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The present invention relates to clothes washing machines and the like, and specifically, to a lid locking mechanism that may optionally include a magnetic lid sensor.
The spin cycle of a washing machine removes water centrifugally from wet clothes by spinning the clothes at high speed in a spin basket. In order to reduce the possibility of injury to the user during the spin cycle, it is known to use an electronically actuated lock for holding the washing machine lid in the closed position. U.S. Pat. Nos. 6,363,755; 5,823,017; and 5,520,424, assigned to the present assignee and hereby incorporated by reference, describe several locking mechanisms. Desirably, the locking mechanism minimizes projecting parts on the washing machine lid which might snag clothing or reduce access to the spin basket, and is simply integrated into the washing machine housing.
A signal indicating the state of the washing machine lid as opened or closed may be used to “wake” circuitry from a power saving mode, or to coordinate operation of the lid lock by ensuring the lid is closed before the lock in engaged. Such a signal may be provided by a switch communicating with the washing machine lid. Ideally such a switch could not be easily defeated, would operate reliably when used with other washing machine components with normal manufacturing tolerances, and would be resistant to contamination by water and dirt.
The present invention provides a magnetic lid sensor for a washing machine lid supporting a magnet where the sensor includes a sensor housing mountable on the washing machine and a magnet sensor element held within the sensor housing displaced from a point of rest of the magnet when the washing machine lid is closed. At least one ferromagnetic flux director is held by the sensor housing having a first end near the point of rest of the magnet and having a second end near the magnet sensor to conduct flux there between.
Thus it is one object of the invention to provide a practical magnetic lid sensor for a washing machine. Magnetic flux directors allow the magnet sensor to be positioned in a protected position within the housing and still receive sufficient variation in magnetic flux to switch reliably and predictably with lid opening.
The magnet sensor may be a reed switch, the sensor housing may be non-magnetic and two ferromagnetic flux directors may be used to conduct the magnet flux in a loop between the magnet sensor and the magnet.
Thus it is another object of the invention to conduct sufficient magnetic flux to reliably activate a low cost magnet sensor.
The invention also provides a lid lock assembly which includes a cap sized to cover a mounting hole in the housing of a washing machine near a point of rest of the washing machine lid when the washing machine lid is closed. The cap may include at least one downwardly extending threaded hole. A housing of the lid lock may be located below the hole in the housing of the washing machine and may have a hole receiving an upwardly extending screw. The screw engages the downwardly extending threaded hole of the cap to hold the washing machine housing between an upper surface of the lock housing and a lower surface of the cap. The mounting hole is near the pivot point of a hook that may be used to lock the lid in the closed position.
Thus it is another object of the invention to provide a simple mounting system for a lid lock. Thus, it is another object of the invention to provide a simple mechanism for supporting a movable bolt that is robust against the force of a person attempting to open the lid.
The cap may include only a single downwardly extending threaded hole and the lock housing may include only a single mounting hole for attaching the lock housing to the washing machine.
It is thus another object of the invention to provide a lid lock that may be attached to the housing with a single screw. The positioning of the pivot of the hook to minimize torsion on the housing and to transfer forces on the lid to additional compression of the lock housing against the washing machine increases the robustness of this single screw mounting.
The downwardly extending hole in the cap may be blind to present a continuous upper cap surface.
Thus it is another object of the invention to minimize any holes that might accumulate or conduct water and dirt.
The cap may be an elastomeric plastic molded over a non-elastomeric plastic forming the threaded hole.
It is another object of the invention to provide both cushioning bumper and support for the lock housing in one structure. It is another object of the invention to provide a bumper that passes magnetic flux and that covers a hole in the washing machine housing sufficient in size to freely pass magnetic flux.
The present invention also provides generally a lid lock for a washing machine using a hook pivoting about an axis so as to move between a first locked position in which the opening of the closed lid is prevented by interference between the hook and an engagement surface on the lid and a second position in which the closed lid is free to open. An actuator may move the hook between the first position and the second position. A contact interface between the hook and the engagement surface is selected to prevent the force of opening the closed lid from moving the hook to the second position.
Thus it is another object of the invention to provide a locking mechanism with low friction that remains stably in the locked position without the application of a locking force.
The actuator may operate to alternatively move the hook toward and away from the locked position and may, for example, be a bi-directional solenoid.
Thus, it is another object of the invention to provide a lock that may be quickly locked and unlocked through electrical signals and yet does not require continuous consumption of electrical power or manual setting or resetting.
The engagement surface may move along a tangent line with first movement of the closed lid to open and the pivot axis of the hook may lie along a tangent line opposite the direction of movement of the engagement surface.
Thus it is another object of the invention to provide that opening force on the lid result in an upward force to the locking mechanism such as is absorbed against the housing of the washing machine.
