DE2104577B2 - clockwork - Google Patents

Description

The invention relates to a clockwork according to the preamble of claim 1.

A well-known clockwork of this type (US-PS 27 34 338) has a drum on which the corresponding numbers are applied to _{display seconds, setting the minutes, tens of minutes, etc. n.} It is driven by the continuously rotating motor. The jerky movement of the individual drums is achieved by a special indexing mechanism. However, this known clock is disadvantageous due to the relatively high power consumption of the motor. The high power consumption is due to the continuous operation of the motor.

From DE-GM 19 95 485 it is known to Reduce the power consumption to operate the motor intermittently. For this purpose, there is an energy store in the form of a spring that can be tensioned by the motor intended. The tensioned spring actuates the minute and minute dials via a corresponding gear arrangement Hour indicator continuously. At the same time, a conical traveling nut that is on one of the spring bearing shaft sits, axially displaced in order to close a microswitch for operating the motor when a predetermined position is reached. Of the The motor then tensions the spring, whereby the traveling nut runs back into its starting position. With this one known clockwork, the spring is tensioned approx.

every 4-6 hours. This period is due to the size the clock and the storage capacity of the spring.

The invention is based on the object

Specify clockwork of the type mentioned, in which, despite the low power consumption of the drive motor, a jerky advance of the hour and Minute display device is possible. Based on a clockwork of the opening

so called kind is this task by the im characterizing part of claim 1 specified features solved.

Compared to the above-mentioned, from US-PS 34 338 known clockwork according to the invention This movement has the advantage of lower power consumption. The basic idea of the invention is to continuously operate the second hand through the energy storage device that can be "recharged" by the motor, while the control device - for example, all

«J 60 seconds - the engine switches on so that it does the The hour and minute display device advances directly and recharges the energy storage device. A Special indexing mechanism for jerky indexing, for example, the minute display device through the seconds display device is now no longer necessary, as the intermittent or jerky feed is carried out directly by the motor that only runs for a short time he follows. Compared to that from DE-GM 19 55 485

known clockwork, the clockwork according to the invention has the advantage that the hours and minutes are discreet are displayed. This is particularly advantageous in the case of drum-like display devices with a viewing window the numbers to be displayed. With continuous movement, for example, the minute and hour drum the numbers in question could usually not be clearly stated, e.g. for the half minutes and hours. It is true that an intermittent ι ο Operation of the engine is intended, but the solution could be found in a clockwork of the generic type do not bring the advantage that is achieved by the invention. In the case of the known clockwork, the For example, run the engine briefly every 4-6 hours to tension the spring. The spring operated Shaft rotates continuously In order to get a discrete display, for example the minute and hour display, would have to correspond to the one from the US-PS 27 34 338 known clockwork, a special forischaitmechanism can be provided. In the clockwork according to the invention, the switching of the hour and minute display, however, is effected directly by the motor, which is a relatively simple construction of the Movement enables

Appropriate refinements of the invention can be found in the subclaims. The following will an embodiment of the invention explained in more detail with reference to the drawing

F i g. 1 is a plan view of a clockwork, the Housing is shown in section;

Figure 2 is a vertical section along line 2-2 in F i g. 1, with most of the internal parts of the movement;

F i g. 3 shows a section along the line 3-3 in FIG. 1;

4 shows a section essentially along the Line 4-4 in Figure 3; and

F i g. 5 is a horizontal section along lines 5-5 in FIG. 3 unu 4, seen from above.

F i g. 1 shows a crystal 10 through which the The time display is visible. The clock is mounted, for example, in a motor vehicle Housing 12 attached, which encloses the working parts of the clockwork and in the one substantially Lamp 14 is arranged In the housing 12 there is a support plate 16, which is in the enclosing, with the crystal 10 provided housing 12 by means of a suitable attachment 18 is attached.

In the plate 16 several posts 20 are mounted, the two spaced apart plates 22, 24 wear. A plurality of posts 26 are mounted in the plate 24 and support a mounting plate 28. on This is attached to an electric motor 30 which, when the clock is used in a motor vehicle, is preferably a direct current motor. The engine is with various conductors, contacts, etc. 32 provided, which for connection to a suitable power source with the outside arranged Aiischlußteile 34 are connected. Of the Motor 30 is used to periodically drive a clockwork in steps. This is explained in more detail below described.

