DE3049343C2 - Device for liquefying a meltable adhesive - Google Patents

Description

The invention relates to a device for liquefying a rod-shaped and through in the solid state Heat exposure of meltable adhesive, with one a guide channel for the adhesive rod containing heatable body, the one in a second channel electrical heating device with an axial directional component is assigned which is at least the melting temperature of the in the guide channel Adhesive generates a corresponding temperature so that an adhesive rod pushed into the guide channel is liquefied during the insertion movement and at an opening point of the guide channel in liquid state emerges

Known devices of this type (see, for example, US Pat. Nos. 37 74 817 and 40 65 034) are mostly constructed as hand-held devices and enable the production of bonds with what is known as a hot-melt adhesive. This hot-melt adhesive is pushed into the guide channel in the form of an adhesive rod, and since the body containing the guide channel is heated by the electrical heating device to a temperature which at least corresponds to the melting temperature of the adhesive of, for example, 200 to 250 ° C, the adhesive is pushed into the The guide channel is first liquefied with its front end in the direction of insertion so that it can emerge in the liquid state by pushing the glue rod at the opening point of the guide channel and is available for producing a bond

In the previously known devices, a resistance heater is used as the electrical heating device provided, which is assigned a thermostat by which a predetermined maximum temperature is prevented from being exceeded. The resistance heating can be attached to the heatable body outside or in a recess and is made so that the heatable bodies as evenly as possible, d. H. is heated to the specified operating temperature at all points. The thermostat, for example, is on Bimetal switch, is assigned directly to the resistance heating and interrupts or closes the supply circuit for the resistance heating within a Range of predetermined upper or lower temperature, as is familiar to a person skilled in the art

In the practical application of the known devices, it is necessary, the heatable body heat up relatively long before inserting a stick of glue, so that it is guaranteed that it is on all Set has reached its specified operating temperature, so that a stick of glue is then inserted is liquefied as short a delay as possible. This leads to an undesirable energy requirement before the actual use of the device. In addition, it has also been shown that when you insert a Adhesive labes in the heated guide channel such a large temperature drop occurs that an additional temperature drop occurs even when the heatable body is preheated Delay until the liquefied adhesive emerges at the opening point of the guide channel caused. This also leads to uneven liquefaction of the adhesive, i.e. H. the at the beginning of a Operating cycle exiting from the guide channel

Glue may be thicker than the one below leaked adhesive, which gives rise to uneven gluing.

It should be noted that, for example, in the case of the US-PS 37 74 817 known device the diameter of the guide channel just where the heating resistor is presumably located is very large, so that a Reservoir for glue is designed therefore it must be assumed that the actual Guide channel liei of this known device is provided separately, while the reservoir is intended to receive already liquefied glue. This will too clearly characterized by the fact that in the known device a tube having the guide channel for preheating serves by absorbing heat from the heatable body. This principle is not suitable one way to avoid the disadvantages indicated.

It is the object of the invention to provide a device for liquefying an adhesive that is faster is ready for use, so that the energy supplied to it is better used, and irregularities in the Avoids viscosity grade of the emerging adhesive

This object is achieved according to the invention for a device of the type mentioned in that the electrical heating device is a PTC heating resistor that extends in the axial direction over a length extends which is a multiple of the mean guide channel diameter and that the heatable body in Vertical section has a width that is only slightly is larger than the diameter of the guide channel and the second channel

A PTC heating resistor, i.e. a resistor with a positive temperature coefficient, leads when connected to a supply voltage initially a relatively high current, which, however, increases very quickly with increasing Temperature drops to a low value This comes down to the demand for the lowest possible Power consumption during heating and in the standby state of the device against. You have this already used with soldering iron heating resistors to keep the cooling as low as possible during soldering and to keep the heat flow to the solder joint as even as possible (see e.g. Philips Technical Review 1969/70, No. 6/7, pages 192 to 200). The invention sees but now the use of such a PTC heating resistor in a very specific arrangement, namely with the directional component that is axial to the guide channel not at any point on the heatable body, but also in the direction of the Longitudinal axis of the guide channel over a relatively large length. The heatable body is designed in this way that it has the lowest possible mass This measure is based on the knowledge that a PTC heating resistor after reaching its specified operating temperature and cooling down again absorbs higher current, so that its electrical power consumption increases and the temperature increases again up to the specified operating temperature rises The arrangement of the PTC heating resistor in the above explained way now results from the consideration that when inserting an adhesive rod In the guide channel, initially in the area of the entry point, a cooling occurs, which occurs via the heatable body of low mass on the section of the PTC heating resistor immediately adjacent to this point is transferred practically immediately. This section only diminishes. by the drop in temperature accordingly quickly its resistance value, so that the associated increase in current and increase in the total electrical power consumed by the PTC heating resistor enters this electrical line

stung is now essentially due to the change in temperature distribution described recorded only by a section of the PTC heating resistor. The guide channel is thereby in a corresponding section temporarily

Not heated up as normal The result of this "shift" in the electrical power and thus a heating zone generated by the PTC resistor z. B. in the area in front of the inserted adhesive stick is that the adhesive rod melts faster at its front end and thus faster in the Guide channel can be inserted. At the same time it is also possible to use the glue stick earlier insert, because the "shift in performance" a temporary temperature increase or acceleration of the heating of the PTC heating resistor heatable body in an area -. is produced in the increased heat demand pitted. Through the The invention is therefore an optimal transmission of the control property of a PTC heating resistor associated effects achieved on the moving adhesive In addition to these associated with better energy utilization and more uniform viscosity of the adhesive The use of the PTC heating resistor leads to the effects inherent in these elements Advantages, i.e. a thermostat switch is superfluous, the device can be used without switching with different Operating voltages work and the power consumption in standby mode is comparative small amount.