The engagement surface in the lid may be an aperture and the hook may engage the aperture.
Thus it is another object of the invention to provide an extremely simple lid locking mechanism that does not require projections that might snag clothing or interfere with access to the spin basket.
The hook may include a central tooth engaging the aperture and flanking shoulders resting against sides of the aperture when the tooth is so engaged.
Thus it is another object of the invention to provide a simple structure for limiting the depth of engagement of the hook with the lid when the lid is in place.
The lock mechanism may include a spring communicating with the hook for urging the hook toward the first position when the hook is proximate to the first position and urging the hook toward the second position when the hook is proximate to the second position. A contact set may communicate with the hook to provide a switch output indicating when the hook is at the first position as distinguished from when the hook is at the second position.
Thus it is another object of the invention to create a bi-stable positioning of the hook such as simplifies determination of the hook state using a contact set and which prevents inadvertent movement of the hook under vibration and the like.
The contact set may provide a closed circuit between a first and second terminal when the hook is in the first position in an open circuit between the first and second terminals when the hook is in the second position.
It is thus another object of the invention to provide certainty in any signal indicating the lid is locked in the presence of possible wiring failure.
The contact set may include a sliding contact moving laterally over a stationary contact and the stationary contact may be positioned next to a cam surface engaging the sliding contact with over travel of the sliding contact to lift the sliding contact transversely away from the stationary contact.
Thus it is another object of the invention to provide a contact set capable of detecting small motions while using large area contacts.
These particular objects and advantages may apply to only some embodiments falling within the claims and thus do not define the scope of the invention.
Referring now to
Referring now to
Referring also to
The tooth portion 28 extends from shoulders 34 which flank the tooth portion 28 and are sized to be larger than the bolt hole 26 so that the shoulders 34 may not pass through the bolt hole 26. When the lid 12 is closed, the shoulders 34 limit the amount that the hook 30 may extend through the bolt hole 26 and thus limit the length of extension of the hook 30 from the vertical wall 32 of the lid well 18. When the lid 12 is open, however, the shoulders 34 may move further in extension as will be described.
Referring also to
Referring now to
These three switch positions (A), (B), and (C) correspond to three positions (A′), (B′), and (C′) of the hook 30. The first hook position (A′) is where the forward tooth portion 28 of the hook 30 remains retracted behind the vertical wall 32 of the lid well 18. The hook 30 may be in this position prior to the hook 30 being actuated or if the hook has been actuated, but was obstructed or jammed, or if the actuator fails. In this position, an open circuit is presented across terminals 56a and 56b.
The second hook position (B′) is where tooth portion 28 of the hook 30 extends through the bolt hole 26 and the shoulders 34 of the hook abut strike plate 24. The hook 30 will be in this position if the lid 12 is closed and the hook 30 is actuated. In this position, the lid 12 is locked and a closed circuit is presented across terminals 56a and 56b.
The third hook position (C′) is where tooth portion 28 and the shoulders 34 of the hook 30 extends past the position normally occupied by the strike plate 24 as may occur if the lid 12 is open at the time of actuation of the hook 30. In this position, an open circuit is presented across terminals 56a and 56b.
Thus, it will be understood that a proper locking of the lid by the hook 30 is indicated by a closed circuit across terminals 56a and 56b, whereas an open circuit across these terminals 56a and 56b, indicates either an obstruction of the hook 30 at the aperture in the vertical wall 32 or failure of the actuator or over-extension indicating that the lid 12 was not closed at the time of locking or an electrical break in the wiring communicating with the terminals 56a and 56b. Any of these latter open circuit conditions suggest that access may be had to the opening 20 leading to the spin basket of the washing machine and may be used to override the spin cycle, stopping it or preventing it from starting.
Referring now to
The carriage 66 supports a horseshoe conductor 70 fitted to the top of the carriage 66 having laterally extending arms that form throws 54a and 54b. The arm forming throw 54a of the horseshoe conductor 70 extends along the lateral axis 68 over throw pads 72a. The arm forming throw 54b of the horseshoe conductor 70 extends along the lateral axis 68 over throw pads 72b-72d.
Throw pad 72a is a conductive metallic plate connected to terminal 56a and extending a distance along the lateral axis 68 sufficient so that it maintains contact with pole 54a for the entire range of motion of the carriage 66. Throw pad 72c is a conductive metallic plate connected to terminal 56b and contacting pole 54b only when the hook 30 is in the second hook position (B). Throw pads 72b and 72d are insulators that support the pole 54b when the hook 30 is in the hook positions (A) and (C), respectively, providing no electrical connection to terminal 56b.
