RU110510U1 - CLOCK SPRING ENGINE AND SPRING ENGINE CLOCK - Google Patents

Abstract

1. A spring-loaded watch engine, containing a drum with a jagged edge, a spring placed in the drum with the possibility of rotating the jagged edge of the drum and driving the clockwork, and a means for bringing the engine spring into a stressed state when winding the watch, characterized in that the drum is made annular with a through a central hole with the possibility of placing the clock mechanism inside the through central hole. ! 2. Spring watch engine according to claim 1, characterized in that a toroidal spring is placed in the annular drum with the possibility of compression / unclenching or unclenching / compressing and driving the clock mechanism in the process of corresponding unclenching or compression. ! 3. Spring watch motor according to claim 1, characterized in that a torsion spring is placed in the annular drum with the possibility of twisting/unwinding or unwinding/twisting and driving the clock mechanism in the process of corresponding unwinding or twisting. ! 4. Spring watch engine according to claim 1, characterized in that a leaf spring is placed in the annular drum with the possibility of compression / unclenching or unclenching / compressing and driving the clockwork in the process of corresponding unclenching or compression. ! 5. Spring watch motor according to claim 1, characterized in that a coil spring is placed in the annular drum with the possibility of twisting/unwinding or unwinding/twisting and driving the clock mechanism in the process of corresponding unwinding or twisting. ! 6. Spring watch motor according to claim 1, characterized in that the means of driving

Description

FIELD OF TECHNOLOGY

The utility model relates to chronology, to a mechanical watch with an arrow display of the current time, and can be used in the manufacture and use of original, unusual, mysterious wrist watches, desktop or pocket watches, pendants, pendants, jewelry, devices and items with a mechanical calculation of time and mechanical spring motor and tourbillon.

BACKGROUND

The idea of creating and using mysterious watches (mystery watches, mystery watches), the principle of which is not clear at first glance, has attracted watchmakers and consumers for a long time. For almost two centuries, attempts have been made to invent transparent mechanical watches, but still it was possible to create transparent only bulky table clocks or relatively large pocket and wrist mechanical watches.

An unusual way of arrow indication, creating the effect that the viewer sees a completely transparent dial with hands fixed on it, correctly indicating the time, without observing any mechanism rotating them, was first invented and created by the French watchmaker and illusionist Jean Eugene Robert-Uden (Jean- Eugene Robert-Houdin), who is considered the founder of modern illusion magic.

His watch, first demonstrated at the French industrial exhibition in 1839, was a bronze case-base, on which there was a transparent crystal dial, above which, as if hanging on the air, arrows drawn on glass disks, which moved as if by themselves, without whatever the visible mechanism.

In fact, the movement on the crystal dial was transmitted in this watch from the mechanism located in the upper part of the case through a system of gears and screw rods.

Later, watch manufactories, including Cartier and LeCoultre, began to produce such transparent table mechanical watches, in particular, Cartier manufactory, starting in 1912, they released only about 30 pieces of table watches, the distinguishing feature of which was completely transparent rock crystal case with a mechanism hidden in a gold bezel of the dial.

Known pocket antique watches Mysterieuse (Riddle), France, the 19th century, a case made of silver with a diameter of 53 mm, a mechanism with a cylindrical stroke. It is assumed that the Mysterieuse watch was created to surprise, make you think: how can it work? This is a pocket watch with glass, completely transparent walls, arrows are moving in the center of the dial, and the mechanism is not visible. The question arises: due to what forces and mechanisms does the movement of arrows occur? It turns out that the hands in this watch are motionless, and the two thinnest glasses rotate, on one of which the hour hand is fixed, on the other - the minute hand. These thin glasses drive a mechanism located in a narrow rim of the housing. The third fixed glass is a dial [1].

Mysterious pocket watches of the company Armand Schwob and brothers (Armand Schwob & Freres) are known - watches were produced for the Chinese and European markets around the 1890 phases of the moon. This version of the mysterious watch has a crescent-shaped mechanism hidden under the bezel of the watch case, which rotates the transparent glass disks located between the glass of the dial with the arrows fixed on them. The model was patented by Arman Schwob [2].