The motor 30 has an output shaft 36 on which a worm 38 is seated, which communicates with a worm wheel 40 comes on a shaft 42 on which a gear 44 sits, which meshes with another gear 46. This stands in engagement with a gear 48 which is mounted on a shaft SO, on which further sits a gear 52, the with a gear 54 whose shaft 56 is with it a worm 57 is provided, which is in engagement with a worm wheel 58. This in turn is on a Axle arrangement 59 attached, which is functionally connected to a digital time display device 60 This Device 60, which is not described in detail here, has a minute roller 61, a ten-minute roller 62 and an hour roll 64 which are incremented periodically, once a minute, the first roll being the second and this advances the third in a well-known manner. The first roller is powered by the motor driven the gear transmission described above. The reels are provided with time display numbers 64, which are visible through window 65.

The motor 30 also drives an energy store 66, which is described below. The energy store 66 is seen with a gear 68 vei that with the aforementioned driven gear 52 meshes with B ^ i running engine drives this via the Gear 68 the energy store 66.

The energy store 66 is a height 70 of associated known type, the shaft 72 protrudes into the energy store 66 and forms part of the same

In Fig. 3-5, the energy storage device 66 is shown with the shaft 72 and the gearwheel 68. If the motor 30 is running during one of the periods of time indicated above, the gearwheel 68 makes one complete revolution. The gears of the gear ratio are dimensioned accordingly. The gear 68 is fixedly mounted on a sleeve 74 which is rotatably mounted on the shaft 72 and has a hub 76 on which the gear and a switch-off device 78 described below is seated - Coiled spring 82 is mounted, which has two radially arranged end parts 84, 86, one of which acts on the disconnection device 78.

The switch-off device 78 controls the drive motor 30 in such a way that it runs periodically. To this Purpose, the switch-off device 78 is functionally connected directly to a He'uel 88, which is best shown in FIG. 3 can be seen. The lever 88 is preferably an angle lever with a first arm 90 and a second arm 92. The contact 95 is arranged on a stationary part 96. The contacts 94 and 95 are with the Conductors 32 (Fig. 1) of the engine connected. The long arm 92 extends over the gear 68 and is on to one whose axis centered circle tangentially. To actuate the arm 92, the switch-off device 78 can be on attack arm 92. A tension spring 97 seeks to move the lever 88 clockwise in FIG To move the operative position, in which the contacts 94, 95 aneir. and the concerns.

The disconnection device 78 has a support member 98 (FIG. 4) with a T / ag plate 100, which is directly connected to the hub 76. The support member 98 has on one side an axial tab 102 on which the radial Engages end portion 84 of the spring 82. On the other hand, the support member is provided with an axial element 104 , which is preferably a plate and has a radial end tab 106. In the element 104, a pin 108 is attached, which is connected to a head 110 and surrounded by a torsion coil spring 112 having radial end portions 114 and 116. The end portion 114 engages the tab 106. The support of the other end portion 116 is described below. The axis of the pin 108 is transverse to the axis of FIG Spring 82.

By means of the pin 108, a tape song 104 is placed on it

Tee arm 118 mounted, the one outwardly bent has radial tabs 120 on which the end portion 116 of the helical spring 112 engages. The tee arm 118 also has an inwardly bent, radial tab 122. The knock-off arm 118 has one Actuating fingers 124, which act directly on the switching arm 92 and which are explained in more detail below Way can press. The spring 112 seeks to move the knock-off arm 118 clockwise into a position shown in FIG. 5 with to move the extended position shown in solid lines. After releasing the finger 124 this is moved against the action of the yielding spring.

The shaft 72 protrudes beyond the sleeve 74. At the protruding end of the shaft is a second hand 126 attached, which, for example, can consist of a disk and a control element 128 with an axial cut-off tab 130 which, when the clockwork is in operation, is attached to the tab 122 such as may attack as described below. The end portion 86 of the spring 82 is attached to the disc 126.

