DE3535831A1 - HAIRSTYLE - Google Patents

Description

The invention relates to a styling bar with a rod-shaped housing a handle section and a, preferably circular cylindrical, hairdressing section and with an electric heater arranged in the housing, whereby, in front preferably, the housing has a mains connection in the handle section, wherein the housing in the hairdressing section be, preferably made of metal standing, heat-insulated heat transfer from the rest of the housing jacket and an arranged inside the heat transfer jacket has parking heater and, preferably, the styling bar without Connection to the mains can be used.

In the known styling bar, from which the invention is based (DE-GM 84 28 240), is the heat transfer jacket in the hairdressing section also with the Provide the hairbrushes evenly distributed around the circumference. These Hair styling bristles serve to grasp the hair to be styled, their tips are rounded or provided with rounded thickening to avoid ver exclude risk of injury. The styling bristles are made of a metal core with plastic coating or only plastic and are natural heat resistant. The actual heating of the hair to be styled takes place in any case, also in the case of the known hair styling stick via the heat transfer coat.

The well-known styling stick, from which the invention is based, has a counter auxiliary heating element, which is connected to the Power grid is powered. Basically it is with one Hairstyling rod also known, this without connection to the mains to use. In such a case, such a styling stick has a warmth memory block made of ceramic or a heat-storing plastic exists and in which a heating coil is embedded as the actual heating element is. Such a styling stick is usually placed in a wall bracket inserted, which in turn is connected to the household electricity network and a special heating electronics with possible temperature limitation  points. For hairdressing, the electronic heating system is inserted on the wall bracket switches and the heat storage block of the styling stick is set to the desired one Temperature warmed up. It takes quite a while. After opening heating, the styling rod can be pulled out of the wall bracket and so on be used for a long time until the hair is stored in the heat storage block stored heat is "consumed" until the temperature of the heat accumulator blocks has dropped so far that hairdressing is no longer effective can.

The explanations given above for the well-known styling stick make it clear Lich that a relatively long heating-up time is necessary in any case, ver associated with a relatively large energy consumption, even if only for example as a hairdressing of a single strand of hair is required.

Taking into account the prior art explained above, the Invention based on the object to design the known styling bar and to further develop that the heating-up time is as short as possible and that for the heating-up heating necessary energy is as low as possible.

The hairdressing bar according to the invention, in which the task shown above ge triggers is characterized in that the resistance heating element Corresponding shape of the heat transfer jacket, preferably circular cylinder jacket-shaped, designed and directly under the heat transfer jacket in the best possible heat-conducting connection with the heat transfer jacket is arranged. According to the styling bar is designed so that the lowest possible heat capacity of the overall arrangement and the best possible Heat transfer number between resistance heating element and heat transfer coat can be achieved at the same time. This means a minimal heat-up time and minimal energy consumption.

With the styling bar according to the invention, hairdressing can also be done, for example of a single strand is sensible, namely after a short opening  heating time and with low energy consumption, the hairdressing according to the invention Overall, stab can therefore be used much more expediently than that previously known styling bar, from which the invention is based. The least possible Heat capacity of the overall arrangement and the best achieved according to the invention possible heat transfer coefficient between the resistance heating element and the Heat transfer jacket has yet another very significant advantage part that has been recognized according to the invention. According to the invention it is namely now possible in the housing, in particular in the handle section of the Housing, an electric accumulator to arrange and the resistance heater element to connect to the accumulator. This connection is made via a normal electrical and / or electronic circuitry on the styling stick itself, so that the resistance heating element in the usual way on and off can be tet. The battery can be recharged using the existing one Mains connection take place, here the Kon explained to the prior art can be realized in the same way with a plug-in wall bracket can. So far, attempts have been made to use a styling stick with an electric battery Always produce the mulator with the high power consumption of the resistance heater failed. According to the invention it has been recognized that for the high Electricity consumption primarily means that the heat capacity is still too high the overall arrangement was responsible, compared to that of the heat capa the hair to be styled is very low. As a result, at the booth Despite the technology from which the invention is based, the styling bar overall of the heat-insulated heat transfer jacket more or less strongly warms; this is no longer or practical with the hairdressing stick according to the invention no longer the case.

It goes without saying for the styling stick according to the invention, in particular in the version with an electric accumulator, of great importance that the temperature of the heat transfer jacket kept as constant as possible, is at least limited to an upper limit. The same with the state of the Technology naturally existing thermostatic control or overheating Protection should be much more sensitive with the styling stick according to the invention  be than the well-known styling bar with large heat capacity, of which the invention is based.