There are different options for arranging the PTC heating resistor, depending on the type of resistor conceivable. A PTC resistance conductor in the form of a resistance cartridge can be installed in or on the heatable Body be arranged approximately parallel to the guide channel. Such an arrangement would be for example through given a PTC resistance ladder, which is in longitudinal direction of the guide channel is guided and can also have a U-shaped course to a larger To act on the surface of the heatable body. It is also possible to add so-called ground resistances use, in which case a resistance bar or a resistance track in the longitudinal direction of the guide channel runs.

The effect of temporary

so stronger agitation of a guide channel section can be further improved by the fact that the second Channel and the resistance cartridge tapering conically in the direction of insertion of the rod-shaped adhesive are trained. As a result, the heat transfer from the PTC heating resistor to the heatable body is in the front section of the device intensified and at the same time a tight fit of the resistance cartridge after being pressed into the second channel

The invention is explained in more detail below with reference to the drawing. In detail shows

F i g. 1 shows the section of a pistol-shaped hand-held device according to an exemplary embodiment of the invention,
F i g. 2 shows a vertical section 1-1 according to FIGS. 1 and 2
F i g. 3 shows an equivalent circuit diagram of a PTC heating resistor to explain the mode of operation of a device according to the invention.

In Fig. 1 shows a pistol-shaped hand-held device also known as a hot glue gun

and contains a heatable body 11 in a temperature-resistant plastic housing 10. This body 11 is For example, an aluminum die-cast part and has projections 12 with which it is in the housing 10 between appropriately molded ribs 13 can be held, which can also be used to anchor other elements can serve.

The heatable body 11 has an elongated guide channel 14, whose in FIG. 1 on the right The end is extended by a plug-in sleeve 15 made of a plastic material, for example made of silicone. the Insert 15 is on the right in Fig. 1 The end of the heatable body 11 is attached and guided to the outside of the housing 10. It enables the easy and shock-free insertion of an adhesive label 16 into the device and also ensures that no inexpedient heat loss by dissipating heat from the right end of the heatable body 11 occurs externally.

The guide channel 14 is as shown in FIG. 1 conically tapering from right to left and opens at the left end into a valve insert 17 which is provided with a mouthpiece 18 is which is the actual outlet opening 10 for the adhesive liquefied in a manner to be described having. The valve insert 17 contains a one-way valve in the form of a ball valve 20, the valve spring 21 of which allows a valve opening when a predetermined pressure from the guide channel 14 is applied.

The valve insert 17 can also be an aluminum die-cast part or made of another material, for example made of brass.

Under the guide channel 14, a second longitudinal channel 22 is provided in the heatable body 11, which is also designed to taper conically from right to left and is approximately parallel to the guide channel 14. It extends over the greater part of the length of the guide _{channel 14, in the illustrated embodiment over more than V 5 of} the length of the guide channel 14. A PTC resistor cartridge 23 is arranged in the second channel 22. It can be pressed into the channel 22 or, for example, glued or screwed into it. The PTC resistance cartridge 23 contains a PTC resistance conductor 24, which in the illustrated embodiment has a U-shaped course with loop formation in an approximately horizontal plane and is fed with electrical energy via two connecting lines 25 and 26. For this purpose, a connecting cable 27 is connected to the two connecting lines 25 and 26 via a connecting terminal 28.

Instead of a PTC resistance conductor 24 with a U-shaped Course, a ground resistance can also be provided within the resistor cartridge 23, Thus, for example, a resistance rod with a length corresponding to the resistance conductor 24 shown Length.

In Fig. 2 is the section 1-1 according to FIG. 1 shown. It can be seen that the housing 10 has two half-shells has, which are glued to one another, welded or can also be screwed (29 in Fig. 1). The guide channel 14 lies above the second channel 22, in which the PTC resistor cartridge 23 is arranged. It can be seen that the PTC resistor conductor 24 in the Resistance cartridge 23 is embedded and forms two branches by n U-shaped course. As electric insulating, but thermally conductive material for the Embedding the PTC resistance conductor 24 is, for example, aluminum oxide ceramic or even silicon in question. These substances can possibly also form a mixture.

The sectional view according to FIG. 2 shows

ι that the heat-transferring mass of the heatable body II between the guide channel 14 and the second channel 22 is small because the heatable body 11 is made relatively narrow, so that its width is only slightly larger than the diameter of the two

i <> channels 14 and 22 is.