The clockwork can optionally be provided with a manually operable adjusting device 132 (FIG. 1). This has a shaft 134 with a button 136 and with a pinion 137 which meshes with a gear 140 provided on the axle assembly 59 can. A compression spring 142 loads the shaft 134 into a rest position shown in FIG. 1, in which the Pinion 137 is disengaged from gear 140. The shaft 134 can be moved by hand into an operative position, in which the pinion 137 meshes with the gear 140; a suitable adjusting device is known per se.

The clockwork can assume a starting position shown in the drawing in operation, in which the Contacts 94, 96 (Fig. 1) are open and the motor 30 has stopped. Therefore, the gear 68 and with it the Sleeve 74 still. The torsion coil spring 82 is continuously tensioned and at one end by the end portion 84 set. The other end portion 86 of the spring 82 tends to rotate the second display disc 126. The rotation of the disk 126 is timed by the escapement 70 such that the indicator disk 126 makes one revolution per minute.

In the position of the clockwork shown in the drawings, there is finger 124 (Figs. 3 to 5) under the lever arm 92, so that it is in the position shown in FIG. 3 is held in the raised position in which the Contacts 94, 95 are separated from one another. The motor and also the cut-off device are in this position 78 silent. In contrast, the second indicator 126 is continuously driven by the spring 82. After every full Rotation of the second indicator 126 engages the knock-off tab 130 on the tab 122, so that the Tee platform 118 is pivoted counterclockwise in the corresponding direction in FIG. When this occurs, the finger 124 under the arm 92 is moved into the position shown in FIG. 5 position shown in phantom 124a withdrawn so that the spring 97 (Fig. 3) can move the arm clockwise downward and the Contacts 94, 95 touch each other. As a result, the motor 30 is switched on. During this process, the fingers 24 moving in the arch have a large component of movement in a direction transverse to the longitudinal direction of the Arms 92 lying direction.

After the contacts 94, 95 are closed, the motor starts, so that the above-described Gear transmission the gear 68 is driven. In doing so, the switch-off device 78 essentially does a full turn to a position in which the finger 124 engages under the arm 92 again and it in the in F i g. 3 lifts the switch-off position shown so that the contacts 94, 95 open and the motor ■> is stopped. The running engine doesn't just turn the gear 68 on, but it switches over with the Time display device 60 connected gears also the device 60 to a corresponding one Amount continued. This amount corresponds to the present

in the embodiment of one minute. The engine is running only starts again when essentially a full minute has passed. The engine itself only runs for a very short period of time, for example 3 to 4 seconds.

When the engine 30 is running, after sufficient rotation of the gearwheel 68, the torsion coil spring is activated 82 stretched over the radial end part 84 thereof. The spring 82 transfers the force thus stored in it its other end portion 86 to the second hand 126

.'ii from. It has already been mentioned that the spring 82 is constantly is excited. It gets via dps once every minute Gear 78 retensioned. The force stored in the spring is transmitted to the second indicator 126 submitted. When assembling the clockwork, the spring 82 receives the desired pretension. the Properties of the spring 82 are chosen so that they except the Dei each revolution of the switch-off device 78 supplied power still has a power reserve and ensures that the tension of the spring

ίο is held in an area in which the spring can rotate the second hand by at least the amount corresponding to one minute without the Spring needs to be re-tensioned in between.

The large range of motion goes from FIG

! 5 shows the finger 124 to attack the arm 91, 92 and is available for lifting the arm. For example, the position is designated by 1246 in which of the fingers is just reaching under the arm 92 and lifting it into the switch-off position. Until it is switched off of the motor, the finger can move forward a little, e.g. B. in the position 124c However, the arrangement is so taken that even if the finger moves forward to position 124c / it still moves the switch arm in the switch-off position can hold. So it is one

great security against overdrive and underdrive of the switch-off device, because the finger 124 has a large range of motion of e.g. B. 30 to 45 ° is effective The one specified here Angular range is of course not critical, and here

so the angular range in which the finger 124 is effective can be very large.

