DE19700518C2 - Device and method for deforming thermoplastic material for connecting two components - Google Patents

Abstract

Thermoplastic material is deformed to form an attachment between at least two components by a head which applies pressure by contact and which supplies the required energy for thermoplastic deformation. The head is a light-transmitting arrangement and is connected to a light source. It has a surface from which light emerges and which is a suitable size so that light energy is deposited on the thermoplastic material to be deformed.

Description

The invention relates to an apparatus and method for deforming thermoplastic material, the firm connection between at least two Components is used with a head part that is pressurized with the part to be deformed Material can be brought into contact and via the one for thermoplastic deformation required energy input into the material takes place, the head part over a light-conducting arrangement is connected to a light source and a Has light exit surface, which is dimensioned such that over the light exit surface targeted light energy to the location of the thermoplastic material to be deformed can be deposited.  

The connection of two components makes the assembly more precise microtechnical products is an everyday task that depends on the available components to be solved using known joining techniques. Components that are preferably made of metal are often prepared Plastic injection molded parts used. A firm decision or fixation of the Metal components in the plastic injection molded parts are usually made by Plastic rivets provided at suitable locations on the plastic injection molded part are. The metal parts point at the points on the plastic injection molded part Plastic rivets are provided on corresponding openings, so that the Metal parts can be placed over the molded plastic pins that then be thermoformed, creating a firm bond can be achieved between the metal part and the plastic injection molded body.

With the help of a suitable tool, the individual plastic rivets heated and pressurized accordingly, so that they are inside and against deform the openings provided in the metal part. Warming and The plastic pins are pressed on with the help of so-called ultrasound units which the energy for melting the plastic via a sonotrode is introduced.

Sonotrodes are made of titanium for better durability Tools that significantly increase the Determine the cost factor in tool technology. In dependency of different component geometries of the available components and the number the welding points to be joined is a separate sonotrode for each application to manufacture. This is the case for economic reasons alone Joining process with the help of the ultrasound units described above a very costly variant of the joining technology.

In addition, the components available carry so-called functional groups, the for example from mechanically sensitive electronic circuits  exist, the ultrasonic welding process described above can a lasting influence on the later function of the individual circuits lead to failure of the individual components.

In addition to the use of ultrasonic energy, there is also the use of light energy for disposing two components using thermoplastic materials known. GB 2 278 571 A thus describes a method for connecting two Components that are connected via a thermally deformable pin. By Targeted heat radiation with the help of a lamp melts and can to have the two components together.

A device for disposing two plate-shaped components made of different resin material emerges from European publication EP 0 159 170 A2. With the aid of a suitable light guide arrangement, the two components lying on top of one another are melted locally, the melted material forming a kind of crater rim which is already able to bring the two components into a fixed connection with one another. Advantageously, both components can also be combined with suitable, meltable, thermoplastic powder, as is shown, for example, by the embodiment according to FIG. 8 of the document. Although it can be seen from the publication that light can be used at locations of thermoplastic material for disposing two components, it remains open whether and in what way a targeted pressurization of the location to be connected takes place with the aid of the light guide arrangement described in the publication.

The object of the invention is a device and a method for deforming thermoplastic material, preferably plastic rivets, that of the solid Serve connection between at least two components, with a head part, the pressurized can be brought into contact with the material to be deformed and over which is a necessary energy input for the thermoplastic deformation in the Material is developed in such a way that, on the one hand, the manufacturing costs of a  such device should be significantly reduced. In particular, during of the deformation a targeted dose of pressure on the joint done to improve the joint connection without too much or too little Apply pressure to the joint. For the joint connection should commercially available materials can be used, the cost factor of which is only one play a minor role with regard to the manufacturing costs of such a device should. Furthermore, the energy input required for the plastic deformation should be limited as locally as possible to the positions available without the the immediate vicinity of the joint is negatively affected.

The solution to the problem underlying the invention is in the independent Claims 1 and 13 indicated. Claim 1 relates to a Device according to the invention for deforming thermoplastic material, Claim 13 to a method for producing an advantageously trained Device for deforming thermoplastic material. The advantageous the inventive idea further education features are the subject of the subclaims.

By developing new types of radiation sources in the high-performance range, For example, diode lasers and diode-pumped solid-state lasers can Technology of plastic riveting simplified and in terms of influencing of the components can be significantly improved.

The principle underlying the invention is based on the melting of Plastic pens by heating with light radiation, preferably laser radiation and simultaneous shaping of the plastic pin by pressing the pin with for example the optical fiber through which the light is guided onto the plastic pin becomes.

