DE1092388B - Battery powered clock - Google Patents

Description

Battery powered clock The invention relates to a clock with Battery powered, namely an electric clock with a moving coil that is assigned to a balance wheel and moves through stationary magnetic fields.

The limited space within the case of a wristwatch is conditional Restrictions on both primary electrical power source and the means of converting electrical energy into mechanical energy. Even the amount of electrochemical energy contained in a watch case suitable battery can be accommodated is very limited. Therefore it is necessary the existing electrical energy in the most efficient way into mechanical energy to convert so that the longest possible battery life is achieved.

There are already different types of electrical drive means for Conversion of electrical energy into mechanical energy in electrical clocks has been proposed. These means have either moving or stationary coils and work either with stationary or with moving permanent magnets of various types To shape. These designs are generally unsatisfactory once tried is made to decrease its size in order to fit it into your watch case accommodate. The magnetic circuits generally result in extensive flux spreading, which adversely affects other parts of the watch. Try this river dispersion to control or restrict, then have motors with a low power result.

To alleviate this lack, it is with an electric clock, which has a unit consisting of a balance wheel and a balance shaft, known, that at least one coil, which has at least three spaced apart sides, is carried in a perpendicular plane to the balance shaft, and the means for Formation of a magnetic field possesses. the at least three spaced apart has reinforced areas whose magnetic axes are parallel to the balance shaft extend with the sides of the coil spaced apart so that they the reinforced areas pass simultaneously and the means to periodic Connection of the coil to the battery has to create a magnetic flux around the Generate coil.

It is z. B. the arrangement made so that the coil of two semicircular flat coils symmetrically to the balance wheel diameter, whereby the magnetic fields in the Moment of excitation lie so that four impulses occur at the same time. These Arrangement has, apart from the considerable space occupation of the two used Hufei senmagnete, the disadvantage of considerable stray fields, since the magnetic areas on act on both sides of the balance wheel diameter. The same is the case with a different arrangement with two symmetrically arranged triangular coils and six alternately polarized Bar magnets are the case, of which only two are active at the same time Coil parts act impulsively in the sense of torque generation, during the third induces a centrifugal or centripetal force; if one wants to take advantage of him too, so you have to extend the contact time so far that several pulses in succession occur, which is very unfavorable for the isochronism conditions.

To now the drive line with essentially the same battery consumption to improve even further, but without space-consuming and considerable stray fields To use conditional magnet systems is the case for a watch as described in the previous paragraph mentioned genus the invention in the use of an eccentric to the balance shaft coil arranged within a range of at most 180 ° around the balance shaft, but in such a modified form of the coil and in such an arrangement of the Magnetic poles that in spite of the eccentric coil position at the moment of excitation of the Coil from the magnetic poles to at least three with current flowing through them approximately in the radial direction Set the coil at the same time drive pulses in the same direction to the Coil-bearing balance wheel are exercised.

According to an expedient development of the invention, there is only one coil provided, the one to the balance shaft extending substantially radially rearward Page, two inclined sides connected to the ends of the rear side and two radial ones Has legs that at one end with the sloping sides and at their other End connected.

According to another expedient development of the invention can two coils can also be provided. one leg of the one coil parallel next to it one leg of the other coil is arranged. so that both legs at the same time lie in one of the enhanced areas of the magnetic field.

With such an arrangement, a higher torque at substantially the same battery consumption can be achieved, so that an increased driving force is generated, or it can, if an increased driving force is not required is used, a smaller battery is used, or the battery life is increased be achieved.

The invention is shown in the drawings in two exemplary embodiments explained. 1 shows a perspective partial view of a watch with the balance unit and the drive mechanism, FIG. 2 is a side view of FIG. 1, FIG. 3 is a plan view on the parts of the clock shown in Figs. 1 and 2, Fig.4 a vertical Partial section along the line 4-4 of Fig. 3. Fig. 5 is a plan view of a clock according to another embodiment, Fig. 6 is a partial side view of Figs FIG. 7 shows a vertical partial section along the line 7-7 in FIG. 5.

In Figures 1 to 4, a watch is generally of the same type shown as described and presented in an older proposal by the inventor is, and since the clocks are only through the means of converting the electrical Differentiating energy into mechanical energy, these are only parts of the clock shown.

1 to 4 show a clock, which has a support plate 10 and a Has balance 12 which is arranged on a balance shaft 14. The balance wheel 12 has a tire 16 carried by arms or spokes 18 and 20. On one side of the tire 16 conventional counterweights 22 are provided to support the weight of a reel which will be described below. The support plate 10 is below the balance wheel is provided with a circular section-shaped recess 24, which is defined by vertical Areas 26 and 28 is limited. The clock has a dial 30, an hour hand 32, a minute hand 34 and a second hand 36.

