CA2561197C

CA2561197C - Spool, brake and electric motor

Info

Publication number: CA2561197C
Application number: CA2561197A
Authority: CA
Inventors: Pascal Heinrich; Gerhard Floerchinger; Laurent Criqui; Jean-Pierre Lambling; Gerd Schueler
Original assignee: SEW Eurodrive GmbH and Co KG
Current assignee: SEW Eurodrive GmbH and Co KG
Priority date: 2004-05-04
Filing date: 2005-04-04
Publication date: 2011-01-04
Anticipated expiration: 2025-04-04
Also published as: JP4886677B2; JP2007536751A; CN1950987B; CA2561197A1; AU2005241611B2; BRPI0509618A; US7839252B2; AU2005241611A1; DE102004022254B3; US20070222312A1; EP1745539A1; EP1745539B1; BRPI0509618B1; CN1950987A; WO2005109606A1

Abstract

A spool including at least one bobbin and one winding wire, especially a winding wire lacquered for electrical insulation, the bobbin including at least one channel, especially one developed as a pocket, at least one sleeve being electrically connected to the winding wire, the sleeve being electrically connected to an electrical line, especially a stranded conductor of a cable, the sleeve including deformable regions, for producing the electrical connections, a respectively deformable region being deformable in such a way that a force--locking connection is provided and welding is able to be carried out.

Description

SPOOL, BRAKE AND ELECTRIC MOTOR
FIELD OF INVENTION

The present invention relates to a spool, a brake and an electric motor.

BACKGROUND OF INVENTION

Bobbins for spools wound with winding wire are generally known.

A brake coil having a center tap (Figure 4, reference numeral 6) is known from DE 36 13 294, which is usable as a brake for an electric motor. It is a disadvantage, in this case, that manufacturing it is effortful and costly. It is important, in this context, that each additional contact of the winding wire causes effort and costs during manufacturing.

The connecting of wire is known from DE 79 23 585 U1, the winding wire of the spool having to be wound around the pin-shaped end several times ("wind around" page 4, 3rd paragraph, lines 4-5) and then soldered on. This requires too much effort and is costly.

A hook on a connecting piece is known from DE 34 07 758 Al, which is provided to guard against pulling out (E2, page 9, line 11). It is a disadvantage, again, that connecting the winding wire requires much effort and is complicated.

SUMMARY
The present invention is therefore based on the object of further developing a spool so as to make it more cost-effective and simpler to manufacture, especially including 21559319.2 contacting. This also relates particularly to spools having a plurality of taps, especially at least one center tap.

In the present invention, the principal features in the spool are that it includes at least one bobbin and one winding wire, especially a winding wire lacquered or enameled for electrical insulation, the bobbin including at least one channel, especially one developed as a pocket, at least one sleeve (or bush or bushing) being electrically connected to the winding wire, the sleeve being electrically connected to an electrical line, especially a stranded conductor of a cable, the sleeve including deformable regions, for producing the electrical connections, a respectively deformable region being deformable in such a way that a force-locking connection is provided and welding is able to be carried out.

It is of advantage, in this context, that the sleeve makes possible a cost-effective type of electrical connection. In particular, the sleeve itself is able to be produced as a cost-effective punched bent component made of sheet metal.
Since it has deformable regions, using these regions, winding wire sections or stranded conductor sections are able to be clamped, that is, able to be connected by force-locking.
Welded joints are then able to be produced by appropriate heating. Using additional deformable regions, other parts of the cable are also able to be clamped, which makes strain relief implementable for the cable having the stranded conductor.

21559319.2 2 In particular, the sleeve includes at least one first support region which is provided as support and/or guidance for the winding wire, the sleeve including at least one second region, designed as a tab, which is deformable for the force-locking connection to the winding wire and is providable for producing a welded joint to the winding wire, the sleeve including at least one third region, especially a wall part region, which is provided for a welded joint to the stranded conductor of a cable.

The advantage is that the winding wire is easy to thread in and then gets to lie on the support surface, that is, it is able to be accurately positioned. In this way, the threading is able to be carried out so well by the shaping of the sleeve that the winding wire is introduced into the second region, that is, the region of the deformable tab. The latter is deformable, that is, it is particularly easily pressed against a wall part for clamping, that is, the force-locking connection of the winding wire to the sleeve. But then, the clamped winding wire is able to be quickly and simply welded.
The welded joint is well protected against stressing forces, because the force-locking connection continues to be effective, and thus unloads the welded joint.