According to the invention is a device for deforming thermoplastic Material that serves the fixed connection between at least two components with  a head part that is pressurized in contact with the material to be deformed is feasible and the one necessary for thermoplastic deformation Energy input into the material takes place, the head part via a light-guiding Arrangement is connected to a light source and has a light exit surface, which is dimensioned such that targeted light energy to the Location of the thermoplastic material to be deformed is thereby deposited further developed that the head part from an adjusting screw, a guide sleeve, a spring arrangement and a holding sleeve that the light-guiding arrangement firmly includes that the adjusting screw and the guide sleeve over one Thread are connected that the light-guiding arrangement, the adjusting screw and passes through the guide sleeve centrally and the light-guiding arrangement relative to Adjusting screw and the guide sleeve is movable in its axial direction, and that a spring is provided between the holding sleeve and the adjusting screw surrounds the light-guiding arrangement and with its one spring end on the holding sleeve and with its other end on the adjusting screw or an intermediate washer is present, which is provided between the adjusting screw and spring such that the The washer surrounds the light-guiding arrangement in the manner of a snug fit.

Through the targeted light application to the joints to be deformed disposal of two components without lasting influence on the possible in the immediate vicinity of the joint. Here, light is immediately on a plastic rivet is deposited, which locally melts the rivet.

To prevent material buildup on the light exit surface of the optical fiber bundle Avoiding melted material is preferably an optical one transparent intermediate layer between the plastic rivet to be deformed and the Provide light exit surface of the optical fiber bundle.

Alternatively, the area to the light exit surface of the optical fiber bundle is through a solid glass rod or through a solid, optically transparent material form.  

The device according to the invention provides a head part, the one the optical fiber surrounding adjusting screw and an associated guide sleeve, the are arranged movably in the fiber longitudinal axis. Immediately the adjusting screw downstream is a spring surrounding the optical fiber, which is fixed on one side to a on the outer circumference of the fiber optic bundle, a fixed holding sleeve Finds counter bearing. The light exit surface of the optical fiber bundle protrudes something beyond the guide sleeve surrounding the bundle, so that the Glass fiber bundle by lowering the adjusting screw or guide sleeve dosed pressurized against a thermoplastic to be deformed can be. A further description of the head part designed in this way as well as its functioning takes place within the framework of the description of the figures.

The head part of the device according to the invention also offers the Possibility according to the invention, several devices for deforming thermoplastic material with each other in a fixed predetermined spatial Of a corresponding variety of rivets available, the are provided on the components to be connected.

According to the invention, in order to produce such a spatially fixed arrangement, consisting of a variety of joining devices according to the invention, the following Steps to perform:

Two available components are put together and at least the Areas in which the two components are to be used with one another Mold enclosed. First, a separating layer is placed in the mold, for example, a silicone layer. Then the Places where plastic pins are provided for the two components are positioned for deforming devices according to the invention. In one Another step is the rest of the mold, preferably with a self-curing Filled material that after hardening the individual according to the invention Devices guaranteed an immovable spatial assignment. After this Solidification of the material becomes the hardened form obtained in this way, in which the  Head parts of the individual joining devices only on the outer wall of the Adjusting screw and holding sleeve are taken from the components to be connected removed and you get a total joining tool that the Negative form of two available components corresponds to and individual Joining tools provides everywhere where the available components Provide joint connections. The multitude brought in the hardened form Joining tools can be exposed to light simultaneously or one after the other be so that the individual joining processes are controlled and controlled can.

Different laser beam sources are preferably used as light sources used such. B. diode laser, Nd: YAG laser, COT2T laser and depending of the plastic used laser, which for increased absorption a have the corresponding wavelength. In addition, others can Radiation sources, such as B. Xenon lamps, with a corresponding power density be used.

The invention is hereinafter described without limitation of the general The inventive concept based on exemplary embodiments with reference to the Drawing described as an example. Show it:

Fig. 1a, b, c process steps for connecting two components,

Fig. 2 schematic representation of a device according to the invention for deforming thermoplastic material, and

FIGS. 3a-f process steps for producing a mold having a plurality of devices for deforming the thermoplastic material.

In the image sequences according to FIG. 1, a lower plastic injection molded part 1 is provided, which has a plastic pin 2 . A with the plastic injection-molded part 1 second component to be connected 3 is so placed on the plastic injection-molded part 1, so that the plastic pin 2 protrudes through a corresponding opening of the metal part. 3

The device according to the invention for deforming thermoplastic material to be used essentially for a light application, which in the case of the illustration according to FIG. 1 is a plastic pin, is placed vertically from above according to figure 1 a on the plastic pin 2 . An optically transparent intermediate layer, not shown in FIG. 1, is preferably introduced between the device 4 according to the invention and the plastic pin 2 , in order to avoid any material buildup on the light exit surface of the device 4 according to the invention.

