METHOD AND DEVICE FOR CONNECTING PROFILE PARTS

Abstract

A method for connecting plastic profile parts (2) brings into contact at least one profile part (2) and a heating surface (34) of a heating, element (36) so that the profile part (2) begins to melt in its welding area before it is joined together with the other profile part (2). A delimiting element (7) regulates the flow and deformation of the melt material. The delimiting element (7) has at least one contact element (21) and a molded part (22), which are movable both in relation to one another and in relation to the profile part (2). During the melting of the at least one profile part (2), the contact element (21) is movedtogether with the molded part (22)relative to the at least one profile part (2) and relative to the heating element (36) out of, a resting position in the direction of a working position, whereby at least the molded part (22) is kept in contact with the heating surface (34) and the contact element element (21) is, kept in contact with a profile surface (9). When a changeover is made from melting to compressing, the relatively movable contact element (21) is moved together with the molded part (22) in the direction of its working position so that the delimiting element (7) projects beyond a free front edge (4) of the at least one profile part (2) and creates a holding plane (37).

Claims

1. A method for connecting plastic profile parts (2), comprising: bringing into contact at least one profile part (2) and a heating surface (34) of a heating element (36) other in a joining direction in order to start to melt the at least one profile part (2) in its welding area before it is joined to the other profile part (2), moving, from a resting position to a working position relative to the at least one profile part (2) and relative to the heating element (36), a delimiting element (7), said delimiting element (7) comprising at least one contact element (21) and a molded part (22), both of which are movable towards each other as well as towards the profile part (2), while keeping at least the molded part (22) in contact with the heating surface (34) of the heating element (36) and keeping the contact element (21) in contact with a profile surface (9) as the welding area of the at least one profile part (2) is melted; and as the at least one profile part (2) is compressed for joining to the other profile part, moving the contact element (21)together with the molded part (22)of the delimiting element (7) in the direction of its working position so that the delimiting element (7) extends beyond a free front edge (4) of the at least one profile part (2) to create a holding plane (37).

2. The method according to claim 1, the contact element (21)together with the molded part (22)is moved at least in a direction parallel to the profile surface (9) of the at least one profile part (2).

3. The method according to claim 1, wherein the at least one profile part (2) is brought into contact with a profile stop (33) and wherein the contact element (21)together with the molded part (22)is moved horizontally into its working position and is brought into contact with the profile stop (33).

4. The method according to claim 1, wherein the at least one profile part (2) is brought into contact with the heating surface (34) of the heating element (36) before melting begins, and wherein the contact element (21)together with the molded part (22)is moved horizontally into its working position and the contact element (21) is brought into contact with the heating surface (34).

5. The method according to claim 1, wherein the contact element (21)together with the molded part (22)is moved along a melt path out of the working position back in the direction of the resting position during the melting off of the at least one profile part (2), and the molded part (22) of the delimiting element (7) remains in contact with the heating surface (34) of the heating element (36).

6. The method according to claim 1, wherein, at the beginning of the compression process, the relatively movable contact element (21)together with, the molded part (22)initially remains in the working position as the profile parts (2) are compressed, together along a compression path, and is then moved accordingly as it progresses along the compression path.

7. The method according to claim 1, wherein the welding area is profiled the contact element (21) after being connected to the other profile part (2) as the molded part (22) of the delimiting element (7) is moved relative to the contact element (21) in the direction of the welding area.

8. The method according to claim 1, wherein delimiting element (7)with its contact element (21) together with the molded part (22)is accommodated for relative movement in a receptacle (11) of a profile support (3).

9. A device for connecting plastic profile parts (2), comprising: a delimiting element (7) with which the flow and deformation of the melt material of a welding area of at least one profile part (2) to be joined to another profile part (2) can be regulated that is accommodated for relative movement in a receptacle (11) of a profile support (3), the delimiting element (7) comprises comprising a contact element (21) and a molded part (22), both of which are relatively movable towards each other as well as towards the at least one profile part (2), so that when the welding area of the at least one profile part (2) is compressed to the other profile part (2), the contact element (21)together with the molded part (22)is movable in the direction of its working position so that the delimiting element (7) extends beyond a free front edge (4) of the at least one profile part (2) to create a holding plane (37).

