The present invention relates to soldering assemblies and, more particularly, to a temperature indicating soldering assembly.
It is known to use a crafting iron or soldering iron for numerous crafts, such as wood burning, soldering, cutting of plastic, bonding objects with hot melt glue, transferring printed patterns on paper onto another surface, or embossing a pattern into a fabric. These crafting irons or soldering irons are readily available and are generally provided with numerous tips which can be interchanged to accomplish the desired task. However, these crafting or soldering irons, ordinarily have only a single temperature setting. This single temperature setting may not be suitable for all uses. For instance, if the tip is set to a temperature hot enough to burn wood, the tip may be too hot to transfer a printed pattern from paper onto another surface or emboss fabric. Likewise, if the iron is set to a lower temperature for embossing fabric, the iron will likely not be hot enough to burn wood.
Also, the user is normally unaware of the temperature of the heating element. Thus, the user may not know when the tip is hot enough for use or whether the tip is cool enough to touch.
In addition, when using the soldering iron, it can be difficult to hold the workpiece and the soldering iron at the same time. The workpiece can be set on a workbench, but this may not be suitable for certain jobs. The workpiece can also be secured in a vice or other similar holding apparatus. However, this may not be convenient.
Thus, a need remains for a soldering iron that can be adjusted to a plurality of temperature settings. There also remains a need for a soldering iron that can indicate the temperature of the soldering iron to the user. Furthermore, there remains a need for a soldering assembly with a more convenient means of securing a workpiece. These features would be desirable in a soldering assembly while maintaining the low cost of the product.
According to the present invention, a soldering iron is provided which includes a housing and a heating element. The soldering iron also includes a heatable tip that can be heated by the heating element and that extends from the housing. The soldering iron further includes a temperature indicator that is movable between positions depending on the temperature of the heatable tip. Thus, the soldering iron indicates the temperature of the heatable tip to the user.
In another aspect, the present invention is a base that supports the soldering iron. The base includes a support member adapted to support the soldering iron. The base also includes at least one workpiece support member adapted to support a workpiece.
In still another aspect, the present invention provides a soldering iron that includes a housing, a heating element, and a heatable tip. The heatable tip can be heated by the heating element and extends from the housing. The soldering iron also includes a half-wave rectification circuit operable to variably heat the heatable tip to a low temperature setting and a high temperature setting via half-wave rectification.
In a further aspect, the present invention is a soldering assembly that includes a base with a support member and at least one workpiece support member adapted to support a workpiece. The soldering assembly also includes a soldering iron adapted to be removably supported by the support member of the base. The soldering iron includes a heating element, a heatable tip that can be heated by the heating element, and a temperature indicator. The temperature indicator is movable between positions depending upon the temperature of the heatable tip. Thus, the soldering iron indicates the temperature of the heatable tip to a user.
From the following detailed description in conjunction with the accompanying drawings, other objects and advantages of the present teaching will become apparent to those skilled in the art.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the disclosure, its application, or uses.
Turning to the figures, a soldering assembly is generally indicated at 13. The soldering assembly 13 includes a craft or soldering iron, generally indicated at 10 and a base, generally indicated at 12. The base 12 includes a support member 14 to support the soldering iron 10 when it is not in use.
The soldering iron 10 includes a housing 18 with a heating element 20 and a power cord 22, which is adapted to plug into an AC outlet. The heating element 20 includes a heatable tip 23 at one end. The housing 18 is of a clam shell design and substantially encapsulates the heating element 20. The heatable tip 23 extends out from inside the housing 18. When power is supplied to the heating element 20 it becomes heated, which, in turn, heats the tip 23. Once the tip 23 is sufficiently hot, the tip 23 can be used for soldering, embossing, burning wood, bonding, and the like. In one embodiment, the tip 23 is removably attached to the heating element 20 such that the tip 23 can be replaced, depending on the intended use of the soldering iron 10.