In Fig. 1b, the plastic pin 2 is successively heated by light from above. The heated part of the plastic pin 2 is deformed by corresponding pressure exertion according to the partial image representation 1 c, so that there is a riveted connection between the components 1 and 3 .

The inventive method for connecting two components with the help of targeted Light application for thermal deformation of suitable plastic pins allows a gentle connection between two components, so that the Junction surrounding environment not affected becomes.

In Fig. 2 is a device designed according to the invention is shown for deforming the thermoplastic material. An optical fiber bundle 5 opens into a head part 6 , which provides the following components: an adjusting screw 7 is axially movable relative to the optical fiber 5 or a glass rod 8 provided in the head part, which is optically coupled to the optical fiber 5 . The guide sleeve 10 is connected to the adjusting screw 7 via a thread 9 in such a way that the length of the guide sleeve 10 protruding from the adjusting screw 7 can be varied in accordance with the size of the depth of the thread 9 . The adjusting screw 7 rests on a washer 11 , which fits slidingly against the outer circumference of the glass rod 8 . A pressure spring 12 rests with its upper end on the pane 11 and with its opposite end against a holding sleeve 13 which is fixedly attached to the outer circumference of the glass rod 8 .

The contact pressure required for the joining process described in connection with FIG. 1 can be obtained by lowering the head part or the adjusting screw 7 together with the guide sleeve 10 against the components available. The contact pressure, which is exerted on the available location via the light exit surface of the glass rod 8 , can be adjusted by suitable spacing of the guide sleeve 10 from the components to be provided with the aid of suitable twists in the thread 9 .

A clamping bracket 14, which is preferably made of metal, serves on the one hand to fix the glass pin 8 or the glass fiber 5 and is located above the adjustment screw 7 . On the other hand, the clamping bracket 14 preferably has an electrical contact 15 , which generates a control pulse upon corresponding fiber movement on the adjusting screw 7, which is also preferably made of metal, and is appropriately contacted, which is sent to an external light control. In this way, the disposal process can be monitored. By coupling an electrical contact to the fiber fixation above the adjustment screw, a simpler process monitoring can be realized. When the rivet is compressed, the end position is detected by a contact between the clamping screw and the adjustment screw. After actuation of the contact, the laser beam can be directed onto another fiber or the joining process can be stopped.

In addition to the embodiment of a joining tool according to the invention shown in FIG. 2, other spring-guided fiber pressure mechanisms can also be implemented. Here, for. B. the glass pins or fibers on leaf springs, which are fixed in a holder, are pressed onto the rivet. Furthermore, with simple joining geometries, the pressure can be achieved using a continuous glass plate.

To carry out the disposal at several joints between two connecting components simultaneously becomes an auxiliary construction according to the invention requires an exact spatial allocation of several joining tools to each other, which corresponds to the individual joint connection points on the components, allowed.

For the manufacture of such an arrangement, reference is made to FIG. 3. In Fig. 3a, the two available components 1 and 3 are brought one above the other so that the joining pins 2 are aligned in the corresponding recesses of the component 3 . According to FIG. 3b, a casting mold or a mounting frame 16 is attached around the connection area of the two components 1 and 3 , in which a silicone layer 17 designed as a separating layer is introduced according to FIG. 3c. Then the head parts of the individual joining tools are positioned at the corresponding joining points. In a further process step, the remaining area of the mold 16 is filled with preferably a self-curing material, for example an epoxy resin E.

After the epoxy resin has hardened as shown in part in FIG. 3d, it can be seen that the individual joining tools are given a fixed spatial assignment. The epoxy layer E is removed from the two components available and is additionally freed from the silicone layer 17 according to FIG. 3e. According to FIG. 3f, the glass rod tips look out on the underside of the hardened mold. Only the outer walls of the guide sleeves and adjusting screws are surrounded by the hardened material.

For further joining processes, the one prepared in the above way Joining tool installed in a positioning device that z-movement of the  Joining tool permits. The further joining process can be done as follows describe:

Place the joining tool obtained above in contact with the individual joints to be joined. Such a position can, for example, with the help an auxiliary pin with an electrical contact to control the Joining tool can be detected. Then a defined pressing takes place by positioning the shape vertically along with the individual joining tools below on the components to be connected. Depending on the position of the adjustment screw individual joining tools can have different compressive forces on the individual joints or rivets. After irradiation of the individual plastic pens with preferably laser radiation are the individual Pins warmed and deformed accordingly. The following can be different Radiation strategies are used:

Either the individual optical fiber bundles are sequentially illuminated with the light from Diode laser, Nd: YAG laser, COT2T laser or other light sources irradiated. The successive irradiation of the individual optical fibers with the help of itself Known scanning techniques allow the use of only a single light source.