10. The device according to claim 9, wherein the receptacle (11) is open in the direction of a front face, and has a stop wall (13) opposite thereto, and wherein a base leg (14) extends from the stop wall (13) towards the front face (16), and the contact element (21) has a surface (8) in contact with a profile surface (9) of the at least one profile part (2) and the molded part (22) has an opposite surface (18) that rests against a base leg surface (19).

11. The device according to claim 9, wherein the molded part (22) has a projection (27) on its front face (17).

12. The device according to claim 9, wherein the molded part (22) has a profiled section (26) on its front face (17).

Description

DESCRIPTION OF THE DRAWINGS

[0044] The following is shown here:

[0045] FIG. 1 a partial sectional view of a device for connecting two plastic profile parts, for example, in a parallel-feed method; and

[0046] FIGS. 2 to 6 schematic diagrams of consecutive steps for connecting the two plastic profile parts shown in FIG. 1, with the device shown in FIG. 1.

DETAILED DESCRIPTION

[0047] FIG. 1 shows a device 1 for connecting two plastic profile parts 2, which hereinafter are referred to as profile parts 2 and which are made, for instance, of PVC. The device 1 has profile supports 3, a welding bench (not shown here) and clamping jaws (not visible here) as well as additional familiar partial devices. Each profile support 3 supports a profile part 2, whereby a profile support 3 or a profile support section is associated with each surface of the profile part 2 so that the profile part 2, as seen in the circumferential direction, is completely mounted and held in place over the entire circumference. The figures show only one profile support 3, both in the right-hand and in the left-hand drawing plane. Each of the free front edges 4 of each of the profile parts 2 have mitered cuts 6 which correspond to each other. The device 1 serves to produce, for example, window frames or door frames.

[0048] The device 1 has at least one delimiting element 7 that can be moved relative to the appertaining profile part 2. The surface 8 of the movable delimiting element 7 rests against the associated profile surface 9. FIG. 1 shows the delimiting element 7 in a resting position by way of an example. The delimiting element 7 depicted in FIG. 1 is configured in two parts and it has a cube-shaped configuration in the embodiment selected here.

[0049] The relatively movable delimiting element 7 is accommodated in a receptacle 11 that is arranged on the device 1, in other words, on the profile support 3, as can be seen in FIG. 1. The receptacle 11 is open towards a front face 12 of the profile support 3 and it has a stop wall 13 situated opposite thereto. A base leg 14 extends from the stop wall 13 in the direction of the front face 12. The base leg 14 is preferably configured in such a way that, after the set-up (FIG. 2) and/or before the beginning of the melting process (FIG. 3), its front face 16 is flush with a front face 17 of the relatively movable delimiting element 7. The dimensions of the delimiting element 7, in turn, are configured such that its surface 8, which is oriented towards the profile part 2, rests against the profile surface 9 while its surface 18, which is oriented opposite thereto, rests against the base leg surface 19. Consequently, the delimiting element 7 is relatively movable between the profile part 2 and the base leg 14 and it is mounted on the appertaining surfaces 9, 19, preferably without leaving any gap. For instance, the delimiting element 7 can be configured so as to be cube-shaped, plate-like or triangular, although the geometrical configurations are not limited to these.

[0050] In the resting position shown by way of an example, the front face 17 of the delimiting element 7 is at a distance from the front face 16 of the base leg 14. The delimiting element 7 is also at a distance from the stop wall 13. Of course, the delimiting element 7 can also rest against the stop wall 13 when it is in its resting position.

[0051] As can be seen in FIGS. 1 to 6, the delimiting element 7 is configured in two parts and it has a contact element 21 and a molded part 22, both of which can be moved relative to each other.

[0052] The contact element 21 has an essentially triangular structure, whereby its base surface 23 can be configured as the sliding surface for the molded part 22. The molded part 22 likewise has an essentially triangular structure, whereby its basic surface 24 can be configured as the counter-sliding surface to the base surface 23. As can be seen in FIG. 1, the corresponding surfaces 23 and 24 are arranged so as to run at a slant, in other words, preferably at an angle of 45 relative to the profile surface 9. Of course, this value for the angle is only given by way of an example and should by no means be construed as being of a limiting nature.