The soldering iron 10 also includes a temperature indicator 26 that is movable between positions depending on the temperature of the heatable tip 23. This indicates the temperature of the heatable tip 23 to the user. More specifically, the temperature indicator 26 is made from a plurality of materials, and at least two of the materials have different coefficients of thermal expansion. For instance, the temperature indicator 26 includes a bi-metal or thermostat metal coil strip 30 made from two strips of metal bonded or otherwise secured together. Each strip is of a different alloy with a different co-efficient of thermal expansion. In one embodiment, the temperature indicator 20 is a B1 bi-metal material that is 0.007 inches thick and 5 inches long. In another embodiment, a strip of one material is coated with another material having a different coefficient of thermal expansion. The temperature indicator 26 is at least partially coiled about the heating element 20 as shown in
When the heating element 20 is heated, the heat transfers to the temperature indicator 26 which moves accordingly. More specifically, the temperature indicator 26 coils tighter or uncoils looser depending on how the strip 30 is wound. If the temperature indicator 26 is wound with the higher thermal coefficient material on the outside of the coil then the heat causes it to wind tighter. If the temperature indicator 26 is wound with the higher thermal coefficient material on the inside of the coil then the heating causes the temperature indicator 26 to uncoil. When the heating element 20 cools, the strip 30 also cools and moves in the opposite manner. In another embodiment, the temperature indicator 26 is axially straight when cool, but as the temperature indicator 26 heats up, the temperature indicator 26 bends and partially coils. Thus, by coiling and uncoiling, the temperature indicator 26 indicates the temperature of the heatable tip 23 to the user.
It should be appreciated that a thinner bi-metal material of the temperature indicator 26 bends more over a given temperature range than a thicker bi-metal material. It should also be appreciated that a longer coil will typically bend more than shorter coil.
The heating element 20 is adjustable to heat the heatable tip 23 to a plurality of discrete temperature settings. For instance, the heating element 20 can be adjusted to a high temperature setting and a low temperature setting.
The temperature indicator 26 also includes at least one visual indicator, generally indicated at 31 in
It should be appreciated that the visual indicator 31 could be of any suitable type. For instance, in an alternate embodiment, the visual indicator 31 includes a temperature scale disposed on the housing 18 and a marker disposed on the temperature indicator 26. Thus, as the temperature indicator 26 moves, the marker moves relative to the scale to indicate the temperature of the heatable tip 23. The visual indicator 31 could also include numbers, words such as “Hot” and “Cold”, or other representative symbols. The visual indicator 31 can include elements on one of or both of the housing 18 and the temperature indicator 26.
Turning now to
The base 12 also includes a workpiece support member, generally indicated at 57 adapted to support a workpiece (not shown). In the embodiment shown, the workpiece support member 57 includes a pair of flexible arms 58, 60. The arms 58, 60 are each coupled to the base 12 at one end and include a clamping member 62, such as an alligator clip, at the opposite end to hold the workpiece. The arms 58, 60 each comprise a plurality of ball and socket elements. Friction between the socket elements and the ball elements allows the arms 58, 60 to be held in a bent position. Thus, the arms 58, 60 can hold the workpiece in a position desired by the user for added convenience.
It should be appreciated that the clamping members 62 can be of any suitable type such as clamps and interchangeable clamps such as three jaw chucks or screw type vice clamps. Also, an illumination device may be secured to the base 12 to provide illumination on the workpiece. Further, the base 12 could include any number of workpiece support members 57 without departing from the scope of the invention. Also, the arms 58, 60 could be of different sizes and configuration. Also, a different type of workpiece support member 57 other than the arms 58, 60 may be included to support the workpiece.
The description of the disclosure is merely exemplary in nature and, thus, variations that do not depart from the gist of the disclosure are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the disclosure.
This application claims the benefit of U.S. Provisional Application No. 60/637,341, filed Dec. 17, 2004.
Number | Date | Country | |
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60637341 | Dec 2004 | US |