The fact that the sleeve has an additional region for a welded joint to the stranded conductor of the cable, has the advantage that, at the sleeve itself, a stable region is realized that is suitable for a welded joint, and consequently no further additional parts are required for the welded joint of the stranded conductor of the cable.

In one advantageous embodiment, the sleeve is a metallic punched bent component. In particular, the sleeve is suitably developed for producing an electrical connection between the 21559319.2 3 winding wire and the electrical line or a stranded conductor.
This has the advantage that a conductive metal and a metal that is especially suitable for producing a welded joint may be selected, and which is also cost-effective and is able to be manufactured by a punching and bending process.

In one advantageous embodiment, the sleeve is able to be fastened in the bobbin with force-locking and/or form-locking.
In particular, the sleeve includes at least one barb, especially for hooking into the channel. This has the advantage that the fastening is able to be achieved using simple and cost-effective means.

In one advantageous embodiment, the sleeve includes at least one first region, especially a region developed as a tab, which is provided as a support and/or guidance for the winding wire. This has the advantage that manufacturing faults can be minimized, since the winding wire is able to be positioned securely and reproducibly, with great accuracy.

In one advantageous embodiment, the sleeve includes at least one second region, especially a region designed as a tab, which is deformable for the force-locking connection to the winding wire and is providable for producing a welded joint to the winding wire. This has the advantage that a good electrical connection is providable, using the simplest and most cost-effective means.

In one advantageous embodiment, the sleeve includes at least one third region, especially a region designed as a tab, which is deformable for the force-locking connection to a stranded connector, especially of a cable, and is providable for producing a welded joint to the stranded connector. This, in turn, has the advantage that a good electrical connection is providable, using the simplest and most cost-effective means.
21559319.2 4 In one advantageous embodiment, the sleeve includes at least one fourth region, especially a region designed as a tab, which is deformable for the force-locking connection to a cable, especially to the insulation of the cable, and is providable for producing a welded joint to the stranded connector. This has the advantage that a strain relief is providable, using the simplest and most cost-effective means.
In one advantageous embodiment, the lacquering of the winding wire is removable when producing a welded joint at least in the vicinity of the electrical contact area, especially because of the heating that occurs during the production of the welded joint. This has the advantage that no special stripping operating step is required, but just the welding is sufficient.

In one advantageous embodiment, the regions are connected at a wall part. This has the advantage that the regions are able to be held together in a stable manner, using the wall part.

In one advantageous embodiment, the spool includes a center tap. This has the advantage of one's being able to realize particularly rapidly switchable brakes.

In one advantageous embodiment, the spool includes encapsulating material, especially in the area of the channel and/or the winding. The advantage is that chemical and mechanical protection is achievable. Besides that, the electrical insulating values are also able to be improved, in response to a suitable choice of the encapsulating material.
In one advantageous embodiment, the bobbin includes a holding device for winding wire and/or cable. This has the advantage that the holding device is able to be produced already at the injection molding production of the bobbin, and thus no further operation is required.
21559319.2 5 Further advantages are derived from the dependent claims.
Principal features of the present invention, with regard to the brake, are that the brake coil is developed in the manner of the above-named spool. The advantage is that a cost-effective brake coil is able to be implemented even having a center tap. Three sleeves are required for the center tap, using which, stranded connector at the beginning, in the middle and at the end of the winding of the spool, that is executed using winding wire, is tapped.

The principal features of the present invention, for the electric motor, are that the electric motor includes a brake having a brake coil or a spool as described above. This has the advantage that the electric motor is able to be manufactured with low effort and costs, and a high degree of automation is able to be achieved in the manufacturing.
BRIEF DESCRIPTION OF DRAWINGS

Figure 1 illustrates a bobbin 2.

Figure 2 illustrates three sleeves 1 to be introduced into the bobbin at three places on the circumference.

Figure 3 illustrates a cable 3 to be introduced into sleeve 1, before the latter is inserted into the bobbin.

Figure 4 illustrates three cables 3, which are connected to corresponding sleeves 1 before the latter are introduced into bobbin 1.

Figure 5 illustrates cable 3 connected to sleeve 1 prior to being introduced into bobbin 1, in an enlarged view.
21559319.2 6 Figure 6 illustrates bobbin 2, sleeves 1 connected to the cables being introduced.