When using multiple light sources, the individual optical fiber bundles be irradiated simultaneously or the light from a light source is turned on accordingly the number of individual optical fiber bundles divided at the same time.

The method described above for connecting two components with the aid of thermoplastic deformation has a number of advantages, which lie in particular in the flexible process control and in the fact that the component itself is not influenced by the joining process. The individual advantages are as follows:

• 1. Flexible joining geometry by adapting the radiation positions to the respective plastic pins.  
• 2. Simple reusable joining tools by a special Technology can be adapted to the joining geometry.
• 3. No strong external forces or vibrations caused by the Joining technology.
• 4. Better adjustment of the joining parameters such as time and temperature to the different heat conduction conditions of different thicknesses Plastics.
• 5. Possibility to monitor the joining process through online Temperature control or control of the pressing process.

Claims (13)

1. Device for deforming thermoplastic material, which serves for the firm connection between at least two components, with a head part, which can be brought under pressure under pressure with the material to be deformed and via which a necessary energy input for the thermoplastic deformation occurs in the material, wherein the head part is connected to a light source via a light-guiding arrangement and has a light exit surface which is dimensioned such that light energy can be deliberately deposited at the location of the thermoplastic material to be deformed via the light exit surface, characterized in that the head part consists of an adjusting screw ( 7 ) , a guide sleeve ( 10 ), a spring arrangement ( 12 ) and a holding sleeve ( 13 ) which firmly encloses the light-guiding arrangement,
that the adjusting screw and the guide sleeve are connected by a thread,
that the light-guiding arrangement passes through the adjusting screw and the guide sleeve centrally and the light-guiding arrangement is movable relative to the adjusting screw and the guide sleeve in its axial direction, and
that a spring is provided between the holding sleeve and the adjusting screw, which surrounds the light-conducting arrangement and rests with its one spring end on the holding sleeve and with its other end on the adjusting screw or an intermediate washer, which is provided between the adjusting screw and spring in such a way that the washer surrounds the light-guiding arrangement in the manner of a snug fit. 2. Device according to claim 1, characterized in that between the material to be deformed and the Light exit surface an optically transparent intermediate layer to avoid Material buildup on the light exit surface is provided. 3. Device according to claim 1 or 2, characterized in that the light-guiding arrangement in the direction of Light exit surface protrudes above or closes with the holding sleeve.   4. Device according to one of claims 1 to 3, characterized in that a clamping bracket is provided which is fixed around the light-conducting arrangement is attached spaced from the adjusting screw. 5. The device according to claim 4, characterized in that the clamping bracket has an electrical contact has, which is connected to a control unit, the light source in such a way controls that when there is contact between the clamp and the adjusting screw the light source goes out. 6. Device according to one of claims 1 to 5, characterized in that the light-guiding arrangement is an optical fiber. 7. Device according to one of claims 1 to 6, characterized in that the light-guiding arrangement in the area of Head piece is designed as a glass rod or quartz rod. 8. Arrangement with at least two devices after one of claims 1 to 7, characterized in that a fixing unit is provided in which at least two devices for deforming thermoplastic material in a solid mutual spatial assignment are arranged. 9. Arrangement according to claim 8, characterized in that the fixing unit made of self-curing or external influences using UV light or heat-curing material or from a mechanical holding device. 10. Arrangement according to claim 9, characterized in that the self-curing material is only external Parts of the adjusting screw and the guide sleeve includes.   11. The device according to one of claims 1 to 10, characterized in that the light source is a laser or a High energy lamp is, for example, a xenon lamp. 12. The device according to claim 11, characterized in that the laser is a diode laser, Nd: YAG laser or COT2T laser that can be operated pulsed or continuously. 13. A method for producing the arrangement with at least two devices according to one of claims 8 to 12, characterized by the combination of the following method steps:

• 1. assembly of the two components to be connected, which are enclosed by a casting mold that surrounds at least the connecting regions of the components,
• 2. introducing a separating layer covering the components into the casting mold,
• 3. Positioning devices for deformation at the connection points,
• 4. Pouring the mold with self-hardening material, after solidification, detaching the self-hardening material together with the fixation devices fixed in it from the intermediate layer.