CA2576132C - Pivoting handle and control arrangement for a floor care appliance - Google Patents

Abstract

The invention is a pivoting handle and control arrangement for a floor care appliance such as a vacuum cleaner. An actuator rod in the handle is utilized for remotely triggering a switch located in the lower part of the housing. The switch could be utilized for controlling a feature of the floor care appliance such as a surge control for a vacuum cleaner's suction motor. A trigger positioned on the handle is operatively connected to an actuator rod traversing the interior of the handle. The distal end of the actuator rod is in operative engagement with the switch when the handle is in the upright position. When the trigger is depressed, the actuator rod depresses the switch causing it to close. The feature controlled is thereby energized. When the handle is moved to the folded position, the actuator rod is folded with the handle and moved away from the switch.

Description

PIVOTING HANDLE AND CONTROL ARRANGEMENT
FOR A FLOOR CARE APPLIANCE

This is a divisional application of Canadian Patent Application No. 2,469,580 filed June 1, 2004.

FIELD OF THE INVENTION
Generally, the invention relates to controls. Particularly, the invention relates to a pivoting handle and control arrangement for a floor care appliance such as a vacuum cleaner.
BACKGROUND OF THE INVENTION
The use of pivoting handles in floor care appliances such as upright vacuum cleaners is old and well known in the art. An exampie of such an arrangement can be found in Japanese Publication No. 06245889. However, no provision is made in such a pivoting handle arrangement for remotely triggering a switch or other device located in the lower part of the housing. Such a switch could be utilized for controlling a feature of the floor care appliance such as a surge control for a vacuum cleaner's suction motor. The instant invention is a trigger or button positioned on the handle operatively connected to an actuator rod traversing the interior of the handle. The distal end of the actuator rod is normally in operative engagement with a-switch in the lower housing when the handle is in the upright position. When the trigger is depressed, the actuator rod depresses the switch causing itto close thereby energizing an associated feature. When the handle is moved to the folded position, the actuator rod is folded with the handle and moved away from the switch. These and other objectives will be readily apparentfrom the following description taken in conjunction with the accompanying drawings.

SUMMARY OF THE INVENTION
In carrying outthe invention in one aspect thereof, these objectives and advantages are obtained by providing a machine including a floor care appliance having a pivoting handle and control arrangement. In the preferred embodiment of the present invention, an actuator rod in the handle is utilized for remotely triggering a switch located in the lower part of the housing. The switch could be utilized for controlling a feature of the floor care appliance such as a surge control for a vacuum cleaner's suction motor. A
button ortrigger positioned on the handle is operatively connected to an actuator rod traversing the interior of the handle. The distal end of the actuator rod is in operative engagement with the switch when the handle is in the upright position. When the button or trigger is depressed, the actuator rod depresses the switch causing it to close. The feature controlled is thereby energized. When released, the switch is opened. When the handle is moved to the folded position, the actuator rod is folded with the handle and moved away from the switch.

In accordance with another aspect of the invention, there is provided a pivoting handle and control arrangement for a machine, comprising: a pivoting handle connected to a housing; an actuator rod passing through the pivoting handle; and a control device located in the housing for controlling one or more features of the machine; wherein said actuator rod is in operative engagement with said control device when said handle is in an upright position and said actuator rod is disengaged from said control device when said handle is in a folded position.

In accordance with another aspect of the invention, there is provided a pivoting handle and control arrangement for a floor care appliance, comprising: a pivoting handle having an upper section and a lower section;
an actuator rod passing through the upper section; and a control device located in the lower section for controlling one or more features of the machine; wherein said actuator rod is in operative engagement with said control device when said pivoting handle is in an upright position and said actuator rod is disengaged from said control device when said pivoting handle is in a folded position.

In accordance with another aspect of the invention, there is provided a pivoting handle and control arrangement for a vacuum cleaner, comprising: a pivoting handle having an upper section and a lower section; an actuator rod passing through the upper section having a button at one end; and a switch located in the lower section which is pushed by said actuator rod when said button is pressed.