Inside the balance wheel 12 is a coil designated as a whole by 38 arranged, which is shown in a transparent for the purpose of better illustration Plate 40 made of synthetic resin is embedded. The synthetic resin plate 40 is in the form shown in FIG. 3 lower half of the balance 12 between the arms 18 and 20 and the tire 16 cast or molded, as can best be seen from FIGS. 1 and 3. Fig. 3 shows that the coil 38 has a rear part 41, two connected to the straight part 41 inclined sides 42 and 44 and a substantially U-shaped part 46, the radial legs 48 and 50 are connected to the inclined sides 42 and 44, has. One end of the spool is connected to the balance wheel while the other end is connected to one appropriate contact mechanism is in connection.

Below the balance wheel 12 are in the circular segment-shaped recess 24 of the support plate 10 openings are provided in the cylindrical magnets 52, 54, 56 and 58 are pressed in. The magnetic flux comes from the ends of the magnets perpendicular to the same. The magnets are arranged in such a way that in the position shown in Fig. 3 shown balance position of the -Nlagnet 52 under one end of the rear part 41 of the coil 38, the magnet 54 under the radial leg 48, the magnet 56 under the radial leg 50 and the magnet 58 under the other end of the rear Part 41 is located. The upper poles of the magnets 52 and 56 are poles of the same name, their The polarity of the upper poles of magnets 54 and 58 is opposite, so that the pulse generated by every 'ATagnetfel <1 tends to move the coil and balance wheel in move in the same direction of rotation.

Above the lower half of the balance in FIG. 3 is an upper magnetic yoke 60 arranged by two pins made of soft magnetic material 62 and 64 which extend through the support plate 10. Through the upper magnetic back yoke part 60 and the pins 62 and 64 lead screws 66 and 68, which engage in a lower magnetic yoke 70, which is below which extends in Figure 3 lower half of the balance on the lower side of the support plate. The support plate 10 is made of a suitable non-magnetic material, for example Brass or nickel silver, while the magnetic back yoke parts 60 and 70 as well the pins 62 and 64 made of magnetizable material, for example low-carbon Steel. The screws 66 and 68 can either be made of magnetizable or be made of non-magnetizable material.

The upper magnetic yoke part 60 has two outwardly extending legs 72 and 74, which are carried by the pins 62 and 64, and the inner ends of which form a W-shaped part 76 . The lower magnetic yoke part 70 is shaped similarly and has legs 78 and 80 which are connected to one another by a W-shaped part, as can be seen from FIG. The lower surfaces of the 14lagnete 52 and 54 are connected to the left leg 84 of the W-shaped part 82 of the lower magnetic yoke part 70, while the lower surfaces of the magnets 56 and 58 with the right leg 86 of the W-shaped part 82 of the lower magnetic yoke part stand in touch.

One now accepts. the current flows through the coil 38 in the direction indicated by an arrow on the coil part 41 in FIG Current flow mediated. The same current flow in the coil 38 generates a current which flows inwardly in the direction of the balance shaft 14 through the radial leg 48 above the magnet 54. If the upper end of the magnet 54 is a south pole, it generates a pulse on the coil leg 48 to the left, at right angles to the coil leg and the current flow through the same. At the same time, current flows radially outward through leg 50 of coil 38 above magnet 56, and when the top of that magnet is a north pole, leg 50 is given a pulse to the left, perpendicular to leg 50 and the current flowing through it . The current flow in the right end of the part 41 interacts with a south pole at the upper end of the magnet 58, as a result of which a downward pulse is generated at the right end of the part 41 at right angles to this. It can be seen from this that the impulses generated by all four magnets tend to give the coil and the balance wheel a clockwise rotation at the same time. The magnetic poles can of course also be polarized the other way round, as described here, provided that the relative polarities remain unchanged so that the adding pulses can be generated on the coil.

For a given current in coil 38, there can be four adding pulses are obtained to move the balance wheel, using a high torque and a more effective stimulating mechanism is created than it has been before was available. The magnetic circuit is also here in part of the clock due to the closure of the iron road isolated, as already in an older proposal by the inventor has been described. This reduces the stray field problems to a minimum, while at the same time through the use of the disclosed small cylindrical Magnets and the magnetic return circuit strong magnetic fields in very limited Spaces are created.

5, 6 and 7 is another embodiment of the invention in which the one used in the embodiment of FIGS single bobbin is replaced by two bobbins carried by the balance wheel. Thus, in Fig. 5, a clock is shown which has a support plate 90 on which a balance 92 with a balance shaft 94 is arranged. As in the previous one Embodiment, this watch is of the same type as in the aforementioned concurrent applications has been disclosed in more detail.

The balance wheel 92 has a hoop 96 carried by arms 98 and 100 will. Counterweights 102 are arranged on tire 96 to support the weight of the following to compensate for the coils described. In the support plate 90 is a circular segment Recess 104 is provided, which is delimited by side surfaces 106 and 108. the Support plate 90 is provided with openings into which three cylindrical magnets 110, 112 and 114 are pressed in.