The leading edge of the finger 124 is preferably curved so that the finger 124 grips the arm 92 with as little impact as possible and the finger can be pulled off the arm with minimal friction. This curvature ensures that when the tee 118 is pivoted in the release direction, the finger 124 is moved away from the arm 92. F i g. 5 shows the knock-off arm 118 in phantom in the position 124 a into which it was moved by the knock-off arm 130. The cut-off arm 118 is movable in a considerable angular range, which is shown in the drawing. Even when the arm 92 is extended relatively far. The singer 124 can quickly move it away from the arm 92 so that the arm 92 can move downward into the switched-on position.
The description of the mode of operation can be as follows

be summarized. The switch-off device 78 performs a complete revolution once every minute, which takes 3 to 4 s, for example. The switch-off device 78 stands still between these revolutions. The second hand 126 is continuously rotated by the torsion spring 82. In a certain rotary position, it triggers the switch-off device 78, which then rotates again without the constant rotation of the second indicator 126 being disturbed as a result.

The arm 118 is resilient, it Dall at attacking on the tab 122 tee tabs 130 a considerable movement of the second indicator 126 allows start up until the engine 30 and runs ahead in relation to the seconds indicator 126th This continues to run smoothly while the motor 30 executes a single revolution at a much higher angular speed.

The in F i g. The seconds hand shown in FIGS. 3-5 may consist of the movable disc 126 and a fixed hand 132 described above, or an inverted arrangement. As the various elements of the unit 60 are digitally indexed, the disc 126 rotates virtually continuously.

The invention therefore provides a constantly moving energy store in the form of the helical spring 82 for driving the second indicator 126 . The motor 30 serves, on the one hand, to switch the digital display device 60 once every minute and, on the other hand, to re-tension the helical spring 82, which in this way is supplied with power to move the second indicator 126 during each revolution of the switch-off device 78. Therefore, the spring does not lose the force stored in it during the entire period of one minute.

For this purpose 3 sheets of drawings

Claims (8)

Patent claims: 1. Movement, with one at discrete time intervals switchable hour and minute display device which can be driven by a motor, and a second indicator, characterized by a control device (122,118,124,92,88, 97) for controlling the intermittent operation of the engine, with an engine switch-on device (94,95, ι ο 96), which is controllable by an energy store (82) that can be charged by the motor (30) and moves practically continuously, in such a way that the motor (30) drives the hour and minute indicator (60) intermittently, the second indicator (126) from which is practically uninterrupted moving energy storage is operated 2. Clockwork according to claim 1, characterized by an escapement (70) to control the speed and amount of movement of the clockwork. 3. Clockwork according to claim 1 or 2, characterized in that the second indicator (126) is a rotatable element and the energy store is a helical spring (82), one end (84) with 2s the motor and the other end (86) of which is in operative connection with the second indicator. 4. Clockwork according to one of claims 1 to 3, characterized by a power transmission (54, 57,58,68) between the motor (30) and hourly and minute display device (60) and between the motor (30) and the energy store (82). 5. Clockwork according to claim 4, characterized in that each power transmission (54, 57, 58, 68) consists of a gear train. 6. Clockwork according to at least one of the claims 1 to 5, characterized by a device (88) controlled by the second indicator (126) 97,118,128) to switch on the motor (30) in the specified manner once every minute. 7. Clockwork at least according to claim 3, characterized in that the helical spring (82) is constantly tensioned and a device is provided by means of which the tension of the helical spring (82) can be maintained in the area required to move the second hand (126) around the one full minute corresponding amount is required 8. Clockwork according to at least one of claims 1 to 7, characterized by a contact device (94, 95) for switching on the electric motor (30), by a control device (88, 97) with a rest position for opening and keeping the contact device (94, 95 open) ), so that the motor (30) is switched off, by a unit or self-contained device (66) for advancing the second indicator (126), by a device (38,40,44,46,48,52,68) mm connecting the motor (30) with the unit or self-contained device (66) for the purpose of supplying energy to this and through a device (118, 128) serving to control the control device (88, 97) with a flexible component (118), which is supplied by the second indicator (126) can be actuated in such a way that the control device (88, 97) is triggered and the motor (30) is switched on again without hindering the continuous or uninterrupted movement of the second indicator (126).