BRIEF DESCRIPTION OF DRAWINGS

Embodiments of the invention, illustrative of several modes in which applicants have contemplated applying the principles are set forth by way of example in the following description and are shown in the drawings and are particularly and distinctly pointed out and set forth in the appended claims.

FIG. 1 is a perspective view of a vacuum cleaner which includes the present invention;

FIG. 2 is the vacuum cleaner of FIG. 1 with a partial cutaway portion of the housing and a partial cutaway view of the handle in the upright position;

FIG. 3 is the vacuum cleaner of FIG. 1 with a partial cutaway portion of the housing and a partial cutaway view of the handle in the folded position; and FIG. 4 is an electrical schematic of the multi-speed power and control circuit for the suction motor for a vacuum cleaner incorporating a switch for surging the suction motor, according to the preferred embodiment of the present invention.

-2a-DESCRIPTION OF THE PREFERRED EMBODIMENT

A vacuum cleaner incorporating the present is shown in Fig. 1 and is indicated generally at 10, according to the preferred embodiment of the present invention.
Vacuum cleaner 10 includes a vacuum cleaner foot 100 and a vacuum cleaner housing 200 connected to the vacuum cleaner foot 100. The foot 100 is formed with a bottom nozzle opening (not shown) which opens towards a floor surface. A
handle 250 is pivotally connected to a housing 200 by a hinge assembly 210. In the preferred embodiment, the vacuum cleaner is similar to the indirect air bagless vacuum cleaner disclosed in Canadian Patent Application No. 2,464,549 owned by a common assignee. In an alternate embodiment of the invention, the vacuum cleaner may be a direct air vacuum cleaner or any other type of floor care appliance utilizing suction. The vacuum cleaner 100 is of the type having an agitator (not -2b-shown) and positioned within an agitator chamber (not shown) formed in an agitator housing which is part offoot 100. The agitator chamber (not shown) communicates with the nozzle opening (not shown) and the agitator (not shown) rotates about a horizontal axis inside the agitator chamber (not shown) for loosening dirt from the floor surface. The loosened dirt is drawn into a suction duct located behind and fluidly connected to agitator chamber (not shown) by a suction airstream generated by a motor-fan assembly (not shown). The suction duct (not shown) directs the loosened dirtto a dirt particle filtration and collecting system positioned in housing 200.
In the preferred embodiment of the invention, a button or trigger 255 is located at the upper end of a handle portion 250. Trigger 255 is connected to an actuator rod 256 traversing the interiorof handle 250. When handle 250 is in the upright position, as shown in FIG. 1, the lower end 259 (FIG. 2) is proximate to the plunger on a control device 270 located in housing 200. In the preferred embodiment of the invention, control device 270 is an electrical switch used to control a surge feature of a suction motor (not shown).
Referring nowto FIG. 2, more detail of the actuator rod 256 traversing the interior 252 of handle 250 is shown. Atthe upperend of handle 250 is a handgrip 251 and trigger 255. Trigger 255 is directly connected to actuator rod 256. Located on the lower portion of actuator rod 256 is a stop 253 for biasing actuator rod 256 upward against a lip or ridge 257 formed in the interior of handle 250. A spring 258 is located therebetween which biases actuator rod 256 in the upward direction. When handle 250 is in the upright position, as shown in FIG. 2, the lower end 259 of actuator rod 256 is in the proximate area of control device 270 but not engaging plunger 271 of control device 270. When trigger 255 is depressed, as when it is desired to activate a feature such as a surge of the suction motor (not shown), the lower end 259 of actuator rod 256 forces plunger 271 of control device 270 downward and the feature is activated. In the preferred embodiment of the invention, control device 270 is an electrical switch which is closed when trigger 255 is depressed. When trigger 255 is released, actuator rod is forced upward by spring 258 and the lower end 259 of actuator rod 256 releases plunger271 of control device 270 and the feature is deactivated. In an alternate embodiment of the invention, the lower end 259 of actuator rod 256 protrudes through the outer ring of the trunnion connecting the handle 250 to the lower housing 200. The control device 270 is also embedded in the outer ring of the trunnion but in the lower half such that when the handle is in the upright position the lower end of the actuator rod is in the proximal area of the plunger of the control device.
This allows actuator rod 256 to engage plunger271 when trigger255 is depressed. This allows all components of the arrangement to be enclosed within the handle 250 and the trunnion. The arrangement also allows the handle 250 to be folded into the folded position while removing the lower end 259 of the actuator rod 256 from the proximal area of the plunger 271 of the control device 270.