[0053] Moreover, the front face 17 of molded part 22 has a profiled section 26 (FIG. 5) corresponding to the front face of the delimiting element 7. For instance, this profiled section is pointed, whereby the front face 17 has a projection 27. This projection 27 ensures that the delimiting element 7 remains in contact with the base leg surface 19, as can be seen in each of FIGS. 2 to 4. In an advantageous manner, the projection 27, of course, is also arranged on the delimiting element 7, which is configured as a single part, as can be seen in FIG. 1. Naturally, the profiled section 26 can also be configured so as to be flattened, that is to say, virtually stamp-like. The configuration depends on the shape of the groove that is to be created. Corresponding contact surfaces 28 of the appertaining, molded parts 22 can be seen against which the appertaining molded parts 22 can rest without leaving any gap.

[0054] As can be seen in FIG. 1, the movable delimiting element 7 is mounted on the appertaining profile support 3 (double-headed arrow 31) in a horizontal direction (double-headed arrow 29 that is parallel to but independent of the movement of said profile support 3. Here, one can see the surface 8 that rests against the profile surface 9, whereby an adequate mounting on the base leg 14 opposite thereto is sufficient for this purpose, which is why the projection 27 is configured accordingly.

[0055] By way of an example, FIG. 1 shows a parallel-feed method for connecting profile parts 2, which can be recognized by the two double-headed arrows 31. The two elements of the delimiting element 7i.e. the contact element 21 and the molded part 22are relatively movable towards each other, which is indicated by means of the double-headed, arrow 32 (FIGS. 2, 5 and 6).

[0056] FIG. 2 shows the set-up of the device 1, whereby the two profile parts 2 are each brought into contact with a profile stop 33. As can be seen here, during the set-up, the relatively movable delimiting element 7 is moved horizontally into its working position and brought into contact with the profile stop 33. In this process, the front face 17 of the delimiting element 7, that is to say, its molded part 22, is flush with the front face 16 of the base leg 14. The contact surface 28 of the molded part 22 is flush with the appertaining front edge 4 of the appertaining profile part 2. The contact surface 28 of the molded part 22 is in contact with the profile stop 33.

[0057] Once the set-up has been completed, the heating element 34, which has a heating surface 36 on both sides, is put into use. At the beginning of the melting process (FIG. 3), both profile parts 2 are brought into contact with the heating surface 34 of the heating element 36. The relatively movable delimiting element 7i.e. the contact element 21 together with the molded part 22can be moved horizontally so as to be brought into contact with the heating surface 34 of the heating element 36 before the beginning of the melting process. In this context, the front face 17 of the delimiting element 7i.e. its molded part 22is flush with the front face 16 of the base leg 14. The contact surface 28 of the molded part 22 is flush with the appertaining front edge 4 of the appertaining profile part 2. The contact surface 28 of the molded part 22 rests against the heating surface 34.

[0058] The melting-off process can begin. During the melting-off process, the front edges 4 of the two profile parts start to melt. During this partial melting, the contact surfaces 28 of the molded part 22 that rest against the heating surface 34 remain, in contact with the appertaining heating surface 34. In this process, the profile parts 2 are each pressed against the heating surface 34. This melt path is equalized by the movable delimiting element 7 in that the latter is moved in the direction of the stop wall 13.

[0059] In the invention, the movable delimiting element 7i.e. the contact element 21 together with the molded part 22is movable relative to the appertaining profile part 2 and relative to the heating element 36, also during the partial melting.

[0060] FIG. 4 shows the state of the end of the melting process at which time the profile parts 2 have been sufficiently melted. In this context, the delimiting elements 7i.e. the contact element 21 together with the molded part 22were moved out of the working position back towards the stop well 13 along the melt path. However, during the partial melting and until the end of the melting process, the contact surfaces 28 of the molded parts 22 always remained in contact with the appertaining heating surface 34, which can also be seen in the end of the melting process shown in FIG. 4. The front face 17, however, is at a distance from the front face 16 of the base leg 14.

[0061] This makes it possible to advantageously regulate the flow of the melt material during the partial melting, that is to say, in the direction of the profile surface 9, which constitutes an external exposed surface.