The disadvantage of this model is the asymmetry (in the shape of a crescent) of the case, the significant thickness of the movement with the dial due to the use of six transparent dials in this watch, which significantly degrades the performance of the watch, especially in the case of a watch. In addition, the hands in this watch are translated by rotating the minute hand with a finger, since there is no hand translation unit.

Thus, until today, there is still a problem that has not yet been adequately resolved for creating small, simple in design and cheap to manufacture transparent wrist watches, precise mechanical watches with a symmetrical round ring-shaped case symmetrical relative to the round dial.

Until recently, Swiss watchmakers believed that the idea of transparent watches was inconceivable to realize, but now large watches with an invisible mechanism and arrows hanging in the air began to appear and be made, which is perceived as very unusual, mysterious and attractive.

One of the most popular mysterious watches today is the very expensive Quinting Mystery Cardinal watch — a watch with a transparent spectacular dial, a quartz drive and a mechanism made of transparent sapphire [3].

The Mysterious Cardinal mechanism is a system consisting of 7 parallel transparent sapphire discs, pre-metallized and coated with anti-reflective coating. This complex mechanism contains 3 fixed and 4 rotating transparent sapphire discs, which set in motion the hands of the minutes, hours and date indicator, as well as the hand of a small second dial, which is at 6 o’clock. Despite such a number of sapphire layers (only 9-7 in the mechanism and 2 protective), the Mysterious Cardinal watch in the area of the dial is absolutely transparent.

With its original appearance, this watch is distinguished by its relatively large dimensions - 43.8 mm in diameter (without crown) and 14 mm thick, and also very difficult to manufacture, since sapphire is very hard and can be processed with diamond tools.

The absolute transparency of the sapphire movement and the dial, encased in precious metal and precious stones, makes the Quinting watch unique in appearance, but very difficult to manufacture and very expensive luxury goods.

The Louis Vuitton fashion house has announced the Tambour Mysterieuse LV 115 watch, which is considered one of the most complex of transparent watches, in which the hours and minutes are traditionally displayed using sapphire dials, with arrows drawn on them, and an opaque mechanism encrusted with precious stones is placed in the center hull and as if "floating" in it. It is noted that the creation of each watch Tambour Mysterieuse LV 115 takes one year, is made individually for each buyer, the watch case can be made of platinum or gold - white, yellow, red, and its case diameter - 42.55 mm, and the pre-announced price is 265,000 US dollars [4].

There are also known complex mysterious watches “mystery watch”, created by the author of this application in 2008. This is a wristwatch with a round transparent dial inside an asymmetric ring-shaped case in the form of an incomplete moon and arrows rotating between its glasses and a moving map of the starry sky. The visual effect is such that it seems to the observer that the hands soar freely in the empty watch case against the background of moving stars. The principle of operation of the watch is that under the glass of the case there are three more of the same transparent discs. A minute hand is attached to the first (upper), an hour hand to the second, and a map of the starry sky is applied to the third, lower sapphire dial. These watches, with relatively small sizes — a diameter of 38 mm and a height of 9 mm — make 18,000 vibrations per hour and are complex in design, have 1000 stones, 1281 parts, five sapphire discs. These five transparent sapphire discs show hours, minutes, date, month and a map of the starry sky, and on the case the moon phases, power reserve indicator, time equation are separately shown. In this mechanism, sapphire discs are held around the circumference by gears, which set in motion a clock mechanism, hidden under the asymmetric rim of the watch. The engine in this watch is made in the form of a spiral spring placed inside the larger side part of the asymmetric case in a plane parallel to the plane of the dial [5].

Thus, unusual original and outwardly incomprehensible solutions for the arrow indication of transparent mysterious watches are still very popular.

Transparent watches are also known, the mechanism of which is extended in a line and hidden under a decorative strip passing through the entire transparent dial. Its shortcomings can be called that the arrangement of the mechanism is still quite obvious, and the observer does not have such a visual effect, as in the case when the arrows hang in the middle of the dial themselves and rotate “by themselves” [6].