Referring nowto FIG. 3, handle 250 is shown in the folded position. It is desirable to fold handle 255 in certain instances such as fortransport and storage. When handle 255 is in the folded position, the lower end 259 of actuator rod 256 is removed from the proximate area of control device 270 such that plunger 271 cannot be depressed.
Referring nowto FIG. 4, shown is an electrical schematic of the multi-speed power and control circuit 400 for the suction motor M1 for a vacuum cleaner incorporating a switch for surging the suction motor M1. The circuit 400 is connected to a conventional 120 vac 60 Hz power source wherein the positive side P2 of the current source P is connected to a terminal C1 of a DPDT switch SW 1 and the neutral side P1 is connected to a terminal T5 on the neutral side of the suction motor M 1. The DPDT switch SW 1 has a center off position, a low speed position, and a high speed position. The control circuit 400 controls the speed of the suction motor M 1 by controlling the average voltage applied to the suction motor Ml based upon the switch setting. The average voltage applied to the suction motor M1 is controlled by turning on the current to the suction motor Ml for a discrete amount of time during both the positive and negative portions of the ac cycle. The discrete amount of time the current is turned on during the positive and negative portions of the ac cycle is determined by the position of the switch SW 1, a resistor R4 and an R-C
network described more fully hereinbelow.
In the high speed position, switch SW 1 connects P2 to T10 through T3 to turn the current on to the suction motor M 1. T10 is connected to a resistor R1 which is connected to a capacitor C1 and a diac D1. During the positive portion of the ac cycle, current will not flow through diac D1 until the voltage applied to it exceeds 30 volts. The time necessary to charge C 1 creates a time delay from the time switch SW 1 is moved from the off position to the high speed position before current begins to flow through diac D1. The output side of diac D 1 is connected to the trigger side of a triac TR1 which controls the flow of current from the current source to the suction motor MI. Resistor R1 reduces the voltage applied to C1 and diac D1 otherwise capacitor Cl would charge too quickly and there would only be a negligible time delay before diac Dl opens and triac TR1 turns the current on to suction motor M1. The current flows from P2 via C1 to C2 via a jumper J1 which makes contact with T4. T4 is connected to T9 on one side of triac TR1.
Once closed, triac TR1 allows current to flow to T8 which is connected to T6 on suction motor M1. A resistor R3 and capacitor C2 are placed in parallel with triac TRI to smooth any fluctuations in the operation of triac TR1. The capacitor C1 follows the sine wave once the voltage across it reaches 30 volts and 30 volts are applied to diac D1 causing it to conduct. The built in delay in the currentflowing through diac Dl because of resistor R1 and capacitor C1 causes triac TR1 to turn the current on to the suction motor M 1 for only a portion of the ac cycle thereby reducing the average voltage applied to suction motor M1.
The current to the suction motor M 1 remains on until the voltage applied to the trigger side of triac TR1 again reaches 0 volts. This occurs when positive portion of the ac cycle hits the zero voltage threshold. In the preferred embodiment of the invention, R1=18 k ohm, R2 = 10 ohrims, R3 = 3.3 k ohms, R4 = 12 k ohms, Cl = 0.33 micro farads, C2 = 0.1 microfarads, Dl is a HT-32A diac, and TR1 is a BTA16-600BW triac.
During the negative portion of the ac cycle, current will not flowthrough diac D1 until the voltage applied to it falls below -30 volts. Due to the direction of the current being reversed, the poles of capacitor C1 are charged oppositely than during the positive portion of the ac cycle. Like during the positive portion of the ac cycle, the time necessary to charge C1 creates a time delay from the time switch SW 1 is moved from the off position to the high speed position before current begins to flow through diac Dl. Once the voltage across capacitor Cl reaches -30 volts, current is free to flow through diac Dl and a -30 volts is applied to the trigger side of triac TR1. Upon the application of the -30 volts to its trigger side, TR1 will turn the current on to the suction motor fVl1 and the trigger side follows the original sine wave. The current will remain on until the trigger side again reaches 0 volts. The built in delay in the currentflowing through diac D1 because of resistor R1 and capacitor Cl causes triac TR1 to turn the current on to the suction motor Ml for only a portion of the ac cycle thereby reducing the average voltage applied to suction motor Ml.

