The motor vehicle may have attached a guiding structure along which the second wiper drive actuator may move the washing structure along a second line.
In operation, during extension of the two wiper drive actuators along the th line and the second line, the nozzles carried by the washing structure spray washing fluid toward the surface of the target device to be washed to clean at least portions thereof.
In this example, the wiper may be driven along the th line when the th wiper drive actuator actuates the scrubbing structure from a second position to a third position along the th line (i.e., an intermediate position between the th position and the second position) with the wiper contacting the surface of the target device.
Although the third position is not necessary in this example, it may be present where the wiper contacts the surface of the target device for improved contact to provide higher pressure contact.
Example 2: linear proximity movement of a wiper
In this example, the th wiper drive actuator is also arranged to drive the wipers along a th line, and the second wiper drive actuator is arranged to drive the wipers along a second line.
At least nozzles and at least wipers are carried by the wiper drive actuator as in the example, a cleaning structure is provided, in this case defined by the at least nozzles and the at least wipers.
In operation, cleaning fluid is pumped, causing both the th wiper drive actuator and the second wiper drive actuator to extend along the th line and the second line when cleaning fluid is not pumped, the wiper is moved along the th line to contact the surface of the target device and along the second line to wipe the surface of the target device in respective opposite directions, e.g., by spring action of a spring.
This second example can be applied to a target device such as a sensor other than a cylindrical sensor. Therefore, in this case, no cleaning structure is provided around the surface of the target device. In this second example, the surface of the target device is in contact with the wiper as the wiper moves along the second line to wipe, i.e., wipe, as described above. Each wiper drive actuator is arranged to drive the nozzles and hide them inside the holder so that it is out of the field of view of the sensor and remains protected when not in use.
Also, in this example, a third position may exist along the line, wherein the wiper contacts the surface of the target device for improved contact to provide higher pressure contact.
As described above, a spring mechanism may be provided in both examples of the present cleaning device for biasing at least of the wiper drive actuator or the second wiper drive actuator along the th line and the second line, respectively, when no cleaning fluid is pumped, the spring mechanism may comprise a compression spring or other equivalent element adapted to pull the th wiper drive actuator and the second wiper drive actuator to return them to the second position (corresponding to their retracted rest positions, when no cleaning fluid is supplied). for example, if cleaning fluid is supplied by a pump from the above-mentioned external source of cleaning fluid, the pump is stopped and the th wiper drive actuator and the second wiper drive actuator are then brought to their respective retracted rest positions.
In examples, it may be preferred that the spring mechanisms have different spring rates from each other as a result, the wipers may be driven from the th position to the second position at different times along the th line or the second line by the th wiper drive actuator and the second wiper drive actuator.
Thus, in accordance with the present disclosure of the present cleaning device, the wipers can be driven along different lines by two separate wiper drive actuators, wiper drive actuators for moving the wipers toward and away from the target device and wiper drive actuators for moving the wipers along the target device to wipe its surface in a cleaning operation.
Generally, to clean a surface of a target device mounted on a vehicle using the present cleaning apparatus, the cleaning apparatus is actuated such that cleaning fluid is pumped from an external fluid source to flow through each of the wiper drive actuators, thereby causing each of the wiper drive actuators to be driven along the th line and the second line.
Although it may be preferable to prevent the ejection of the cleaning fluid from the nozzles when the wiper is driven to contact the surface of the target device, an example of ejecting the cleaning fluid when the wiper is driven to contact the surface of the target device is also conceivable.
The present disclosure also relates to a method for cleaning a surface of a target device mounted on a vehicle, the method comprising the steps of providing the above cleaning device, spraying cleaning fluid from a nozzle toward the surface of the target device to be cleaned, driving a wiper along a th line X toward the surface of the target device to be cleaned by a th wiper driving actuator, and driving the wiper along a second line Y by a second wiper driving actuator with the wiper contacting the surface of the target device.
In this case, the step of driving the wiper along line X at line is performed by driving the cleaning structure from the second position to the third position along line X by a wiper drive actuator, and the step of driving the wiper along line Y is performed by driving the cleaning structure from the second position to the third position by a second wiper drive actuator with the wiper contacting the surface of the target device.
In the examples, it may be prevented that cleaning fluid is ejected from the nozzles when the wiper is driven into contact with the surface of the target device it may be advantageous to drive the wiper along line X simultaneously with the step of driving the wiper along line Y.
The following clauses define various aspects of the invention.
Clause 1, a cleaning device for cleaning a surface of a target device in a motor vehicle, the cleaning device comprising:
-a cleaning structure arranged to at least partially surround the surface of the target device and carrying at least nozzles and at least wipers;
-at least st wiper drive actuators, the th wiper drive actuator moving the cleaning structure from position to a second position or from the second position to the th position along line X ;
-at least second wiper drive actuators operable to move the cleaning structure along a second line Y from a position to a second position or from the second position to the position;
wherein the second position is a position extending steps further along at least of the th line X or the second line Y than the th position, and
wherein the th wiper drive actuator and the second wiper drive actuator are linked to each other such that, in use, the cleaning structure is driven along the th line X such that the wiper contacts at least portions of the surface of the target device to be cleaned and the cleaning structure is driven along the second line Y by the second wiper drive actuator such that the wiper wipes the portions of the surface of the target device.