3 shows schematically an electrical circuit with partial resistances Ru R '\ to R _n , R'". These series-connected partial resistors are connected to a supply voltage V so that a current determined by their resistance values / a corresponding conversion of electrical power into heat causes the partial resistors.

The arrangement of the resistance elements of FIG. 3 is to be understood that the two resistors -Ι * Ru R '\ within the resistance cartridge 23 as shown in Fig. I rightmost and the partial resistors R _n, R'"within the resistance cartridge 23 should be furthest to the left.

If an adhesive rod Ί6 is now inserted in the direction of the arrow shown in Fig. I - ') into the plug-in socket 15 and then into the guide channel 14, its front end first reaches the area of the section of the resistor cartridge 23 in which the partial resistances R \ , R \ may lie. The comparatively cool adhesive rod 16 causes a temperature reduction in the guide channel 14, which is first communicated to the section of the resistor cartridge 23 in which these partial resistors Ru R '\ are arranged. As a result, the resistance value of these partial resistances is reduced very significantly, which causes an increase in the current / consumed by the chain of resistors. The resulting increased electrical power must now be largely taken over by the remaining partial resistances, that is to say in example ¹ according to FIG. 3 of the TeilviüersUnden R _n _ /, R ' _n - < and R _n , R'n- These partial contradictions are in a section of the PTC resistor cartridge 23 in front of the stick 16 inserted into the guide channel 14 , in which the right section of the PTC resistor cartridge 23 considered first experiences a cooling, in the remaining section in front of the adhesive rod 16 a more intensive heating is caused, since fewer partial resistances in this area have to convert a higher electrical power into heat that the guide channel 14 is temporarily relatively overheated in front of the adhesive rod 16 inserted into it, so that the adhesive rod 16 is liquefied more quickly, j5 excessive undercooling of the guide channel 14 is prevented and an always uniform viscosity of the liquefied adhesive emerging at the mouth 19 It is also guaranteed that it is preheated to the specified operating temperature> o before insertion an adhesive rod 16 is not required, since the described temporary overheating of the guide channel 14 in front of an inserted adhesive rod 16 shortens the required waiting time.

The leakage of the liquefied adhesive takes place at the mouth opening 19 by being pushed in an adhesive rod 16 in the guide channel 14, a pressure is exerted on adhesive that has already been liquefied.

As soon as this pressure exceeds the force of the valve spring 21, the ball valve 20 opens. The conical Tapering of the guide channel 14 up to approximately the diameter of the ball valve 20 favors this Occurrence.

1 sheet of drawings

Claims (12)

Patent claims: 1. Device for liquefying a solid State of stick-shaped and heat-meltable adhesive, with a heatable one containing a guide channel for the adhesive stick Body to which an electrical heating device with an axial directional component is assigned in a second channel, which in the guide channel nal generated at least a temperature corresponding to the melting temperature of the adhesive, so that an adhesive stick inserted into the guide channel liquefies during the insertion movement is and exits at an opening point of the guide channel in a liquid state, thereby characterized in that the electrical heating device is a PTC heating resistor (23, 24) which extends in the axial direction over a length which is a multiple of the mean guide channel diameter ^, and that the heatable body (U) has a width in vertical section which is only slightly larger than the diameter of the Guide channel (14) and the second channel (22) is 2. Apparatus according to claim 1, characterized in that the PTC heating resistor (23,24) over at least ³ Z _{5 of} the length of the guide channel (14) extends 3. Apparatus according to claim 1 or 2, characterized in that a PTC resistance conductor (24) in the form of a resistance cartridge (23) in or on the heatable body (11) approximately parallel to the Guide channel (14) is arranged 4. Apparatus according to claim 3, characterized in that the two ie K .-. Nal (22) and the Resistance cartridge (23) tapers conically in the direction of insertion of the rod-shaped adhesive (16) are trained. 5. Apparatus according to claim 3, characterized in that the opposing country cartridge (23) in the second channel (22) is pressed in 6. Device according to one of the preceding claims, characterized in that the curable body (11) is an aluminum die-cast part 7. Apparatus according to claim 6, characterized in that the insertion opening of the guide channel (14) from an elastic insertion nozzle (15) is surrounded 8. Device according to one of the preceding claims, characterized in that the foot approximately channel (14) in the insertion direction of the rod-shaped adhesive (16) is conically tapered 9. Device according to one of claims 3 to 8, characterized in that the resistor cartridge (23) consists of an electrically insulating, however thermally conductive material such as aluminum oxide, ceramic or silicone or a mixture of these Substances 10. Device according to one of the preceding claims, characterized in that the PTC resistor is a ground resistor. 11. Device according to one of claims 7 to 10, characterized in that the plug-in nozzle (15) is slipped onto the end of the heatable body (U) having the insertion opening. 12. The device according to claim 11, characterized in that the plug-in nozzle (15) up to the Outside of a housing (10) accommodating the heatable body (11) extends