DE102007061047B4 - Cutting device for thermal insulation boards and method for their operation - Google Patents

Abstract

Method for operating a cutting device for thermal insulation panels, in particular of foam material, with a heatable cutting wire (6) clamped to a frame (4), wherein a power supply device of the cutting wire (6) is controlled by means of a control circuit such that the cutting wire (6) of the power supply device is subjected to current and / or voltage as required as a function of the operating state of the cutting wire (6), characterized in that the current and / or the voltage of the cutting wire (6) is regulated by means of the control circuit such that at least one target Stand-by state of the cutting wire (6) is maintained, which ensures a preheating temperature of the cutting wire (6) below its operating temperature.

Description

The The invention relates to a method for operating a cutting device for thermal insulation panels, in particular of foam material, with one on a frame clamped, heated cutting wire, wherein a power supply device the cutting wire so regulated by means of a control circuit will that the cutting wire from the power supply depending on the Operating state of the cutting wire, if necessary, with power and / or Voltage is applied. The invention further relates to a cutting device for Thermal insulation boards, in particular of foam material, with one on a frame clamped, heated cutting wire, wherein a power supply device the cutting wire has a control circuit, which as needed Current and / or voltage of the cutting wire of the Power supply device as a function of the operating state the cutting wire is formed.

Such cutting device are known and are used for cutting thermal insulation panels, which are usually made of foam material, for. As polystyrene, are made by the heat insulation plate is cut to length by means of the hot cutting wire in the desired format. Such cutting devices are used in particular in the context of external insulation of buildings use, where they are carried on site, usually on a surrounding the building to be insulated scaffolding, to cut the thermal insulation panels according to windows and doors, building projections and indentations, corners, etc. A generic cutting device for cutting thermal insulation boards is for example from the DE 197 42 436 A1 known.

From Disadvantage has in many cases the power supply of the cutting wire proved, which according to the state The technology includes a power supply that conforms to a conventional Power source can be connected is. In this context, on the one hand, the cable guide along often at a considerable height located scaffolding in terms of handling technology consuming, on the other hand in case of damage the power cable, as it is particularly on construction sites due to mechanical action can occur easily, not just because of a possible Electric shock a significant risk of injury to the construction site staff, but also with regard to having a person who has a Electric shock, is in danger of falling off the scaffolding.

This is countered by a cutting device for foam materials, in particular in the form of hard foam boards, for insulation purposes according to the DE 200 02 995 U1 in that it comprises a heatable cutting wire which is clamped to an approximately U-shaped frame and which is also supplied, inter alia, with energy by a power supply device in the form of a rechargeable battery. A control circuit for variable power supply of the cutting wire, however, is not provided.

Furthermore has proved disadvantageous in known cutting devices, that the life of the cutting wire to about 500 to a maximum 1000 cutting operations is limited, so that in case of failure replace the cutting wire is what, in particular during construction site use of the cutting device, for example on a scaffold, An additional Effort means.

The DE 298 03 981 U1 describes a generic cutting device for plastic materials in the form of heat-insulating foams, which comprises a clamped to a frame, heated cutting wire, which is powered by a power source with energy. The power source can also be operated independently of the mains by batteries or accumulators. The cutting device 1 further comprises a kind of control circuit in that at one end of the cutting wire there is provided a continuous electrical voltage ring part which has an opening through which the cutting wire passes. If the cutting wire is applied to a foam part to be cut, this system pressure causes the cutting wire to come into contact with the ring part and thereby be put under tension. In contrast, the cutting wire in the - unloaded - resting state does not come into contact with the ring member, so that the cutting wire is not heated for lack of electrical contact. The disadvantage is on the one hand that relatively high temperature fluctuations, as they often occur especially in the intended use of the cutting device when building buildings outdoors, affect the life of the cutting wire. This is all the more so as the cutting wire in the known cutting device only in the loaded state, in which the cutting wire has been stretched or deformed by pressing against a abzulängendes component so far that it comes into contact with the current-carrying ring member is heated.

Of the Invention is therefore the object of a cutting device and to develop a method of the type mentioned at the outset, that the aforementioned disadvantages are eliminated or at least mitigated.

