This invention is in the field of electrical motors and in particular a motor that causes a rotation and/or a linear reciprocating movement for use in a variety of applications as is detailed herein.
There are many kinds of electrical motors that perform a multitude of functions. There is a lack in known art of a compact hand-held electrical motor that can either rotate or reciprocate (that is oscillate) according to the choice of head attachment. Such a machine could have a multitude of functions by simply exchanging the operating head. For 15 example, such a machine could be used to clean utensils, be used as a vibrator, be used as a mixer, blender or chopper, and make whipped milk.
One application of the offered invention relates to a “plug and clean” apparatus for cleaning various kitchen utensils 20 which can not be properly cleaned neither manually nor in conventional dish washer and require additional cleaning by mechanical means.
There are known devices in the art which enable mechanical cleaning of utensils for example pot washer as per U.S. Pat. No. 5,450,646 to McHugh. In this apparatus there is arranged an electrically rotating brush. However this apparatus is unsuitable to clean narrow or small places which can be difficult to each like a pot's handle or a pan's handle and the like. The reason for this is that the known pot washers enable only rotation movement of the brush attachment. The construction of this washer is designed in such a manner that only a brush attachment of a certain kind can be used therewith.
The object of the present invention is to overcome or at least reduce the shortcoming of prior art cleaning devices. In the particular the main object of the present invention is to provide a cleaning device which can be used to rub, polish, brush kitchen utensils that known dish washer or pot washer cannot.
The “plug and clean” apparatus in accordance with the present invention is suitable for easy use and enables fast cleaning, time and expenses savings (hot water, powder 15 soap).
It is to be understood that both the foregoing general description and the following detailed description present embodiments of the invention and are intended to provide an overview or framework for understanding the nature and character of the invention as it is claimed. The accompanying drawings are included to provide a further understanding of the invention and are incorporated into and constitute a part of this specification. The drawings illustrate various embodiments of the invention and, together with the description, serve to explain the principles and operations of the invention but the not to limit the 5 invention to these descriptions only.
One of the invention's purposes is to offer an apparatus for effectively cleaning kitchen utensils by virtue of rotary movement or linear sliding movement of the cleaning heads.
A second purpose is to obtain efficient cleaning by a simple compact and cheap apparatus.
Third purpose is to allow fast and simple replacement of cleaning heads depending on necessary task i.e. either for rotary motion or linear reciprocating motion.
The invention enables in addition to the head movement 15 effected by a motor to apply also manual movement and thus to increase the efficiency of cleaning either in dry brushing or wet cleaning of soaped utensils.
Ready interchangeable means attached directly to rotary disk or reciprocating surface of the head can be made of different materials like “Scotch”™ or others.
The cleaning apparatus in accordance with the present invention can be operated without electric power, for example, cleaning unreachable corners, pan's or pot's handles or a narrow space in kitchen appliances. Its length and shape fits these needs. The apparatus can be used to scrape whitewash or paint signs from pavements, walls or other home utensils. The apparatus is compact, it does not require much space and is economical in cost to manufacture and operate.
Another application of the present invention relates to the preparing of whipped milk. The present well known method of processing milk foam is based on the heating of the milk using hot steam—this process is controlled manually and the quality of the milk foam is very much affected by the proficiency of the user (coffee maker in most cases). This process requires a specific combination of adequate heating 10 process and specialized usage of the steam.
The new proposed process will allow a high quality of milk foam making, even manually in a very simple procedure and a comparable consumption of energy.
The Milk Whipped System will implement the new process 15 in a very efficient and fast way, allowing all the mentioned advantages with the convenience of an automatic comprehensive process which will provide the user a high quality of milk cream on a “one finger touch” by a full automated process.
An additional application of the present invention is for kitchen use (mixer, blender, chopper . . . ). A Portable Kitchen Utensils for preparing food for a low price. An additional interchangeable head equipped with a rotary blade or with a rotary disk, will allow slicing or shredding or chopping\mixing.
A further application could be a vibrator that is based on a reciprocating and rotating movement.
An object of this invention is to change the motion of the machine of this invention by exchanging the head portion.
Another object of this invention is to change the movement of the machine from circular to linear reciprocation by exchanging the head portion.
Another object of this invention is to have a motor powered hand-held machine to perform a multitude of functions.
Another object of this invention is that the machine be housed in apparatus that stands on a work surface.
Another object of this invention is to facilitate cleaning vessels.
Another object of this invention is to mix, blend and chop food.
Another object of this invention is make whipped milk or whipped cream.
The basic two functions of the machine of this invention are to cause a rotary function and reciprocating (an oscillating) function. One of the innovations of the machine is to change 20 from rotary movement to reciprocating movement by changing the functionary head portion. The motor causes a turning movement in all applications and functions. The nature of the mechanism in the operating head causes the movement of the operating head to rotate or reciprocate or reciprocate while rotating.
There are two embodiments for the rotary movements and two embodiments for reciprocating movements and one embodiment for reciprocating movement while rotating.
In another embodiment of this invention milk can be turned into whipped milk or whipped cream. There is a semi-automatic embodiment and an automatic embodiment. The semi-automatic embodiment uses a whipping head attached to the motor and a linear movement while rotating is created. At a stage in the process the milk is heated which is effected manually and externally from the machine of this invention. The automatic embodiment is a free standing machine with a program and microprocessor, a heating element and temperature sensors in addition to the basic machine of this invention. This embodiment produces the end product by whipping and heating and further whipping of the milk according to series of actions controlled by the said program. This series of actions could be automatic upon switching on the machine.