[0062] After the partial melting process, a changeover is made to compression. In this process, there is a risk that the melt material might flow towards the profile surface 9, that is to say, towards the outside. Such a flow is prevented according to the invention in that the molded part 22 is moved in the direction of the working position so that its base surface 23 extends beyond the partially melted free front edge 4 of the appertaining profile part 2, in other words, the welding area, in such a way that a holding plane 37 is formed, as depicted in FIG. 5. In this position, the surface 18 of the molded part 22 is at a distance from the base leg surface 19, in other words, it is virtually raised.

[0063] FIG. 5 shows the changeover from melting to compression, whereas the heating element is still situated between the partially melted profile parts 22.

[0064] In the embodiment shown in FIG. 5, the molded part 22 has been moved relative to the contact element 21 along the corresponding base surface 23 in the drawing plane upwards at a slant in such a way that an inclined holding plane 37 is formed. However, it is likewise possible for the contact element 21 to be moved together with the molded part 22 in the direction of the working position so that the surface 8 of the contact element 22, i.e. the delimiting element 7, forms the holding plane 37 that would then be at the same level as the profile surface 9.

[0065] Both approaches allow a regulation of the melt material, whereby the inclined holding plane 37 can also provide protection against dripping.

[0066] The changeover procedure is followed by compression, as depicted in FIG. 6. Here, both profile parts 2 are moved with their partially melted front edges 4 towards each other, in other words, they are pressed against each other. It can be seen that the delimiting elements 7 according to the invention execute this movement accordingly. In this process, the contact surfaces 28 of the molded parts 22 are brought into contact with each other as the movement of the profile parts 22 progresses, whereby the contact surfaces 28, which are resting against each other, remain in contact until the end of the compression process, so that the flow of the melt material is regulated.

[0067] It is possible to move the molded parts 22 along the compression path in such a way that the melt material is level at first, that is to say, at the same level, as the profile surface 9. The return movement of the molded part 22 brings about a corresponding movement of the contact element 21.

[0068] The two profile parts 2 are preferably moved towards each other to such an extent, in other words, they are compressed, until the front faces 16 of the base leas 14 are resting against each other. The front faces 17 of the appertaining delimiting element 7, i.e. also of the molded part 22, are offset into the interior of the receptacle 11 with respect to the front face 16. The contact surfaces 28 are likewise in contact with each other.

[0069] Once the compression process has been completed, the molded part 22 can be moved again along the base surface 23 towards the melt material (FIG. 6, double-headed arrow 32), so that the profiled sections 26 of the molded parts 22, which rest against each other, create an appertaining groove in the melt material. This state can be seen in FIG. 6, where the molded part 22, whose surface 18 is oriented towards the base leg surface 19, is slighted raised.

[0070] The invention dispenses with the secondary finishing that has been necessary until now and that has been aimed at removing the weld bead that had actually formed on the profile surface 9, since such a weld bead is advantageously avoided by the invention. Moreover, simultaneously with the creation of the profile connection, a groove is embossed into the melt material, so that also in this respect, it is possible to dispense with secondary finishing workif not altogether, then at least to a considerable extent. Any burrs that might still be present can then be removed. The savings in terms of the cycle times in the production of the door frames or window frames are also quite considerable.

LIST OF REFERENCE NUMERALS

[0071] 1 device for connecting plastic profiles

[0072] 2 plastic profile part

[0073] 3 profile support

[0074] 4 front edge of 4

[0075] 5

[0076] 6 mitered cut

[0077] 7 delimiting element

[0078] 8 surface of 7

[0079] 9 profile surface of 2

[0080] 10

[0081] 11 receptacle

[0082] 12 front face of 3

[0083] 13 stop wall

[0084] 14 base leg of 11

[0085] 15

[0086] 16 front face of 14

[0087] 16 front face of 7

[0088] 18 surface of 7

[0089] 19 base leg surface

[0090] 20

[0091] 21 contact element

[0092] 22 molded part

[0093] 23 base surface of 21

[0094] 24 basic surface of 22

[0095] 25

[0096] 26 profiled section of 22

[0097] 27 projection

[0098] 28 contact surface of 22

[0099] 29 double-headed arrow

[0100] 30

[0101] 31 double-headed arrow

[0102] 32 double-headed arrow

[0103] 33 profile stop

[0104] 34 heating surface

[0105] 35

[0106] 36 heating element

[0107] 37 holding plane