DE7042101U - SOLENOID COIL CARRIER - Google Patents

Description

DIPL-ING. GRÄMKOW DR. MU LLE R-BOR6 DIPL-PHYS. DR.MANITZ D I P L-C H EM. D R. D EU FEL D I PL. -1 N G. F I NSTE R W A L D

PATENT LAWYERS

13. KOV. 1971

We / Sv - D 1201

DETROIT COIL COMPANY

24-35 Hilton Road, City of Ferndale,

State of Michigan, USA

Solenoi d coil carriers

The invention relates to a solenoid coil carrier, a solenoid coil stator and a solenoid coil, which a having such a coil carrier.

Heretofore, the solenoid coil of a solenoid, and particularly an industrial AC solenoid, has been on different ways have been fixed in the stator. For example, in U.S. Patent 2,466,592, the spool is equipped with protrusions protruding on opposite sides, which on the stator and / or the side plates to hold the coil in the stator. U.S. Patents 3,017,5-7 and 3,195,024 use suggested by spring clips, which are designed so that they comprise part of the coil structure and also nit engage the stator to hold the coil therein. No precautions are taken in the construction of the solenoid provides for the insertion of the coil into the stator and the subsequent attachment of the side plates so that the Coil is fixed in its position, this can be done in the

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The first-mentioned patent specification communicated mounting concept are not used, and that in the latter two patents The springs described take up space within the opening receiving the coil in the stator, so that the space available for the coil windings is reduced.

The invention creates a possibility of a to hold a solenoid coil wound on a bobbin within the stator without the use of side plates or spring clips are required, as shown in the prior art. The invention can further include a solenoid structure create, which is able to exert a greater force with their size than with the according to prior art solenoid devices using spring clips is possible because of the greater number of turns in the winding can be provided.

The invention relates to a coil carrier for a solenoid stator with a flange to hold the bobbin on the bobbin and with an elastic device to hold the bobbin to hold in the stator, characterized in that the coil carrier on the flange has an abutment for engagement with a surface of the stator has that the elastic device is an elastic locking, which is an integral Forms part of the flange and that the abutment and the lock are designed so that they are with opposite Sides of the stator come into engagement to hold the coil carrier therein.

The invention further provides a coil stator having a the coil carrier receiving opening which opens through opposite sides of the stator, wherein a solenoid coil fastened on de ^ bobbin against its flange and is arranged in the opening and wherein an elastic Einner.tur.t the. Holds coil carrier in the opening, characterized in that iafi dtr coil carrier an abutment on a flange : '.- .; ive;?: u:; c continue to form an integral part -'.- irttier ^ c on a flange has that the locking: ie e.j ^ i ^ chi device and that the abutment

70A210118.2.71

and locking with opposite souths of the stator come into engagement to hold the bobbin door in it.

The invention is described below, for example, with reference to the drawing; in this shows:

■ big. ί an oeiueutuiöiciiu one carried out according to dex · Eriinduixg Solenoids,

FIG. 2 is a front view of the solenoid shown in FIG. 1;

FIG. 3 is a view similar to that in FIG. 1, but with the stator, the plunger core and the coil are removed and only the coil carrier and one Terminal are shown,

Fig. 4 is a cross-section along the line 4-4 dei, and

Fig. 5 is a plan view of the coil carrier in the direction of Arrow 5 in FIG.

A solenoid embodying the invention comprises according to the representation in FIG. 1 and 2, a stator 10, a plunger 12 and a coil assembly 14, the latter being received by opposite sides of the stator within an opening 16. When the coil is energized, the plunger 12 is drawn inward to the position shown in FIG. 2, and when the coil is not energized the plunger can move outward (in FIGS . 1 and up). Both the stator and the plunger core are constructed from a series of metal sheets, and the metal sheets are held together by rivets, namely by rivets 18 in the plunger core and by rivets 20 in the stator, vi ^ .- it is well known in the art and is motivated. The outer sheets of the stator and the plunger core can and will preferably have a greater thickness in order to form so-called rivet sheets, which are shown at 22 for the plunger core and at 24 for the stator.

The plunger 12 may have a T-shaped configuration with a Have head part 26 and a shaft part 28. Those parts of the head, which extend over the opposite sides of the shaft liinaua «have surfaces 30 and 32, which abut the stator surfaces and are designed so that when the coil is energized, they are on the upper end of the stator rest, as shown in FIG.

As shown in the Pig. 2, the stator, which is often also referred to as a C-packet, has a generally C-shaped structure and has an indentation part 42 through which an opening 44 extends to receive a plunger (not shown) which is thus fixed i ^r that it rests on the lower end of the plunger shaft in order to transmit the force of the plunger to a device which is to be actuated by the solenoid. A pair of upstanding side arm portions 46 and 48 extended upwardly from the indentation portion 42 and endonically in opposing side arms 50 and 52 which spaced above the indentation tag portion 42 and whose inner ends are spaced around a passageway to form through which the plunger core extends. The lower end of the plunger shaft is a short distance from the indentation portion 42 to form an air gap when the surfaces 30 and 32 of the plunger head abut the overhanging arms 50 and 52.