A helical compression spring 80 is girdled at a midpoint along its length by tabs 82 on the under side of the carriage 66. The ends of the helical compression spring 80 are held by retaining posts 83 on opposed inside walls of carriage track 65. The helical compression spring 80 in a relaxed state is longer than the separation of the retaining posts on the inside walls of the carriage track 65 so as to make the carriage 66 bi-stable in positions (A′) and (C′) corresponding to hook positions (A) and (C). Bi-stability means that the carriage 66 tends to move toward position (A′) when the carriage is near position (A′), and that the carriage 66 tends to move toward position (C′) when the carriage is near position (C′). When the carriage is in position (B′), it is also urged toward position (C′).
Accordingly, referring again to
The carriage 66 is attached to an arm 86 extending from a metal slug 88 held within solenoids 90a and 90b. The solenoids 90a and 90b may be alternatively energized through terminals 92 so that when solenoid 90b is energized, the carriage 66 is pushed toward position (A′), and when solenoid 90a is energized, the solenoid is pushed toward position (C′) and hence also (B′).
In this way, the lid 12 may be alternately locked or unlocked by electrical signals through terminals 92. Upon ceasing of the signals through terminals 92, the hook 30 is held in its current state by the bi-stable mechanism of spring 80.
Referring now to
The upper surface 100 of the housing 48 fits against a lower surface 102 of the horizontal ledge 19 of the lid well 18. A hole 104 may be cut in the horizontal ledge 19 to expose on the upper surface 100 the upwardly extending posts 106, the through-hole 108, and the two registration holes 110.
A cap 112 placed on the hole 104 extends partially therethrough to receive the posts 106 within a cavity of the cap 112. Registration pins 116 and a boss 118 extend downwardly from the lower surface of the cap 112 to be received within the registration holes 110 and the through-hole 108 respectively.
The boss 118 has a downwardly open threaded hole 120. A machine screw 122 may be inserted upwardly through the through hole 108 from the bottom of the housing 48 to be received by the threaded hole 120. Tightening of the threaded fastener 122 draws the housing 48 and cap 112 together sandwiching the horizontal ledge 19 there between and fixing the housing 48 to the washing machine 10. Referring also to
The lid 12 of the washing machine 10 may be constructed of a shell of enameled steel having a concave lower surface receiving a plastic liner 124 providing a lower wall to the lid 12. The liner 124 holds a bar magnet 126 on its inner surface where the bar magnet 126 may be shielded from exposure to water and the like. The bar magnet 126 is positioned so that when the lid 12 is closed against the horizontal ledge 19, the bar magnet 126 rests above the cap 112.
Referring to
When the lid 12 is closed, magnetic flux 132 is directed by the flux directors 109 to the reed switch 131 forming a complete magnetic circuit therewith. When the lid 12 is opened, the magnetic flux circuit is broken. The flux directors 109 allow displacement of the reed switch 131 deeper into the housing of the washing machine while still allowing the reed switch 131 to be activated with a magnet of modest size. The flux directors 109 also may serve to concentrate the magnetic flux 132 producing a better defined switching point as the lid is opened.
The reed switch 131 may communicate with conductors 134 that connect with pins added to pins 56 and 92 as have been described to provide a lid closed signal for activation of other circuitry associated with the washing machine.
Referring now to
In addition, the contact interface (occurring between a lower surface of the tooth 28 of the hook 30 and the lower surface of the bolt hole 26) is such as to impart no torque or a slight engaging torque (counterclockwise in
Referring now to
As shown in
Normally separation of the contact surfaces 152 and 156 with over travel would require over travel equal to the length of combined lateral extent of contact surfaces 156 and 152 would be required for full disengagement of the contacts 54 and 72. In order to provide greater precision in detect angular changes in the hook 30 (tied to the contacts 54) a cam surface 160 is located immediately following stationary contact 72 and formed of the material of the housing 48 also supporting stationary contact 72. The cam surface 160 interacts with the ramp portion 154 of the sliding contact 54 moving the contacts 54 and 72 in separation in a transverse direction 162 perpendicular to the lateral sliding direction 159. Thus a slight additional over travel motion completely separates the contacts without the need for them to slide laterally entirely out of engagement.
It is specifically intended that the present invention not be limited to the embodiments and illustrations contained herein, but include modified forms of those embodiments including portions of the embodiments and combinations of elements of different embodiments as come within the scope of the following claims.
This application is divisional application of Ser. No. 10/609,252 filed Jun. 27, 2003 which is a continuation-in-part of U.S. application Ser. No. 10/342,452 filed Jan. 14, 2003.
Number | Date | Country | |
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Parent | 10609252 | Jun 2003 | US |
Child | 11513878 | Aug 2006 | US |
Number | Date | Country | |
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Parent | 10342452 | Jan 2003 | US |
Child | 10609252 | Jun 2003 | US |