According to the invention this task is at egg nem method for operating a cutting device of the type mentioned solved in that the current and / or the voltage of the cutting wire is controlled by the control circuit such that at least one target state-by-state of the cutting wire is maintained, which for a preheating the Cutting wire below its operating temperature provides.

advantageous Embodiments of the method according to the invention are in the reproduced dependent claims.

at a cutting device of the type mentioned above sees the invention to the solution this task further, that the cutting device for performing a Such method is formed, wherein the control circuit regulates the current and / or the voltage of the cutting wire in such a way that maintain at least a desired stand-by state of the cutting wire which one is for one Before heat temperature of the cutting wire below its operating temperature.

by virtue of the embodiment of the invention the power supply device with the control circuit, which for on demand current and / or voltage of the cutting wire dependent on the operating condition, d. H. the actual operating state, the cutting wire is trained for an extension taken care of the life of the cutting wire. This in particular by that the control circuit, the current and / or the voltage of the cutting wire so controls that maintain at least a desired stand-by state of the cutting wire is, with such a target stand-by state to be selected that can have a certain preheating temperature below the operating temperature of the cutting wire even with a longer service life of Cutting device is maintained, which on the one hand a relatively short heating of the heating wire to operating temperature allows on the other hand great Temperature variations of the cutting wire, which its durability affect prevented. In this way, overheating of the cutting wire at longer Service life of the cutting device in the on state reliably avoided and at the same time power consumption is reduced to the necessary level, what with an increase the life of a, as explained in more detail below, preferably provided Accumulator goes along. The control circuit can be known electronic components, such as integrated circuits, processors, CPU units and the like include.

In expedient embodiment it is provided that the control circuit, the current and / or the voltage the cutting wire so controls that at least one desired operating condition of the cutting wire, d. H. the operating state of the cutting wire, which for one the required temperature of the cutting wire during the cutting process provides and on the other hand, overheating the cutting wire reliable prevented, maintained.

As already indicated, an advantageous embodiment of the invention provides that the power supply device with at least one accumulator equipped, which supplies the cutting wire with DC power. In this way, on the one hand, any risk of injury to the user and / or other construction site personnel due to electric shock damaged Power cables reliable avoided and designed to carry the - wireless - cutting device z. B. also in large Height on one framework across from the prior art than much more convenient. On the other hand, has shown that the provided by the accumulator DC voltage, which moreover As a rule, much lower than mains voltage and preferably in a range of about 10 to about 50 V or 100 V, e.g. For example 24 V, can lie, the life of the cutting wire in the on this acting mechanical stress during its intended use Alone already considerably, d. H. up to about 100%, compared to AC voltage with 240 V to 250 V is able to extend.

Of the Target operating state and the target state-by state, for example, in particular by means of a switch, by the respective user be adjustable. Alternatively or additionally, preferably provided be that the control circuit automatically the target stand-by state determines after the desired operating state over a vorherbe tunable Period not changed has been. In this way, the control circuit is capable of power consumption and thus automatically reduce the service life of the accumulator, if it has been found that the cutting device for a long time was not used. The latter can be continued by, for example below with reference to the claims 11 to 15 explained in more detail sensor means happen, if this z. B. have recognized that the state of Cutting wire over longer Time no changes otherwise experienced during a cutting process occur (eg tensile loading of the cutting wire, local cooling of the cutting wire, associated change its electrical resistance, etc.).

While the power supply of the cutting wire preferably provided accumulator can basically be configured arbitrarily, according to an embodiment of the inventions The cutting device according to the invention may be provided such that the accumulator comprises a plurality of accumulator elements connected in series.

