DE804823C - Electrical apparatus for picking up stitches, especially in socks - Google Patents

Description

Electrical apparatus for picking up stitches, in particular for stockings The present invention has electrical apparatus for taking up stitches, in particular in the case of stockings, to the object with a mechanism enclosed in a handle, which is intended to produce a reciprocating movement of the needle.

This apparatus is operated by a hand-operated controller characterized by a breaker under the action of a spring which tries to close it, and by a latch that opens the breaker is intended to hold. This latching is done by the controller and by a actuated movable stop, which is subject to the action of the control member and is intended to enter the path of a moving part of the mechanism, such that this mechanism is stopped in a predetermined position, in which the needle is withdrawn.

The drawing shows schematically and as an example an embodiment of the apparatus.

Fig. I is a longitudinal section along the line I-1 of Fig.2, in which the needle is in the advanced position; Fig. 2 is a section according to the line II-II of Fig. i, in which the needle is withdrawn and through a cap is protected; Fig. 3 is a fragmentary view, with parts cut away, showing in particular the drive mechanism; Fig. 4 is a schematic of Drive device; Fig. 5 is an enlarged detail view.

The apparatus shown consists of a handle i, on whose a guide tube 2 is attached to one end, from which the needle 3 protrudes. Latter is arranged in a needle holder 4, which in a rapid reciprocating motion a mechanism is moved, which consists of a damper 5, a push rod 6, a crank 7 and transmission wheels 8, 9, io. This mechanism will driven by an electric motor i i.

The damper 5 consists of a cylindrical housing 12 (Fig. I and 2), through one end of which the needle holder 4 passes, the one at its rear End carries a head 13 that the opposing effects of two springs 14 and 15, which are supported on the bottoms 16, 17 of the housing 12 and be squeezed together with every half of the needle. The housing 12 slides in the guide tube 2 and carries an axle 18 attached to its rear end, at which one end of the push rod 6 is articulated, the other end to a Crank pin i9 of the crank 7 is hinged. This is on a hub 2o of the gear 8 attached, which rotates with an axis 21 which is attached to a support plate 22 is. This gear 8 meshes with a gear 9 which rotates about a pin 23 and itself engages in the drive gear io, which is fixed to the motor shaft 24 connected is.

This is rotatably mounted (FIG. 5) on the one hand in a bearing 25 which is arranged in the plate 22, and on the other hand in a bearing 26 of a second carrier plate 27. The rotor of the motor ii is arranged on this shaft 24. This rotor has a hollow shaft formed by a sleeve 28 which rotates freely on the shaft 24 and on the one hand carries an armature with three lamellar arms 29, each of which is provided with a winding 30 , and on the other hand a collector with three segments 31 which are each electrically connected to one of the windings 3o. The sleeve 28 is held axially by a shoulder 32 of the shaft 24 and by the front surface of the bearing 26. The two carrier plates 22 and 27 are held at a fixed distance by brackets 33, one of which is visible in the drawing (FIG. I).

The armature rotates between the poles 34 of a horseshoe-shaped one Inductor 35, which carries an induction winding 36. In charcoal holders 38 guided Coals 37 which are subjected to the action of springs 39 which they hold against the segments Press 31, allow the armature to be fed with electrical current.

The rotor is mechanical with the shaft 24 through the intermediary of a clutch connected, which limits the transmittable torque. In the illustrated embodiment the transmissible torque is determined by the frictional resistance, which is opposes an angular adjustment of two pieces against each other. This clutch has a bent spring wire 4o, the ends of which are inserted into limited holes 41 which are located in the '' skin 24, perpendicular to its axis of rotation, and its middle part, which lies in a longitudinal groove 42 of the shaft 2.4, against the cylindrical Inner surface of the sleeve 28 is supported.

The control device consists of a control element 43 which is operated by hand and consists of a push button which acts on one side on a lever 44 which is hinged at one of its ends to the plate 27 and carries part 45 of a latch 45, 46. On the other hand, the push button 43 acts on a movable contact 47 of a breaker, the fixed contact 48 of which is carried by the carrier plate 27. A spring 49 acting on the lever 44 seeks to engage the two parts of the latch with one another and to keep the interrupter 47, 48 in the open position. The part 46 of the latch is firmly connected to a lever 50 which swings about an axis 51 carried by the plate 27 (FIG. 3). This oscillating lever is subject to the action of a spring 52 and carries on the one hand a control head 53 which cooperates with the end of the crank pin 19 and on the other hand a movable contact 54 of another breaker, the fixed contact 55 of which is carried by the plate 27.

Fig. 4, in which the various aforementioned organs and Elements are shown schematically, shows the scheme of electrical and mechanical Connections of this control device. One of the electrical power supply lines 56 is to one end of the excitation coil 36 of the inductor 35 and the second end of this Coil is connected to one of the carbons 37. The second coal 37 i,: t electric connected to dfn two contacts 48 and 54 of the two breakers, while the two contacts 47 and 55 of this breaker are connected to the second line 57 are.

The control device also has a stopping device which is intended to stop the motor in a position in which the needle 3 is retracted is (Figs. 2 and 3). This device has a first stop 58, which is on Lever 44 is arranged, and a second stop 59, which is connected to the motor shaft 24 is firmly connected. This second stop consists of the beak-shaped bent End of a split metallic ring 6o, which in a groove 61 a Disk 62 is located, which is firmly connected to the `skin 24.