The accompanying drawings, which are incorporated in and form a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain by way of example only, the principles of the invention:
a and 3b show respectively the main portion with mounted thereon cleaning head in its forward most and rearmost position.
a and 6b show respectively an enlarged view in cross section of a portion of the apparatus shown in
a-7c show another embodiment of this invention where the oscillation motion is caused by a two-way 25 threaded screw and the rotating movement is achieved by a screw connection to the motor shaft.
As will be appreciated the present invention is capable of other and different embodiments than those discussed above and described in more detail below, and its several details are capable of modifications in various aspects, all without departing from the spirit of the invention.
Accordingly, the drawings and description of the embodiments set forth below are to be regarded as illustrative in nature and not restrictive.
The motor residing in housing 3 is operated from an internal source or an external one. An on/off knob 5 is supplied for controlling electrical power to the motor
The spiral surface 10 cooperates with pin 15 (
a and 3b show the main portion 1 with the interchangeable head 2 with oscillating shaft 12 connected for lateral insertion and retention.
a shows the position of the shaft 12 as it is pushed to its extremity in a forward direction the pin 15 being pushed by the spiral transmission 7 as the transmission 7 turns. In this position the spring 16 is compressed.
b shows the position of the shaft 12 is in its extreme back position as the spiral transmission 7 continues to turn and the pin 15 is no longer pushed by the transmission 7. The spring 165 is free to expand and push the pin 15 and shaft 12 to a rear most position. As the transmission 7 continues to turn, the above movement is repeated many times a minute thereby creating the reciprocating effect to shaft 12 and all that is attached thereto.
Interchangeable head 2 includes in its forward part a sleeve portion
A sliding shaft is provided with adjusting means
The reciprocating motion thereof can be adjusted via pin 15. Transmission 7 could be made of hardened steel and is used for coupling motor's shaft to both interchangeable heads and for submitting to them either the reciprocating linear motion or rotating motion.
The transmission 7 can push the sliding shaft 12 forward and backward within the sleeve against a retaining spring 16 bearing against a stop in head's housing.
The forward most portion
The connection of the main portion 1 with interchangeable 20 head 2 causes the pin 15 to touch coupling's spiral surface 10, so translating rotary movement to linear sliding. The linear reciprocating sliding displacement is caused due to retaining spring 16 which forces sliding shaft 12 back.
a shows the sliding shaft at its forward position and
The given description leads to the understanding that adjusting means 14 attached to the sliding shaft 12 can be adjusted via a screw in order to establish the sliding amplitude of the forward part of sliding shaft equipped with rough pad 18.
Disposable cleaning roughened attachments 23 is adhered to the disk.
The rotating shaft 11 is centrally mounted with respect to longitudinal axis of the head 25 by virtue of an internal driven cup
a and 6b show a sectional view of the transmission 7 cooperating with a plane 27 for transmitting torque via pin 26 to the driven cup 24 which in turn transmits torque to rotary shaft
Above description emphasizes that to main portion 1 can be attached various working heads either for linear or rotary motion-causing a significant improvement to for example cleaning work.
By virtue of the above design the apparatus is efficient, compact, easy in use and cheap. Disposable working 20 attachment pads like “scotch” can be attached to rough surface via glued paper on its back or held with Velcro fitted both to working heads and cleaning device.
This arrangement causes fast and easy replacement of worn working pads for effective cleaning work.
The transmission means are based on a left and right screw component 30 of predetermined width and length according to the reciprocating amplitude and mechanical moment on the motor's shaft. A leaf or rider 32 is located on the screw 30 (that is fastened to the motor 33 between the screw 30 and the cylindrical transmission 34 causing the transformation of rotary motion of the motor's shaft to linear reciprocating motion of the cylindrical transmission. The reciprocating movement happens when the cylindrical transmission 34 is prevented from rotating while moving along a predetermined path inside the housing 36. In order to achieve the reciprocating movement, the cylindrical transmission 34 is directed within the housing by a length of protrusion 35 that reciprocates within the inner part of the housing 36 while preventing the rotary motion of the cylindrical transmission 34. The protrusion 35 sits in a matching groove on the inside of housing 36.
The leaf or rider 32 could move from one end (start point) of the screw 30 to the opposite end (end point). The leaf or rider's 32 change of direction is caused by the inverting 20 direction (from left handed to right handed screw or from right ended to left handed screw at the opposite side), so causing the oscillating motion of the cylinder transmission 34 moving inside the housing 36.
The rotating and reciprocating heads are seen in pictures 7b and 7c respectively.
In
In
The working reciprocating shaft
Attaching simultaneously two shafts, one to the screw 30 and the second to the cylindrical transmission causes simultaneously rotating and oscillating movements of the shafts. The electrical cord 41 could be attached to a battery source or to an isolated transformer connected to line.
When the motor is switched on the holed plate 64 would moving up and down in pre-heated milk and that motion would create whipped milk. There could also be a rotational motion in addition to the reciprocating motion.
The milk could be heated again to produce a higher quality 5 milk foam product.
The operation switch 73 would be the on/off control. The power could be provided from an A/C power source via cable 74. The motor could be housed in motor housing 75. The double screw could be in the screw housing 76 causing the shaft 77 to move up and down. The shaft 77 could also spin on its own axis.
At the distal end of the shaft 77 are the perforated plates 78 that help to produce the whipped milk or cream when moved up and down in milk. The container 80 could be slightly larger in diameter than the plates 78 so that milk would not escape easily between the plates 78 and the inside edge of the container 80. The container could have as its base an electrical heater 79 to heat the milk at the required stages in the whip making process. There could be a thermostat connection between the milk and the control unit. The temperature reading could be shown on a display 82. The timing of the heating process and the whipping process could be controlled and operated from the control unit operating panel 84.