The Regulation of the current and / or the voltage of the cutting wire by means of the control circuit can basically done in virtually any known manner. So is in the case of one mentioned above Configuration of the accumulator in the form of a plurality of series-connected Accumulators z. B. conceivable that the regulation of the current and / or the tension of the cutting wire by switching on or off and disconnectable accumulator elements, d. H. depending on the operating condition the cutting wire are switched individual Akkumulatorelemente (ie the total voltage increases), when the operating state below the desired operating state (or - depending on Mode - of Desired stand-by state), while individual Akkumulatorelemente off (ie the total voltage is reduced) when the operating state above the setpoint operating state (or - depending on the mode - the setpoint standby state) lies.

alternative or additionally can be provided that the regulation of the current and / or the voltage the cutting wire by means of at least one transistor circuit he follows; and / or the regulation of the current and / or the voltage the cutting wire is carried out by means of at least one relay.

Of Furthermore, alternatively or additionally, the regulation of the current and / or the tension of the cutting wire by means of at least one PTC element also in this case - if desired - both the control to a desired operating state as well as to a desired stand-by state possible is by z. B. two or more PTC elements connected in parallel and depending on the desired State are active or disconnected, so that z. B. in the target standby state, both in parallel switched PTC elements are active while in the desired operating state one of the two PTC elements disconnected and only the other of the supply current of the cutting wire is flowing through. PTC elements are components whose electrical resistance increases with increasing temperature (positive temperature coefficient, positive temperature coefficient), and are known as such.

What The sensor means relates to the actual operating state of the cutting wire capture and provide the actual values, on the basis of which provided by the invention Control circuit to maintain the respective operating condition can, so can these too, in principle be formed by any known sensor means, which conclusions on enable the operating state of the cutting wire. Thus, according to one embodiment be provided that the control circuit at least one sensor means in the form of a temperature sensor wherein the regulation of the current and / or the voltage of the Cutting wire depending from the temperature of the cutting wire.

the respective setpoint operating state (or, if appropriate, setpoint standby state) the cutting wire is thus assigned a set temperature, which maintains the control circuit.

alternative or additionally it can be provided that the control circuit at least one sensor means in the form of an ohmmeter, the regulation of Current and / or the voltage of the cutting wire in dependence from the electrical resistance of the cutting wire, d. H. the respective nominal operating state (or, if appropriate, desired stand-by state) the cutting wire is assigned a nominal electrical resistance, which the control circuit maintains.

Farther alternatively or additionally can be provided that the control circuit at least one timer wherein the regulation of the current and / or the voltage of the Cutting wire, especially when switching on the cutting device, dependent on from the time interval set by means of the timer. Such a timer, which no "sensor means" in the narrower Meaning, in particular, in addition to at least one "real", offers the current Actual operating state of the cutting wire detecting sensor means in order to switch on the cutting device over a predetermined period, which in any case does not lead to overheating of the cutting wire to lead can, the cutting wire - preferably by applying the same with the maximum possible current or the maximum possible Voltage through the control circuit - as fast as possible in to change its operating state.

In addition, it may alternatively or additionally be provided that the control circuit comprises at least one sensor means in the form of a length meter, wherein the regulation of the current and / or the voltage of the cutting wire in dependence on the extension of the cutting wire. Such a length meter may for example be formed by a tension roller, guided over the lateral surface of the cutting wire at least on one side and which in the clamping direction of the cutting wire, for. B. by means of springs, wherein a rotation of the roller against the spring force due to expansion of the cutting wire corresponds to a change in state of the same and a desired operating state (or optionally a desired state-by-state) of the cutting wire is associated with a specific rotational position of the tension roller. However, of course, other embodiments of such a blade length of the cutting wire are conceivable.

Further may alternatively or additionally be provided that the control circuit at least one sensor means in the form of an optical color recognition device, wherein the regulation of the current and / or the voltage of the cutting wire in dependence from the glow condition - or more precisely: from the annealing color of the cutting wire he follows.

Finally, can it with regard to a safe operation of the cutting device according to the invention be expedient that they - as well as such known - with a deep discharge protection and / or a Hochstrombegrenzer is equipped which can be integrated into the control circuit, for example.

Similarly It is advantageous if the accumulator with a charge gauge is equipped, the accumulator in particular interchangeable should be mounted on the cutting device to make a simple and timely replacement of a discharged battery against ensure a charged accumulator to be able to.

Further Features and advantages of the invention will become apparent from the following Description of an embodiment with reference to the drawing. The only one shows

1 a perspective schematic view of an embodiment of a cutting device according to the invention for thermal insulation panels.