Difa Solencidspulenanordnuiig comprises a coil carrier ^ A- on which the wire is wound, which has the coil. The bobbin is made of a tough, flexible insulating material such as nylon, and the nylon may optionally be reinforced by a suitable material such as glass fiber. The bobbin has an integral structure that has a

Rectangular pipe part ? 6 unc -Ind. "! See 53 and 60 on v, ^r eist. The wire is wound between the é'ians; nen around the pipe part and is held in place by the jtlai_jche. The wire is completely wound up State in the? Is. 1 τχ; .Λ 2 shown schematically at 62. The plan yS can be equipped with a color of raised ribs 64 and 55, which form bearing surfaces to accommodate the underside of the overhanging arms 50 and 52 of the stator, when the coil carrier is pushed into the position shown in Figures 1 and 2. The axial dimension of the coil carrier is preferably dimensioned such that the coil carrier is under a slight axial compression, ie it is a press fit in the stator.

The flange 50 is spaced apart with a pair Equipped base, such as the base 68, which is shown in Fig. 3, within it an interference fit a pair of terminal strips 70 u ^ d 72 are arranged, on which the ends of the coil wire attached in any suitable manner. The lead wires for energizing the coil can also be in attached to these clamps in any known suitable manner.

The flange 60 is further provided with means for isolating the inner wire end 76 from the turns of the coil fitted. One such device includes a slot 80 which extends outwardly at 82 through an edge of the The flange opens and also axially inward of the spool at 84 through the face of the flange against which the wire windings are wrapped. A consequence of this construction is that the inner end 76 of the coil wire according to FIG 4 through the slot to the terminal 72 and thereby from the turns of the winding is isolated and is still so trapped that this

End is held during the bobbin winding process.

The coil carrier is still with an internal device to hold the coil in the stator. As shown in FIGS. 3 and 4-, the flange 60 is with a pair of slots 86 and 88 extending inwardly from flange edge 90, which from opposite edges 92 and 94- are removed and with these edges forming a pair of resiliently flexible detents or tongues 96 and 98. The edges 92 and 94- are shaped on the tongues so that they are shoulders 100 and tapered cam surfaces 102 form. The flange is on its outer surface 104 with a step-shaped part 106 equipped with a step or shoulder 108 which faces the shoulders of the detents 100. One consequence of this construction is that when the coil is in the direction of arrow 110 of FIG. 1 into the stator is employed, the step 108 engages one side of the stator when the coil is in its operative position and during insertion the cam surfaces 102 cause the tongues 96 and 98 to so inwardly be pressed so that the tongues through the opening 16 of the Fit through the stator and when the coil reaches its operating position, the tongues spring outwards, whereby the school

i. 100 on the side of the stator which opposite the side on which the shoulder rests. Thus, the shoulder 108 and the detents serve 100 to center the coil in the stator and to secure it against displacement.

The flange 58 may optionally have a shoulder 110 which is similar to the shoulder 108 on the flange 58. The shoulder 110 rests on the statue arms 50 and 52 when the coil is used in your operations department will. It has been shown that the two shoulders

10 '"" ic ¹ . 110 together with the Arret. ^J arungen 96 and 98, the
Hold Sp in the stator in a suitable manner. Furthermore, fsl ^ -. That is, it is necessary that the flange 58 be equipped with locking mechanisms similar to those in the flange 60
are present, although this has not proven necessary in normal applications.

Protection claims -

Claims (4)

- ο - claims for protection 1. Coil carrier for a ßolenoid stator with a flange, to hold the coil on the coil carrier and with an elastic egg ηrichtung to the coil carrier in the stator hold, characterized in that the coil carrier on the flange (58) has an abutment (108) for engaging a surface of the stator comprises that the resilient means comprises a resilient detent (96, 98) which forms an integral part of the flange (60) and that the abutment and the Locks are designed so that they come to engage with opposite sides of the stator to to keep the bobbin in it. 2. bobbin according to claim 1, characterized in that it has an abutment (108, 110) the flange (58, 60) at each end of the spool carrier. 3 · bobbin support according to claim 1, characterized in that a flange (60) j which with a integral part / detent (96, 98) is equipped, also has an abutment (108). 4. bobbin naca one of the preceding claims, characterized characterized in that two resilient detents (96, 98) are provided which are integral parts represent and which are arranged on a flange (60) each on one of opposite ends of the flange are. · According to claim 2 and 4, characterized in that the two locks (96, 08) so are adapted to engage the ainen opposite side of the stator and that the abutments (108, 11θ) are designed to work with the other Gesenüb <~ _ lying side come into engagement. Spul ens tat. ~> R with an opening that accommodates the coil carrier and opens through opposite sides of the stator, a solenoid coil being fastened on the coil carrier against its flange and arranged in the opening, and with an elastic device holding the coil carrier in the opening , characterized in that the coil carrier has an abutment (108, 110) on a flange (58) and furthermore an integral part (96, 98) has a Έ ' "v.sch (60) that the lock is the elastic device and that the abutment and the lock come into engagement with opposite sides of the stator to hold the coil carrier therein.