Particularly preferred refinements and developments of the invention Moderate hairdressing rods result from the subclaims. You will after following in connection with the explanation of a preferred embodiment game of a styling stick according to the invention also with reference to the drawing explained in detail. In the drawing shows

Fig. 1 is a side view of curling tongs in,

Fig. 2 shows a section through the subject matter from Fig. 1 to scale along the line II-II in a purely schematic representation, not

Fig. 3 in plan view a resistance heating element for a styling ge according to Fig. 1 and

Fig. 4 is a perspective view of a spring element for a Frisierstab in FIG. 1.

Fig. 1 shows in a schematic representation in side view of a curling tongs with a rod-shaped housing 1 with a handle section 2 and a Frisierabschnitt. 3 In the illustrated and preferred exemplary embodiment and according to the preferred teaching of the invention, the hairdressing section 3 has a circular cylindrical design and is provided with a guide tip 4 , with the aid of which the styling rod with the hairdressing section 3 can be inserted into the hair to be styled. The handle section 2 has an essentially circular cylindrical shape, the usual on / off switch 5 being known. At the hairdressing section 3 hairstyle bristles 6 are also shown schematically, which in the preferred embodiment shown are made of plastic and can be designed to be elastically resilient, fixed or retractable.

Overall, it is not shown that an electric heater is provided, but details of this electric heater will be explained later. On the other hand, a network connection 7 for the electric heater is shown, which is arranged in the handle section 2 of the housing 1 . In the embodiment shown here, for example, and according to the preferred teaching of the invention, this mains connection 7 is a connection socket for the plug of a removable network cable 8 .

Fig. 1 further shows that the housing 1 of the styling bar in the styling section 3 has a heat transfer jacket 9 , which is shown in the preferred embodiment and be made of metal, namely a stainless steel sheet, and is thermally insulated from the rest of the housing 1 . A dash-dot line shows a resistance heating element 10 which is arranged within the heat transfer jacket 9 and is part of the electric heater.

As has already been indicated in the explanation of the network connection 7 , the styling bar shown in FIG. 1 is a particularly preferred embodiment of the invention in that it can be used without a connection to the power network. This will be explained in more detail later.

Fig. 2 can now be seen as a schematic and not to scale sectional view, which is initially the essential content of the teaching of the vorlie invention. In the styling bar according to the invention, the heating up time and the energy required for heating are minimal, because inventions according to the invention only heat up the parts of the styling bar that are absolutely necessary for styling hair, namely essentially only the heat transfer jacket. According to the invention it is achieved that other parts of the styling bar are not or practically not heated. This is, as Fig. 2 shows achieved in that the resistance heating element 10 9 correspondingly, leading, for example the shape of the heat transfer jacket in the embodiment shown, and according to the preferred teachings of the invention, therefore, cylinder jacket-shaped, and immediately below the heat transfer jacket 9 thermally conductive in the best possible combination with the heat transfer jacket 9 is arranged. In contrast to the prior art, from which the invention is based, the resistance heating element is therefore no longer or less centrally - axially arranged in the hairdressing section 3 of the housing 1 , but is located as a thin layer directly below the heat transfer jacket 9 . The heat necessary for hairdressing thus arises where it is also needed, namely directly on the heat transfer jacket 9 . The heating can take place with the lowest possible heat capacity, the heating-up time is extremely short, and the energy required is also very low.

As has already been explained above, the implementation of the teaching of the invention creates the prerequisite for the fact that an electrical accumulator 11 can be arranged in the housing 1 , specifically in the illustrated and preferred exemplary embodiment in the handle section 2 of the housing 1 , and that the resistance heating element 10 is connected to the accumulator 11 . This is shown in phantom in Fig. 1, being still shown on the previously Erläu shouldered out that 11 comprises two series-connected battery cells 12 in the preferred embodiment of the accumulator, said accumulator cells 12 in the illustrated and preferred embodiment, a nominal voltage of 1.2 V have and are designed as nickel-cadmium cells. Maximum storage capacity is combined here with the currently largest possible number of charge / discharge cycles at an overall harmlessly low voltage. Fig. 1 shows in the rest illustrated nor schematically a heating and charging circuitry 13, as is known as such in other similar appliances. It can also be a pure heating electronics, by which the thermostatic control of the temperature of the heat transfer jacket 9 takes place, whereas the charging electronics can be integrated into a wall bracket or the like.

