This application claims priority from United Kingdom Patent Application No. 1414940.5, filed 22 Aug. 2014, the entire disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to an improved mixing tool, and in particular to a mixing tool for thoroughly stirring plaster during plaster preparation.
2. Description of the Related Art
EP2638955A1 describes the mixing of contents of a receptacle using a device comprising at least two arms, wherein the at least two arms may be retracted when in a resting position or may extend radially outwardly when in an operative rotating position. Said device further comprises a corkscrew neck positioned above the at least two arms and a collar positioned above the at least two arms and beneath the corkscrew neck. A means of providing rotation may be provided by a handheld drill or an electric screwdriver. EP2638955A1, however, has two associated problems. Firstly, when mixing the contents of a receptacle, unmixed ingredients such as dry plaster may remain on the surface of the mixture in the receptacle. Secondly, a high speed drill needs to be used in conjunction with the mixing tool. This precludes use of the device by a large proportion of the domestic market which does not possess a high speed drill and which would be unwilling to obtain one for the sole purpose of using it as a component for a mixing tool.
Paddle-type plaster mixers are commonly used in the industry. However, such prior art plaster mixers take a relatively long time to mix the plaster and water and in any case, do not thoroughly do so, leaving unmixed plaster on the sides of the mixing container. They are also very difficult to clean after use if not cleaned immediately.
The present invention overcomes the shortcomings of the prior art.
According to an aspect of the present invention, there is provided apparatus for mixing contents of a receptacle, the apparatus comprising: a rotary shaft equipped at a proximal end with a connection for removable attachment to a means of providing rotation. The rotary shaft has a mixing element fixedly connected at a distal end of said shaft opposite to said proximal end. The mixing element comprises at least two arms at the distal most end of said shaft, a corkscrew neck on said shaft and a collar on said shaft positioned in between said at least two arms and said corkscrew neck. Said at least two arms are configured in a first partially-open resting position and are moveable to a second fully-open operative position and said mixing element further comprises a blade positioned across said shaft more proximally than said corkscrew neck.
A person 101 mixing plaster using mixing apparatus 102 of the prior art is shown in
When mixing plaster, the apparatus of the prior art does not generate a sufficiently strong downwards force during the mixing process, leading to unmixed plaster on the surface of the mix inside the receptacle, and also on the inner circumference of the mixing receptacle.
Shaft 302 has a mixing element 303 comprising at least two arms 304, a corkscrew neck 306 encircling shaft 302 and a collar 305 positioned in between said at least two arms 304 and corkscrew neck 306. Blade 307 is positioned adjacent corkscrew neck 306 and in the illustrated embodiment is affixed at 90 degrees to main shaft 302 of tool 301. The components of mixing tool 301 are fabricated from a heavy nylon, such as a mixture of nylon and urethane. Such a mixture affords characteristics of flexibility and durability and any mixture providing these characteristics would be suitable to be used in the present invention. Tool 301 overcomes the disadvantages of the prior art.
Firstly, tool 301 provides enhanced mixing by ensuring that no unmixed material, for example, dry plaster, remains on the surface of the mixture or around the inner rim of the mixing bucket.
Secondly, tool 301 can be used with a low speed drill (as described further in
Thirdly, tool provides a device which not only gives an enhanced degree of mixing but also mixes in a shorter period of time. As an illustration, using prior art techniques for mixing plaster, for example, a paddle, it takes between approximately five and six minutes to mix a 40 kg container of plaster. In contrast, the present proposal can mix a 40 kg container of plaster in approximately one minute.
Fourthly, tool provides significant time and labour saving advantages in the cleaning of device. Tool can simply be placed in a bucket of water/solvent and the means of providing rotation activated in order to be cleaned. As an illustration, a 60 kg container of plaster can be mixed using tool 301 and then tool cleaned within three minutes and twenty seconds. This is significantly less time than the time taken to only mix (and not clean) a tool of the prior art, such as a paddle. If tools of the prior art, such as a paddle, are left unclean, they may rust. This then leads to problems of contamination of mixes with rust particles and/or dried pieces of plaster falling from the tool into mixes. Furthermore, such prior art tools when left in an unclean state are often hit or tapped against the floor or a wall to remove the dried-on mix. This then leads to damage to the tool such as shattering or fracturing, which then leads to an imbalanced tool and subsequent damage to the mixing bucket.
Collar 502 lies directly adjacent the at least two arms and comprises an angled deep grooved channel around the main shaft. The angle of the channel helps material that is moved upwards to be driven into the channel and then back down again into the container.
Corkscrew neck 503 lies more proximally on the shaft and directly adjacent to collar 502. Corkscrew neck 503 therefore lies in between collar 502 and the blade (not herein shown). Corkscrew neck 503 comprises an anticlockwise spiral and therefore when the drill (not shown) is rotating the shaft in a clockwise direction, any loose material coming up the shaft is driven back down under a vortex. Therefore, anticlockwise spirals are configured in an opposite direction to the way in which the shaft rotates. In the illustrated embodiment, corkscrew neck comprises three complete spirals. However, in alternative embodiments, there may be less than three or more than three spirals.
Since arms 602 only fully open at speeds of approximately 400 revolutions per minute, there is therefore a reduced load on the motor at lower speeds, and this extends the potential lifespan of the motor, such as that in the handheld drill (not shown in
Number | Date | Country | Kind |
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1414940.5 | Aug 2014 | GB | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/GB2015/000247 | 8/21/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/027051 | 2/25/2016 | WO | A |
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