Clause 2, the cleaning device defined in clause 1, wherein the th wiper drive actuator is telescopically operable to move the cleaning structure.
Clause 3, the cleaning device defined in accordance with clause 1 or 2, wherein the second wiper drive actuator is telescopically operable to move the cleaning structure.
Clause 4, the cleaning device defined in accordance with clause of the preceding clause, wherein at least of the th wiper drive actuator and the second wiper drive actuator is operable by cleaning fluid.
Clause 5, the cleaning device defined in accordance with clause of the preceding clause, wherein the second line Y is oblique to the line X.
Clause 6, the cleaning device defined in clause 5, wherein the second line Y is inclined at about 90 ° relative to the th line X.
Clause 7, the cleaning device defined by clause of the preceding clause, wherein the cleaning device is configured to:
-spraying a cleaning fluid from the nozzle towards the
-driving the cleaning structure along the X line by the wiper drive actuator until the surface (210) of the target device comes into contact with the wiper, and
-driving the cleaning structure along the second line Y by the second wiper driving actuator with the wiper contacting the surface of the target device.
Clause 8, the cleaning device defined in accordance with clause of the preceding clause, wherein the cleaning structure comprises a ring assembly defined by at least two half-ring elements connected to each other by the wiper drive actuator, the wiper drive actuator for driving the half-ring elements along the line X from the position to the second position or from the second position to the position.
Clause 9, the cleaning device defined by clause of the preceding clause, wherein the wiper is formed from a plurality of portions.
Clause 10, the cleaning device defined in accordance with clause of the preceding clause, wherein the cleaning device further comprises respective spring mechanisms for biasing the wiper drive actuator and the second wiper drive actuator along the st line X and the second line Y, respectively.
Clause 11, the cleaning device defined in clause 10, wherein the spring mechanisms have different spring rates from each other such that the wiper is driven by the th wiper-driving actuator and the second wiper-driving actuator from the th position to the second position at different times along the th line X or the second line Y.
Clause 12, the cleaning device defined in accordance with clause of the preceding clause, wherein the nozzle is configured to eject cleaning fluid only when at least of the th wiper drive actuator and the second wiper drive actuator has extended a determined length.
Clause 13, a cleaning device for cleaning a surface of a target device in a motor vehicle, the cleaning device comprising:
-at least nozzles for spraying cleaning fluid onto at least portions of the surface of the target device;
-at least wipers for wiping the surface of the target device;
-at least th wiper drive actuator, the th wiper drive actuator operable to move the wiper from th position to second position or from the second position to the th position along line X ;
-at least second wiper drive actuators operable by the cleaning fluid to move the wiper along a second line Y from a position to a second position or from the second position to the position;
wherein the th wiper drive actuator is driven by the second wiper drive actuator to move along the second line Y, and
wherein the second position is a position extending steps further along at least of the th line X or the second line Y than the th position, and
wherein the th wiper drive actuator and the second wiper drive actuator are fluidically and mechanically linked to each other such that, in use, the wiper is driven along the th line X such that it contacts at least portions of the surface of the target device to be cleaned, and the wiper is driven along the second line Y by the second wiper drive actuator such that it wipes the portions of the surface of the target device.
Clause 14, the cleaning device defined in clause 13, wherein the second line Y is oblique to the th line X.
Clause 15, the cleaning device defined in clause 14, wherein the second line Y is inclined at about 90 ° relative to the th line X.
Clause 16, the cleaning device defined by clause of clauses 13-15, wherein the cleaning device is configured to:
-driving the wiper along the line X by the wiper drive actuator until the surface of the target device is in contact with the wiper;
-spraying a cleaning fluid from the nozzle towards the surface of the target device to be cleaned; and
-driving the
Clause 17, the cleaning device defined by clause of clauses 13-16, wherein the wiper is formed from a plurality of portions.
Clause 18, the cleaning device defined by clause of clauses 10-14, wherein the cleaning device further comprises respective spring mechanisms for biasing the wiper drive actuator and the second wiper drive actuator along the line X and the second line Y, respectively.
Clause 19, the cleaning device defined in clause 18, wherein the spring mechanisms have different spring rates from each other such that the wiper is driven by the th wiper-driving actuator and the second wiper-driving actuator from the th position to the second position at different times along the th line X or the second line Y.
Clause 20, the cleaning device defined in accordance with clause of clauses 13-19, wherein the nozzle is configured to eject cleaning fluid only when at least of the th wiper drive actuator and the second wiper drive actuator has extended a determined length.
Clause 21, the cleaning device defined by clause of the preceding clause, wherein the second wiper drive actuator is designed to move the wiper in a direction substantially perpendicular to the surface of the target device.
Clause 22, the cleaning device defined by clause of the preceding clause, wherein the th wiper drive actuator and the second wiper drive actuator are mechanically linked to each other.
Clause 23, the cleaning device defined in accordance with clause of the preceding clause, wherein the th wiper drive actuator and the second wiper drive actuator are fluidly linked to each other.