Figure 7 illustrates channel 4, into which sleeves 1 are pushed in, in an enlarged view.

Figure 8 illustrates the pushed-in sleeve shown in Figure 7, the cables being guided through the eyelet of holding device 7.

Figure 9 illustrates a holding device 6 for fixing a first end of a winding wire 5.

Figure 10 illustrates a winding wire 5 guided via sleeve 1.
Figure 11 illustrates a sleeve 1 that has been pushed into the bobbin.

Figure 12 illustrates a sleeve 1 without cable in an enlarged view.

Figure 13a illustrates a sleeve 1.

Figure 13b illustrates what the bending state is of tabs 20,25 when a cable with its insulation is introduced coming from the left, and the insulation is fixed using left tab 25.

Figure 13c illustrates the bending state of tab 22, which fixes the winding wire and to which the winding wire is welded.

Figure 13d illustrates a cable being introduced from the right.

Figures 14a and 14b illustrate bobbin 2 in two different orientations, channel 4 arranged as a pocket being illustrated, and slot 9 for the introduction of winding wire also being shown.

21559319.2 7 Figure 15 illustrates a refined sleeve 101 having wall part 123.

Figure 16 illustrates bobbin 102, into which up to three sleeves 101 are able to be introduced.

Figure 17 illustrates sleeve 101 before it is pushed into bobbin 102.

Figure 18 illustrates the connection to a cable 103 having insulation, the stripped end regions of cable 103 being welded.

Figure 19 illustrates sleeve 101 pushed into bobbin 102, and cable 103 laid into a channel.

Figure 20 illustrates sleeve 101 of Figure 19 in a different perspective view.

Figure 21 illustrates the bobbin having two sleeves 101 pushed in and one sleeve 101 before being pushed in.

Figure 22 illustrates a section of bobbin with winding wire 105, which is fastened to a holding device 108, and which runs over support surfaces 125 of the sleeve.

Figure 23 illustrates the section shown in Figure 22 in a different perspective view.

Figure 24 illustrates the section shown in Figure 22 in yet another perspective view.

Figure 25 illustrates bobbin 102 having three sleeves 101 pushed in.

Figure 26 illustrates a section of bobbin illustrated in Figure 25 in an enlarged view.

21559319.2 8 Figure 27 illustrates the section shown in Figure 26 in another perspective view.

21559319.2 9 List of Reference Numerals 1 sleeve

2 bobbin

3 stranded conductor having insulation

4 channel winding wire 6 holding device 7 holding device having an eyelet for cable 8 holding device 9 slot corner tab 21 barb 22 tab 23 wall part 24 tab tab 101 sleeve 102 bobbin 103 cable, including stranded connector and insulation 105 winding wire 108 holding device 120 wall part area 122 tab 123 wall part 124 tab 125 support surface for winding wire 21559319.2 10 DETAILED DESCRIPTION

The present invention will now be explained in detail with the aid of figures:

Figure 1 shows a bobbin 2. It is advantageously able to be made as a plastic injection-molded part, and has a holding device 7 as fastening for an outgoing cable.

Figure 2 shows three sleeves 1, which are able to be introduced into the bobbin at three places on the circumference.

The exact construction of sleeves 1 are shown in Figures 12 and 13.

Figure 3 shows a cable 3, including electrically conductive stranded conductor and insulation, which is able to be introduced into the lower part of sleeve 1, before the latter is inserted into the bobbin.

Figure 4 shows three cables 3, which are connected to corresponding sleeves 1 before the latter are introduced into bobbin 1.

Figure 5 shows cable 3 connected to sleeve 1, Figure 12 showing sleeve 1 by itself, without the cable, in an enlarged version. The left bent part 25 is deformed in such a way that the insulation of sleeve 1 is fixed, and thus a strain relief is provided for the right part of the cable. Right bent part 20 is connected to the stranded conductor of cable 3 in an electrically conductive manner, especially in welded form.
Figure 6 shows bobbin 2, sleeves 1 connected to the cables being introduced.

Figure 7 shows channel 4, into which sleeves 1 are pushed in, in a clearer manner. Channel 4 is developed as a pocket.