FIG. 3 shows in connection with FIG. 2 how, in a preferred exemplary embodiment, the resistance heating element 10 corresponding to the shape of the heat transfer jacket 9 can be constructed in principle. In the embodiment shown here, the resistance heating element 10 consists of a flat, made of electrically insulating, heat-resistant material, the carrier 14 and an applied to the carrier 14 , flat heating loop 15 . In Fig. 3 it is shown that in the embodiment shown there, the heating loop 15 is meandered from a connection point 16 for an electrical conductor on one side of the carrier 14 via the carrier 14 back to a further connection point 17 on the same side of the carrier 14 . A Capton film is provided as the carrier in the preferred exemplary embodiment shown here. In principle, all materials that are sufficiently heat-resistant and sufficiently flexible are suitable here. The heating loop is formed as an electrically conductive coating of the carrier 14 , in the exemplary embodiment shown here as a thin film resistor. The production of such a heating loop 15 on a corresponding carrier 14 is basically known from the prior art for electronic circuits, specifically in the production of thin-film resistors, and does not require any further explanation here. The shape and course of the heating loop 15 depend on the operationally seen voltages, currents and setpoint temperatures, and on the specific geometry of the respective styling rod. Otherwise, the heating loop 15 on the carrier 14 can still be covered by an insulation layer which cannot be seen in the figure, so that a short circuit does not occur unintentionally, which under certain circumstances would lead to rapid and harmful deep discharge of the battery 11 .

Fig. 3 shows in this respect a very preferred embodiment of the inven tion, namely namely the resistance heating element 10 in the initial state, that is, before insertion into the housing 1 , has a flat shape and by elastic deformation in the installation shape, that is, preferably in a circular cylindrical-shaped Shape that can be brought. If an appropriate, elastic-resilient material is used for the carrier 14 and the heating loop 15 is designed and dimensioned accordingly on the carrier 14 , the resistance heating element 10 is automatically built into the heat transfer jacket 9 from the inside by the springback effect of the carrier 14 pressed. The result is a particularly good heat transfer coefficient.

The heat transfer coefficient can be increased from the state of the art, for example by using a paste which facilitates and improves the heat transfer. Nevertheless, the main reason for a good heat transfer coefficient in a high pressure force of the resistance heating element 10 is to be sought. A high contact pressure also results from self-adjustment of the resistance heating element 10 in the heat transfer jacket 9 .

Fig. 2 shows in connection with Fig. 3 and Fig. 4 yet another, before ferred teaching of the invention, which is characterized in that within the resistance heating element 10 , the resistance heating element 10 pressing the heat transfer jacket 9 spring element 18 , preferably in Form of a circular cylindrical adapter sleeve is arranged. Such a spring element 18 is useful in any case, especially when the inherent elasticity of the resistance heating element 10 does not guarantee a sufficient contact force or even an elastic deformation of the abutment standsheizelements 10 is not or practically not possible, as beipiels as in a woven fabric as a carrier for the heating loop. It can be clearly seen in FIG. 4 that in the illustrated and preferred exemplary embodiment, the spring element 18 has the shape of a circular cylindrical clamping sleeve and consists, for example, of spring plate. A reflective outer surface of the spring element 18 is expedient from a thermal point of view. In addition, the heat capacity of the spring element 18 should of course be as low as possible, so as not to adversely affect the effect of the teaching of the invention explained above.

It has previously been explained that in the exemplary embodiment shown and according to the preferred teaching of the invention, the rechargeable battery 11 is recharged from the mains connection 7 . Now, the first eye-catching possibility is to let the resistance heating element 10 always spit from the accumulator 11 and to recharge the accumulator 11 from the mains connection 7 . With this construction of the styling bar according to the invention, the accumulator 11 is subjected to a rather high load. Indeed, it is often the case that the styling bar is operated with the power cord 8 connected and operation with the accumulator 11 or the like is only desirable. Consequently, it is recommended in the context of the teaching of the invention to provide direct heating of the heat transfer jacket 9 from the network connection 7 to the resistance heating element 10 . For this purpose, the heating and charging electronics 13 could be designed in such a way that in the case of direct heating from the mains connection 7, the mains voltage of the household power network is reduced to the output voltage of the accumulator 11 and rectified. Then the resistance heating element 10 could be used in any case. However, such heating and charging electronics are relatively expensive. In the illustrated embodiment in the figures of the half is shown that in addition to the resistance heating element 10 a, accordingly the resistance heating element 10 ausgestaltetes, network-resistor heating element 19 is provided and connected to the power supply. 7 Two resistance heating elements 10, 19 are therefore provided next to one another, the network resistance heating element 19 being designed for the usual mains voltage of the household power network. An automatic switchover from the resistance heating element 10 to the line resistance heating element 19 can take place, for example, by inserting the power cable 8 into the line connection 7 . Otherwise, the network resistance element 19 can be configured in exactly the same way as the resistance heating element 10 .