In the 1 shown cutting device comprises a substantially C-shaped carrier 1 with two at a central pier 2 B arranged terminal, parallel legs 2a , which in each case on its mutually facing inside with an extension direction of the legs 2a arranged leadership 3 are equipped. Along the guide 3 is also an approximately C-shaped frame 4 in the direction of the arrow P _{1 is} guided so displaceable that the central web 5b of the frame 4 with the central jetty 2 B of the carrier 1 form two parallel sides of a rectangle, with the other two parallel sides of this rectangle from the thighs 2a . 5a of the carrier 1 or of the frame 4 are formed. In the area of the free ends of the parallel legs 5 of the frame 4 is a heated cutting wire 6 clamped, which for cutting to length in 1 not shown thermal insulation panels, z. B. of foam materials, is used by the heat insulation plate on the inside of the central web 2 B of the carrier 1 brought to the plant and the frame 4 so in the direction of the carrier 1 is moved that the cutting wire 6 the heat insulation panel is cut to the desired dimensions. To support the positioning of the thermal insulation board here is the frame 1 further with two in each case Rich in direction of the arrow P ₂ pivoting or folding table elements 7 equipped, each in the area of the opposite upper edges of the in 1 lower thigh 2a of the carrier 1 are articulated and in the in 1 reproduced view in a working position, in which they share with the lower leg 2a span a work plane. In her in the direction of arrows P ₂ folded up position (in 1 not shown) extends its plane of the table substantially parallel to the plane of the C-shaped carrier 1 so that the cutting device is easy to transport due to its high compactness. In the area of the carrier 1 facing away from the outside of the central bridge 5b of the frame 4 is also a handle for easy transportation 8th intended. The frame 4 is by any known means, such as clamping screws, locking elements or the like (not shown), at least in its in the carrier 1 inserted position locked to the latter.

To power the cutting wire 6 the cutting device is provided with a power supply device which is connected to an accumulator 10 is equipped, which in the present embodiment z. B. on the outside of a leg 2a of the carrier 1 - here: on the lower thigh 2a - is mounted replaceable. the accumulator 10 For example, has a series arrangement of 10 Akkumukatorelementen each with 1.2 V, so that there is a total voltage of 24V. A warning light 11 serves as a charge indicator. The contacting of the cutting wire 6 can be done for example via sliding contacts, which in the guides 3 are provided and a DC circuit of one pole of the accumulator 10 over the lower leg 2a of the carrier 1 , the lower leg 5a of the frame 4 , through the cutting wire 6 through in the upper leg 5a of the frame, the upper leg 2a of the carrier 1 and through the jetty 2 B of the carrier 1 back to the other pole of the battery.

The power supply device further comprises an in 1 Not shown control circuit, which for on-demand current or voltage application of the cutting wire 6 from the accumulator 10 depending on the operating state - or more precisely, the actual operating state - of the cutting wire 6 is trained. This is expedient at least one desired operating state of the cutting wire 6 and optionally also a desired stand-by state of the cutting wire 6 maintained, which always prevent overheating of the cutting wire and / or unnecessarily high power consumption, both the operating life of the accumulator 10 as well as the life of the cutting wire 6 to extend. As a control variable, for example, serve the temperature, resistance or other parameters of the cutting wire, which are detected with appropriate sensor means, such as temperature sensors, ohmmeters, self-regulating PTC elements, etc., such that the control circuit in response to these parameters, the desired operating state of the cutting wire 6 maintains. The latter can in the present embodiment z. B. done by demand on and off individual accumulator elements, so that the total voltage of the accumulator between its maximum voltage of 24 V and 0 in 1.2 V increments is adjustable. However, other measures are possible, as mentioned above. Alternatively or additionally, the control circuit may, in particular, have a timer which, on the occasion of a switch-on operation, makes the maximum accumulator power available and throttles it after a preset time interval, preferably in accordance with the desired operating state.