21559319.2 11 Figure 8, just as Figure 7, shows the pushed-in sleeves, the cables being guided through the eyelet of holding device 7.
Figure 9 shows a holding device 6 for fixing a first end of a winding wire 5, which is guided over the sleeve and lies on tabs 24 of sleeve 1, Figure 12 showing sleeve 1 enlarged by itself without cable.

Figure 10 shows a winding wire 5 guided via sleeve 1.
Figure 11 shows sleeve 1 in the state in which it has been pushed into the bobbin.

In Figure 12, the sleeve is shown larger than in Figure 13a.
The sleeve is developed as a punched bent component, and has a wall part 23 from which a tab 22 is bent away.

Regions having barbs 21 and additional tabs 24 are situated to the right and left, and are also bent away. At the lower end of wall part 23, there are situated a right tab 20 and a left tab 25, and again they are bent. away.

Figure 13b shows what the bending state is of tabs 20,25 when a cable with its insulation is introduced coming from the left, and the insulation is fixed using left tab 25. This fixing has the effect of strain relief for the stripped, right end part of the cable, that is, the bare stranded conductor.
This stranded conductor piece is pressed together using tab 20 and is then electrically welded. This consequently creates a very good conductive connection of the stranded conductor to the sleeve, which bears large mechanical stresses because of the strain relief.

Figure 13c shows the bending state of tab 22, which fixes the winding wire and to which the winding wire is welded.

21559319.2 12 By contrast to Figure 13b, Figure 13d shows the cable introduction from the right, tab 20 being consequently less bent for fixing the cable having insulation, and tab 25 being more strongly bent for fixing the stranded conductor of the stripped end piece of the cable.

Figures 14a and 14b show bobbin 2 in different orientations, channel 4 developed as a pocket being shown, and slot 9 for the introduction of the winding wire also being shown. The winding wire is then wound, and at the end is guided via a corner and sleeve 1 to holding device 6, as is clearly shown in Figure 9.

In additional exemplary embodiments according to the present invention, holding device 6 may also be omitted on the bobbin and instead be provided on the tool.

In further exemplary embodiments according to the present invention, the channel is encapsulated at the end of the manufacturing process using an encapsulating compound.
Consequently, one is able to achieve both mechanical and chemical protection for the spool winding.

The spool is able to be provided especially advantageously as a brake coil of an electromagnetically operable brake. This brake may advantageously be used in, and integrated into an electric motor.

A refinement is shown in Figures 15 through 27.

Figure 15 shows refined sleeve 101 having wall part 123. Tabs 124, in this exemplary embodiment, have positioning functions for the winding wire. Winding wire 105 is held between wall part 123 and tabs 124. In this context, it lies upon support surfaces 125 for winding wire. In the process, the winding wire is pressed by tab 122 against wall part 123, and is there able to be welded, so as to produce the electrical connection.
21559319.2 13 This running of the wire is shown exactly in Figures 26 and 27. Wall part areas 120 are provided for connecting to stripped cable 103, including stranded conductor and insulation. The stranded conductor wires are there able to be welded or soldered to a wall part area 120, as is shown in more detail in Figure 18.

Figure 16 shows bobbin 102, into which up to three sleeves 101 are able to be introduced.

Figure 17 illustrates sleeve 101 before it is pushed into bobbin 102. Figure 18 shows the connection to a cable 103 having insulation, the stripped end regions of cable 103 being welded.
Figure 19 shows sleeve 101 pushed into bobbin 102, and cable 103 laid into a channel. Figure 20 shows an associated different perspective. Figure 21 shows the bobbin having two sleeves 101 pushed in and one sleeve 101 before being pushed in.

Figure 22 shows winding wire 105, which is fastened to a holding device 108, and which runs over support surfaces 125 of the sleeve. Winding wire 105 is laid in, in between, into still open tab 122. Figures 23 and 24 each show another view.
Figure 25 shows bobbin 102 having three sleeves 101 pushed in, tab 122 being pressed closed, that is, against wall part 123.
In this way, the winding wire is easily welded. Figure 26 shows an enlarged section of this. Figure 27 shows another perspective.