From a thermal point of view, it is expedient that the network resistance heating element 19 , as shown in FIG. 2, is arranged within the resistance heating element 10 . So that the resistance heating element, in which the energy consumption is less critical, is arranged at a greater distance from the heat transfer jacket 9 .

Not shown in the drawing is a further alternative, which is characterized in that a second heating loop, which is electrically insulated from the first heating loop, is arranged on the support of the resistance heating element and is connected to the mains connection. In this Aufüh approximately form, the resistance heating element 10 and the network resistance heating element 19 are integrated into a single double resistance heating element. Of course, a total of four connection points for electrical conductors must then be provided for the two heating loops, so that one heating loop is connected to the accumulator and the other heating loop is connected to the mains connection. The heating loops can be arranged on the carrier on the same side, preferably running approximately parallel to one another. However, it is particularly expedient if one heating loop is arranged on one side and the other heating loop on the other side of the support of the resistance heating element. Then electrical insulation of the two heating loops is given automatically and without any special effort. The accumulator heating loop is then, as already explained above, expediently on the outside of the carrier, and the network heating loop is arranged on the inside of the carrier. In both cases, it is recommended that the heating loop be covered with an insulating layer or insulating layers.

Claims (12)

1. Styling bar with a rod-shaped housing with a handle section and a, preferably circular cylindrical, hairdressing section and with an electric heater arranged in the housing, preferably, the housing in the handle section having a mains connection, the housing in the hairdressing section opposite one, preferably made of metal the rest of the housing has heat-insulated heat transfer jacket and a resistance heating element arranged inside the heat transfer jacket and, preferably, the styling bar can be used without connection to the power supply, characterized in that the resistance heating element ( 10 ) corresponds to the shape of the heat transfer jacket ( 9 ), preferably a circular cylinder jacket-shaped, formed and arranged directly under the heat transfer jacket ( 9 ) in the best possible heat-conductive connection with the heat transfer jacket ( 9 ). 2. styling bar according to claim 1, characterized in that in the housing ( 1 ), in particular in the handle portion ( 2 ) of the housing ( 1 ) an electric accumulator ( 11 ) is arranged and the resistance heating element ( 10 ) is connected to the accumulator ( 11 ). 3. curling tongs according to claim 2, characterized in that the Akkumula tor (11) consists of two, preferably series-connected battery cells (12), the battery cells (12) preferably each having a nominal voltage of about 1.2 V have and / or the accumulator cells ( 12 ) are preferably designed as nickel-cadmium cells. 4. Styling stick according to one of claims 1 to 3, characterized in that a heating and / or charging electronics ( 13 ) is provided and is preferably arranged in the handle section ( 2 ). 5. Styling bar according to one of claims 1 to 4, characterized in that the resistance heating element ( 10 ) consists of a flat, made of electrically insulating, heat-resistant material carrier ( 14 ) and applied to the carrier ( 14 ), flat heating loop ( 15 ) consists. 6. Styling bar according to claim 5, characterized in that the carrier ( 14 ) is formed as a Capton film or the like. 7. styling bar according to claim 5 or 6, characterized in that the heating loop ( 15 ) as an electrically conductive coating of the carrier ( 14 ), preferably as a thin film resistor, is formed. 8. styling bar according to one of claims 1 to 7, characterized in that the resistance heating element ( 10 ) in the initial state, that is, before insertion into the housing ( 1 ), has a flat shape and by elastic deformation in the mounting shape, so preferably in a circular cylindrical -shaped shape, can be brought. 9. Frisierstab is arranged on the heat transfer jacket (9) anpressendes spring element (18), preferably in the form of a circular-cylindrical clamping sleeve, according to one of claims 1 to 8, characterized in that within the resistance heating element (10), the resistance heating element (10) . 10. Styling bar according to one of claims 1 to 9, characterized in that in addition to the resistance heating element ( 10 ), preferably completely corresponding to the resistance heating element ( 10 ) designed, network resistance heating element ( 19 ) is provided and connected to the mains connection ( 7 ) is. 11. Styling bar according to claim 10, characterized in that the network resistance heating element ( 19 ) is arranged within the resistance heating element ( 10 ). 12. Styling stick according to claim 5 and possibly one of claims 6 to 9, characterized in that on the support of the resistance heating element a second heating loop, electrically isolated from the first heating loop arranged and connected to the mains connection.