Claims (20)

Method for operating a cutting device for thermal insulation panels, in particular of foam material, with one on a frame ( 4 ) clamped, heated cutting wire ( 6 ), wherein a power supply device of the cutting wire ( 6 ) is regulated by means of a control circuit such that the cutting wire ( 6 ) of the power supply device as a function of the operating state of the cutting wire ( 6 ) is, if necessary, supplied with current and / or voltage, characterized in that the current and / or the voltage of the cutting wire ( 6 ) is regulated by means of the control circuit such that at least one desired stand-by state of the cutting wire ( 6 ) which is responsible for a preheating temperature of the cutting wire ( 6 ) below its operating temperature. A method according to claim 1, characterized in that the current and / or the voltage of the cutting wire ( 6 ) is regulated by the control circuit such that at least one desired operating state of the cutting wire ( 6 ) is maintained. Method according to claim 1 or 2, characterized in that the cutting wire ( 6 ) at least by means of an accumulator ( 10 ) of the power supply device of the cutting wire ( 6 ) is supplied with direct current. Method according to one of claims 1 to 3, characterized that the desired operating state and the desired stand-by state, in particular by means of a switch. Method according to one of claims 1 to 3, characterized that the target stand-by state by means of the control circuit automatically is determined after the desired operating state over a predeterminable Period has not been changed is. Method according to one of claims 3 to 5, characterized in that an accumulator ( 10 ) is used with a plurality of serially connected Akkumulatorelemente. A method according to claim 6, characterized in that for controlling the current and / or the voltage of the cutting wire ( 6 ) individual switched on and off Akkumulatorelemente on or off. Method according to one of claims 1 to 6, characterized in that for controlling the current and / or the voltage of the cutting wire ( 6 ) at least one transistor circuit is used. Method according to one of claims 1 to 6, characterized in that for controlling the current and / or the voltage of the cutting wire ( 6 ) at least one relay is used. Method according to one of claims 1 to 6, characterized in that for controlling the current and / or the voltage of the cutting wire ( 6 ) at least one PTC element is used. Method according to one of claims 1 to 10, characterized in that the current and / or the voltage of the cutting wire ( 6 ) by means of a temperature sensor having control circuit as a function of the temperature of the cutting wire ( 6 ) is regulated. Method according to one of claims 1 to 10, characterized in that the current and / or the voltage of the cutting wire ( 6 ) by means of an ohmmeter having control circuit in dependence on the electrical resistance of the cutting wire ( 6 ) is regulated. Method according to one of claims 1 to 10, characterized in that the current and / or the voltage of the cutting wire ( 6 ) is regulated by means of a control circuit having a timer, in particular when switching on the cutting device, in dependence on the time interval determined by means of the timer. Method according to one of claims 1 to 10, characterized in that the current and / or the voltage of the cutting wire ( 6 ) by means of a length-measuring control circuit in dependence on the extension of the cutting wire ( 6 ) is regulated. Method according to one of claims 1 to 10, characterized in that the current and / or the voltage of the cutting wire ( 6 ) by means of an optical color detection device having control circuit in dependence on the annealing state of the cutting wire ( 6 ) is regulated. Method according to one of claims 3 to 15, characterized that a deep discharge protection is used. Method according to one of claims 1 to 16, characterized that a Hochstrombegrenzer is used. Method according to one of claims 3 to 17, characterized in that the charge of the accumulator ( 10 ) by means of a charge gauge ( 11 ) is shown. Method according to one of claims 3 to 18, characterized in that the accumulator mounted replaceably on the cutting device ( 10 ) is replaced as needed. Cutting device for thermal insulation panels, in particular of foam material, with one on a frame ( 4 ) clamped, heated cutting wire ( 6 ), wherein a power supply device of the cutting wire ( 6 ) has a control circuit which for on-demand current and / or voltage application of the cutting wire ( 6 ) of the power supply device as a function of the operating state of the cutting wire ( 6 ), characterized in that the cutting device is designed for performing a method according to one of claims 1 to 19, wherein the control circuit, the current and / or the voltage of the cutting wire ( 6 ) such that at least one desired stand-by state of the cutting wire ( 6 ) which is responsible for a preheating temperature of the cutting wire ( 6 ) below its operating temperature.