21559319.2 14

Claims

What Is Claimed Is:

1. A spool, comprising:

at least one bobbin (102) and one winding wire (105), at least one sleeve (101) electrically connected to the winding wire (105), the sleeve (101) being adapted for establishing electrical connection between said one winding wire and one of an electrical line and a stranded conductor of a cable (103), the sleeve (101) including one or a plurality of deformable regions, wherein, for producing the electrical connections, at least one deformable region is deformable in such a way that a force-locking connection is provided and welding is able to be carried out, wherein, the at least one bobbin has at least one circumferentially formed channel adapted to removably receive and secure the sleeve therein, the at least one circumferentially formed channel and the sleeve being adapted to allow the electrical line or the cable to enter the circumferentially formed channel and be connected to the sleeve along a substantially circumferential direction, wherein the sleeve (101) includes at least one first support region (125) which is provided as support and/or guidance for the winding wire (105), wherein the sleeve (101) includes at least one second region, designed as a tab (122), which is deformable for the force-locking connection to the winding wire (105) and is providable for producing a welded joint to the winding wire (105), wherein the sleeve (101) includes at least one third region, which is provided for a welded joint to the stranded conductor of a cable (103).

2. The spool of claim 1, wherein the at least one third region is a wall part region.

3. A spool comprising:

at least one bobbin and one winding wire, the bobbin including at least one circumferential channel, at least one sleeve electrically connected to the winding wire, the sleeve being electrically connected to an electrical line and/or a stranded conductor of a cable, the at least one sleeve and the at least one circumferential channel being adapted to removably receive and secure the at least one sleeve in the at least one circumferential channel and allow the electrical line or the cable to enter the at least one circumferential channel and be connected to the at least one sleeve along a substantially circumferential direction, the sleeve including one or a plurality of deformable regions, for producing the electrical connections, a respectively deformable region being deformable in such a way that a force-locking connection is provided and welding is able to be carried out.

4. The spool of claim 3, wherein the at least one circumferential channel is formed as a pocket.

5. The spool as recited in any one of claims 1 to 4, wherein the sleeve is a metallic punched bent component.

6. The spool as recited in any one of claims 1 to 5, wherein the sleeve (1) is adapted for producing an electrical connection between the winding wire (5) and the electrical line or a stranded conductor (3).

7. The spool as recited in any one of claims 1 to 6, wherein the sleeve (1) is able to be fastened in the bobbin (2) using force-locking and/or form-locking.

8. The spool as recited in any one of claims 1 to 7, wherein the sleeve (1) includes at least one barb (21).

9. The spool as recited in any one of claim 8, wherein the at least one barb is adapted for hooking into the channel.

10. The spool as recited in any one of claims 1 to 9, wherein the sleeve includes at least one first region, which is provided as a support and/or guidance for the winding wire.

11. The spool as recited in any one of claim 10, wherein the at least one first region is formed as a tab.

12. The spool as recited in any one of claims 1 to 11, wherein the sleeve includes at least one second region, which is deformable for the force-locking connection to the winding wire and is providable for producing a welded joint to the winding wire.

13. The spool as recited in any one of claim 12, wherein the at least one second region is formed as a tab.

14. The spool as recited in any one of claims 1 to 13, wherein the sleeve includes at least one third region, which is deformable for the force-locking connection to the stranded connector (3) and is adapted for producing a welded joint to the stranded connector.

15. The spool as recited in any one of claim 14, wherein the at least one third region is designed as a tab.

16. The spool as recited in any one of claims 1 to 15, wherein the sleeve includes at least one fourth region, which is deformable for the force-locking connection to a cable, and is providable for producing a welded joint to the stranded connector (3).

17. The spool as recited in any one of claim 16, wherein the at least fourth region is designed as a tab.

18. The spook as recited in any one of claims 16, wherein the at least one fourth region is deformable for the force-locking connection to insulation layer of the cable.

19. The spool as recited in any one of claims 1 to 18, wherein the lacquering of the winding wire is removable when producing a welded joint at least in the vicinity of the electrical contact area.

20. The spool as recited in any one of claims 1 to 19, wherein the regions are connected at a wall part (23).

21. The spool as recited in any one of claims 1 to 20, wherein the spool includes a center tap.

22. The spool as recited in any one of claims 1 to 21, wherein the spool includes encapsulating material.

23. The spool as recited in any one of claim 22, wherein the spool includes the encapsulating material in the area of the channel and/or the winding.

24. The spool as recited in any one of claims 1 to 23, wherein the bobbin (2) includes a holding device (6) for the winding wire (5) and/or cable.

25. A brake, comprising a brake coil in an electromagnet, the brake coil including a spool as recited in any one of claims 1 to 24.

26. An electric motor including a brake as recited in claim 25.