Clause 24, the cleaning device defined by clause of the preceding clause, wherein at least nozzles are fluidly linked with at least of the wiper drive actuators.
Clause 25, a method for cleaning a surface of a target device mounted on a vehicle, the method comprising the steps of:
-providing a cleaning device as defined in any of the preceding clauses ;
-driving the wiper along line X towards the surface of the target device to be cleaned by means of the th wiper drive actuator;
-spraying a cleaning fluid from a nozzle towards a
-driving the wiper along the second line Y by the second wiper driving actuator with the wiper contacting the surface of the target device.
Clause 26, the method defined in accordance with clause 25, wherein the cleaning device comprises a cleaning structure at least partially surrounding the surface of the target device and carrying at least wipers, and wherein
The step of driving the wiper along line X is performed by the wiper drive actuator driving the cleaning structure from the second position to a third position along line X , and wherein
The step of driving a wiper along a second line Y is performed by the second wiper drive actuator driving the cleaning structure from the second position to a third position with the wiper contacting the surface of the target device.
Clause 27, the method defined in accordance with clause 25 or 26, wherein when the wiper is driven into contact with the surface of the target device, ejection of cleaning fluid from the nozzle is prevented.
Clause 28, the method defined by clause of clauses 25-27, wherein the step of driving the wiper along line X is performed simultaneously with the step of driving the wiper along line Y.
The combination of a driven wiper that cleans and dries at least portions of a surface of a target device in a motor vehicle sensor by friction (i.e., in conjunction with wiping the surface with a cleaning fluid ) has been found to provide some important advantages the dirt, dust, and debris on the surface of the target device (especially from hard-to-clean sensors) is effectively removed and dried due to the effective cleaning fluid action combined with the wiper action eliminating problems caused by electrical components such as the motor and other associated components and the fluid flowing in the assembly (such as the cleaning fluid used to clean the target device in prior art devices).
Other objects, advantages and features of the present examples of cleaning devices and methods of cleaning a surface of a target device will become apparent to those skilled in the art upon examination of the specification or may be learned by the practice thereof.
Drawings
Two particular examples of the present cleaning device are described below, by way of non-limiting example, with reference to the accompanying drawings, in which:
FIG. 1 is a front view corresponding to an th example of radial approach movement of a wiper in the present cleaning device;
FIG. 2 is a perspective view of an th example shown in FIG. 1;
FIG. 3 is a perspective view of an th example shown in FIGS. 1 and 2, with the cleaning structure in a lowermost position;
FIG. 4 is a perspective view of an th example shown in FIGS. 1-3, wherein the target device is not shown for clarity;
FIG. 5a is a top plan view of a cleaning structure corresponding to the th example of FIGS. 1-4, shown in a position such that the wiper is disposed away from a surface of the target device;
FIG. 5b is a top plan view of a cleaning structure corresponding to the th example of FIGS. 1-4, shown in a position such that the wiper is disposed in contact with a surface of a target device;
FIG. 5c is an enlarged partial top plan view of the cleaning structure of FIG. 5 a;
FIG. 5d is an enlarged partial top plan view of the cleaning structure of FIG. 5 b;
FIG. 6 is a side view corresponding to a second example of linear proximity movement of a wiper in the present cleaning device; and
fig. 7 and 8 are perspective views of the second example shown in fig. 6, showing the wiper drive actuator in different positions.
Detailed Description
Fig. 1 to 8 of the accompanying drawings show two different examples of a
The
Referring now to the example of radial approach movement of the wipers shown in fig. 1-5 a-5 d in which the
The
The
Typically, the second position extends telescopically steps along at least of line X or line Y than the position in other words, the length that the
In the illustrated embodiment, it may be preferred that the th
In this example, an th
A nozzle or
As described above, compression springs (not shown) are provided for biasing the
The mode of operation in this example of the
Referring now to the example of linear proximity movement of the wipers shown in fig. 6-8, the
As in the th example, in this second example, the th
the
The
As in the th example, a cleaning structure is provided, in this case defined by the
In this second example of the
Specifically, the th
More specifically, the
Thus, the length that the
In this second example of the
A nozzle or
A compression spring, not shown, is provided to bias the th and second
The mode of operation in this linear wiper approach example of the
the spring action of the spring (not shown) causes the
The
The movement of the wiper through the wiper drive actuator and the second wiper drive actuator allows the wiper to avoid contact or collision with components of the motor vehicle, while the
In examples, it may be preferred that the spring mechanisms have different spring rates from each other so that the
Although only a number of specific examples of the present cleaning device are disclosed herein, it will be appreciated by those skilled in the art that other alternative examples and/or uses and obvious modifications and equivalents thereof are possible.
For example, although ejection of the cleaning fluid from the
Accordingly, this disclosure encompasses all possible combinations of the specific examples that have been described herein.
Any reference signs placed between parentheses in the claims and associated with the drawings are intended for increasing the intelligibility of the claims and shall not be construed as limiting the scope of the claims.
Accordingly, the scope of the present disclosure should not be limited by particular examples, but should be determined only by a fair reading of the claims that follow.
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