The currentflows from P2 via C1 to C2 via a jumperJ1 which makes contactwith T4. T4 is connected to T9 on one side of triac TR1. Once closed, triac TR1 allows current to flow to T8 which is connected to T6 on suction motor Ml. The current to the suction motor M 1 remains on until the voltage applied to the trigger side of triac TR1 reaches 0 volts. This occurs when negative portion of the ac cycle hits the zero voltage threshold.
When switch SW 1 is in the low speed position, the circuit works similarly except that P2 is connected via Cl to T1. TI is connected to T3 via a resistor R4 which creates a voltage drop before P2 is connected to T10. This increases the amount of time Cl requires to charge and creates a largertime delay before the voltage applied to diac Dl exceeds 30 volts during the positive portion of the ac cycle, and a largertime delay before the voltage applied to diac Dl reaches below -30 volts during the negative portion of the ac cycle. Of course, diac Dl will not conduct current until the voltage applied thereto is at or exceeds 30 volts or is at orfalls below -30 volts and cause triac TR1 to turn the current on to the suction motor M1. Since TR1 turns the current on for shorter periods of time during each of the postive and negative portions of the ac cycle, the average voltage applied to the suction motor M1 is reduced resulting in a slower speed. The currentflows from P2 via C1 to C2 via a jumper J 1 which makes contact with T2. T2 is connected to T4 which is connected to T9 on one side of triac TR1. Once closed, triac TR1 allows current to flow to T8 which is connected to T6 on suction motor Ml.
Additionally, the control circuit is equipped with a surge switch SW2 which essentially bypasses the entire R-C network and applies the full 120 vac current to suction motor M 1. Switch SW2 turns the current on to the suction motor M 1 when closed only when switch SW 1 is in the high speed or low speed positions. When SW 1 is in the high speed position, P2 is connected to Cl and C1 is connected to C2 via a jumper JI. C2 is connected to T4 which is connected to T2. T2 is connected to T11. T11 is connected to T12 when SW2 is closed. T12 is then connected to T8 which is connected to T6 on suction motor Ml. Since energy follows the path of least resistance, and there is very little resistance from P2 to T8 when SW2 is closed, the current flows directly to the suction motor M 1 bypassing flowing from T2 orT4 to T9. Similarly, when SW1 is in the low speed position, P2 is connected to Cl and C1 is connected to C2 via a jumper J1. C2 is connected to T2 which is connected to T11. T11 is connected to T12 when SW2 is closed.

T12 is then connected to T8 which is connected to T6 on suction motor M1.
Accordingly, the pivoting handle and control arrangement for a vacuum cleaner is simplified, provides an effective, inexpensive, and efficient device which achieves all of the enumerated objectives. While there has been shown and described herein a single embodiment of the present invention, it should be readily apparent to persons skilled in the art that numerous modifications may be made therein without departing from the true spirit and scope of the invention. Accordingly, it is intended by the appended claims to cover all modifications which come within the spirit and scope of the invention.

Claims

CLAIMS:

1. A pivoting handle and control arrangement for a vacuum cleaner, comprising:

a pivoting handle having an upper section and a lower section;

an actuator rod passing through the upper section having a button at one end; and a switch located in the lower section which is pushed by said actuator rod when said button is pressed.