The operation of the apparatus described is as follows. When stopped, the organs and elements of the control device are in the positions shown in FIG of the lever 5o, which then swings under the action of its spring 52 until the contact 54 touches the contact 55, so the first breaker closes and energizes the motor ii, and what other on the other hand, the adjustment of the branch stroke 58 out of the way of the stop 59 brings about, which with the 'motor shaft is firmly connected and so the latter is free power. It can be seen from this that when the engine ii is under tension and the shaft 24 is free, the The rotor turns clockwise and the shaft 24 takes along by friction, by virtue of the spring 4o, which exerts radial pressure and the sleeve with the shaft 24 keeps in connection. Your case 12 then becomes a rectilinear scrolling motion granted. The needle holder 4 follows this back and forth walking movement: however, because of the circuit of the springs 14 and 15 between the housing 12 and needle holder 4 the movement of the latter not sinusoidal, which has certain advantages for that Brings stuffing with it. In fact, push yourself by virtue of the mass of the needle holder 4 and the Needle 3, springs 14 and 15 together and tense alternately read each movement Reversal of Behiitises 12. So there arises a Relative movement between your needle age 4 and (-Learn housing 1 2 such that the speeds the needle 3 in the individual moments not agree with those of Geliiiuaes 1 2 and that the path of the needle 3 from that of the housing 12 the prescribed path by the push rod 6 is divorced. The works with every revolution of the motor Crank pin i 9 finite your control head 53 together and pushes the swinging lever 5o against it the action of its compression spring 5 2 back, whereby the passing omen of the first breaker 54, 55 is affected. \ allow indolence four moving: @Iz; sseit keep the motor and the mecha- not because of the break in the current is of too short a duration. Nevertheless they jibe repeated interruptions a reduction the speed result. With a stronger pressure on the push button 43 the user effects permanent closure of the second breaker 47, 48, the parallel zti contacts 54 and 55 of the first breaker is switched. From then on the engine ii becomes permanent fed and reached: a full speed. So the user has the option of using a simple more or less strong pressure on that Control unit 43 two different Cescliwindigl <one- ten of needle 3 to get. About the standstill of the engine and everything To bring about the mechanism, it is sufficient to release button 43 by the action of the Spring 49 returns to a kuliestelhing in the a collar 63 against (read housing 1 abuts. clock 47 leaves the contact 48, and the lever 44 swings against the action of spring 49 clockwise. The engine that still has the first breaker 54, 55 is fed, continues, to operate needle 3. The next time you pass gear of the crank pin i9 on the control head 53 these contacts 54, 55 are again from each other separated. Soon after your passage of part 46 under the beak de:> Part 45 the lever 44 turns under the action of the compression spring 49 into the position shown in FIG position shown back, so that the part 45th if the crank pin i9 leaves the control head 53, itself is in the path of part 46 and so that Swinging the lever 5o under the action of it Spring prevents. It follows that the first Interrupter 54, 55 remains open and that the Motor is no longer fed. However, the Needle 3 thanks to the inertia of the moving parts Away. The lever 44 is in the in The position shown in FIG. 3, the locking stop 58 is in the path of the beak 59. according to the ' echanism is suddenly stopped, shortly after the crank pin i9 front head 53 has become free and is therefore approximately in the is in the position shown in Figs. 2 and 3, in which the needle is withdrawn. The moving organ that the has the greatest inertial force, is the rotor of the Engine. The inertial force of the same x would be if he went to several thousand Uindreittiiigeii /. \ liittite and is suddenly stopped, suffice, uni Damage to the 1 - ') e \\ egutigsniecli2inisititis der The needle and the stopping device. To avoid such damage, the Rotor, as described above, with the shaft 24 connected by engaging a clutch, the (las transmissible torque is limited. So, when the shaft 2.1 suddenly passes through the beak 59 is stopped, which is in relation to the stop 58 bond reaches the torque by means of the Inertial force tending to turn the rotor so, that it is plump. the friction zivi, sclieti of the shaft 24 and the box 28 overcome by the Spring 4o is generated. so that the rotor turns the motor shaft rotates. without taking them with you. He soon holds out due to the friction call the braking effect. By regulating the Angular position of the beak 59 it is easy to i to achieve that the 2lotor shaft in the in Fig. 3 is stopped in the position shown the needle is withdrawn. In addition, it is sufficient because the necessary drive,> - Drehinonietit for the needle very small is, ciii engine voil very small _ ", insights of of the kind used for electric toys. The whole apparatus can be built extremely compact den, and if you have a protective housing, you can handle or form a handle by means of which one can hold the apparatus and direct the needle.

Claims (6)

PATENT CLAIMS: i. Electrical., 1 # preparation for picking up stitches men, especially in stockings from one enclosed in one handle Mechanism that is used to generate a the forward movement of the needle is determined indicated by a manually operated Control organ, through an interrupter, which the Action of a spring is subject to him seeks to close by one to keep it open of the liter crusher ltestimi # itc latching, the is operated by the control member and a movable stop which is subject to the action of the control member and is intended to enter the path of a movable part of the mechanism in such a way that this mechanism is stopped in a certain position in which the needle is withdrawn. 2. Apparatus according to claim i, characterized in that the mechanism is the needle actuated by the intermediary of a damping device. 3. Apparatus according to claims i and 2, characterized in that this device consists of two helical springs, that between the organ of the mechanism driving the needle holder and the needle holder are switched on and work on pressure, and that every spring in the sense of movement the needle works. 4. Apparatus according to claim i, characterized in that the the Needle actuating mechanism has a coupling device designed to do so is to limit the transmittable torque, and that the rotor of the motor with the motor shaft connects. Apparatus according to claim i, characterized in that the Interrupter is subject to the action of a moving part, which at least once for every revolution the mechanism opens to the speed of the motor to reduce. 6. Apparatus according to claim i, characterized in that it has a has second interrupter, counter to the action of a by the control member Spring is actuated and is connected in parallel to the first and its closing in the course of a supplementary adjustment of the control element after the latching is released, is brought about to get the full speed of the engine.