Two coils 118 and 120 are arranged in the balance wheel 92 by means of a plate 116 made of synthetic resin. The coil 118 consists of approximately radial legs 122 and 124, which are connected to one another by an arcuate part 126. The coil 120 is formed in the same way with radial legs 128 and 130 which are connected to one another by an arcuate part 132. The radial legs 124 and 128 of the coils 118 and 120, respectively, are arranged parallel and side by side above the upper surface of the central magnet 112, as can be seen from FIGS. 5 and 7. This magnet preferably has a wider diameter than magnets 110 and 114 in order to achieve a uniform field for both coil legs 124 and 128. Radial legs 122 and 130 of coils 118 and 120 are positioned over the top surfaces of magnets 110 and 114, respectively. The coils 118 and 120 can be connected either in series or in parallel, but they are connected so that the current in the upper radial legs 122 and 130 flows in opposite directions, as indicated by arrows. As a result, the current flows through the parallel legs 124 and 128 above the magnet 112 in the same direction.

Above the balance wheel and the coils is an upper magnetic back yoke 134 arranged by two pins 136 made of soft magnetic material and 138 is worn. As in the previously described embodiment of the invention, These pins also extend through the support plate 90. Through the upper #% magnet return member 134 and the pins 136 and 138 are screws 140 and 142 out, which in a engage the lower magnetic return part 144, which is below the balance wheel of all the lower Side of the support plate 90 is arranged. As in the previous embodiment if the support plate is made of a suitable non-magnetizable material, such as Brass or German silver, while the magnetic back yoke parts 134 and 144 made of magnetizable Material, such as low carbon steel, are made. The screws 140 and 142 can be made of either magnetic or non-magnetic material exist.

When the current in coils 118 and 120 is shown in FIG. 5 with arrows designated direction flows and the upper end of the middle magnet 112 is a south pole is then the coil sides 124 and 128 a pulse to the left, at right angles to these coil sides and the current flow in the same, mediated. In this case the upper end of magnet 110 is a north pole that corresponds to leg 122 of coil 118 in Fig. 5 a pulse upwards, perpendicular to the coil side and the current flow in the same, mediated. The top of magnet 114 is also a north pole, so that the leg 130 of the coil 120 in Fig. 5 is a pulse downward, at right angles is conveyed to the coil side and the current flow in the same. It will be accordingly four different impulses generated simultaneously, each of which tends to the Turn balance 92 clockwise. The direction of the current flow can of course can also be reversed as long as only the current flow in the parallel legs 124 and 128, which are in the same magnetic field, takes place in the same direction. The polarities of the magnets can also be reversed as long as the upper poles are of magnets 110 and 114 have the same polarity as that of the upper pole of the Magnet 112 is opposite.

As in the embodiment described above, so is Here the magnetic circuit and the impulse-generating mechanism are locally limited in one Part of the clock housed, with the stray fields through the magnetic circuit on To be reduced to a minimum. For a given current flow, a high degree of Momentum torque achieved to be an effective means of converting electrical Conserve energy in mechanical power with the least possible use of the battery.

Claims (3)

PATENT CLAIMS: 1st clock with battery drive with one from a balance wheel and a balance shaft unit, of which at least one flat coil, the has at least three spaced apart sides, in one to the balance shaft perpendicular plane is supported, and the means of forming a magnetic Field has at least three spaced apart reinforced areas has, the magnetic axes of which run parallel to the balance shaft, the Sides of the coil are spaced such that they meet the reinforced areas happen at the same time, and the means for periodically connecting the coil with of the battery to generate a magnetic flux around the coil, characterized by using an eccentric to the balance shaft within an area of a maximum of 180 ° around the balance shaft arranged coil or coil combination, however, in such a modified form of the coil (s) and in such an arrangement of the Magnetic poles that in spite of the eccentric coil position at the moment of excitation of the Coil or coil combination from the magnetic poles to at least three approximately in radial direction current-carrying places of the coil or coil combination at the same time Driving impulses exerted in the same direction on the balance wheel carrying the coil (s) will. 2. clock with battery drive according to claim 1, characterized in that only one coil (38) is provided, which is one in relation to the balance shaft (14) rear side (41) running essentially parallel to a diameter, two inclined sides (42, 44) connected to the ends of the rear side (41) and two radial legs (48, 50) which at one end with the inclined Pages (42, 44) and are connected to each other at their other end. 3. Battery-powered clock according to claim 1, characterized in that two coils (118 and 120) are provided, one leg (124) of one coil (118) being arranged in parallel next to one leg (128) of the other coil (120) so that both legs lie simultaneously in one of the reinforced areas (112) of the magnetic field, while two other legs (122 and 130) run parallel to one diameter but in opposite directions and at the same time in two other reinforced areas (110, 114 ) of the magnetic field. Documents considered: French Patent Specifications Ni r. 1006 6-10, 1,118,744, 523,885, 501215; published documents (Delivran ce) of French patent No. 1 134 560.