Common drawbacks of the above analogue watches are the asymmetry of the case, the complexity and the usual cumbersome design of the mechanisms, and the impossibility, according to these decisions, of placing their arrow system with rotating hands between two disks, which makes them practically unsuitable for use in small wrist watches.

The mysterious Leendert Prins watches are known, which contain four transparent disks - two external, fixed, and two internal rotating. The minute hand is attached or drawn on one of the internal disks, and the hour hand on the other. Rotating discs are driven by teeth located along the edges [7].

The disadvantages of this design is the lack of rotating hands, which significantly impairs the visual and operational properties of the watch, especially in the case of the design in the watch.

A later modification of the mysterious Lindert Prince clock is known using instead of two internal rotating disks one internal rotating disk. This watch uses a simplified mechanism with one rotating glass disc instead of two. The hour and minute hands are attached to one glass disc, but the minute hand is connected to a rotating gear fixed in the frame of the watch and thus disguised. In the center of the clock, a rotating shaft is attached to the minute hand, which, with the help of several gears, drives the hour hand [8].

The disadvantages of this design are the asymmetry of the case, the need to fasten the minute hand in the frame of the watch, and thereby significantly reduce the "mysterious" visual effect, since it becomes obvious where the mechanism that drives the minute hand is hidden.

Currently common mechanical watches usually contain: a spring motor, usually based on a coil spring; mechanism of the factory and the translation of the hands (in the language of watchmakers - repair); trigger (in the language of watchmakers - descent, stroke), which converts continuous rotational motion into oscillatory or reciprocating motion; oscillatory system in the form of a pendulum or a balancer (balance); a system of gears or gears connecting the spring motor and the trigger mechanism (in the language of watchmakers - engraining); dial mechanism and dial [14 (prototype)].

The spiral spring-based spring motor that we have chosen as the prototype for the spring motor is usually a spiral spring attached to the shaft and placed in a cylindrical drum with a serrated edge. Unrolling around the axis, a spiral spring rotates the drum (inside which it is located), and its gear edge through it a system of wheels, a trigger mechanism and a regulator sets in motion a dial mechanism. When winding the clock, rotating the crown through the gears rotates the shaft connected to the spring, onto which a spiral spring is wound compressing [14 (prototype)].

The main disadvantage of a spring motor based on spiral springs is the uneven speed of unwinding of the spring, which leads to inaccurate hours. Each coil spring during its unwinding changes its drive force. To eliminate this drawback, various methods have been and are being applied: the exception in the work of the spring its initial and final phase through the use of cam mechanisms, of which the Maltese mechanism, ring-shaped and finger cam mechanisms are known.

The variability of the drive force can also be limited by lengthening the spring and increasing the supply of its energy. However, the elongation of the spring is due to its thickness. Thin springs also require special alloys that better withstand load and fatigue [15].

Thus, the main disadvantage of a spring motor based on spiral springs is the uneven speed of unwinding of the spiral spring, which leads to inaccurate hours. Also, a mechanical watch’s accuracy depends on many factors, such as temperature, position of the watch, wear of parts and others. Therefore, for mechanical watches, discrepancy with the exact time of 15-45 seconds per day is considered normal, and the best result is 4-5 seconds per day.

To compensate for the influence on the accuracy of the movement of the clock’s position in spaces (to compensate for the influence of gravity on the physical centers of gravity of watch parts and their displacement relative to the mathematical centers of gravity of watch parts), Abraham-Louis Breguet invented in 1795 and patented a tourbillon in 1801 (French Tourbillon - a whirlwind). The tourbillon consists of a balance, an anchor fork and an anchor wheel located on a special rotating platform (the most common rotation speed: 1 revolution per minute). This is one of the most complex and expensive additional mechanisms with an accuracy of -1 / + 2 sec. per day. A tourbillon in an expensive watch is often made visible on one side through a special window in the dial [16, 17].

The idea of the tourbillon is to compensate for the effect of gravity on moving and balanced parts of the mechanism, namely balance, spiral and descent, by rotating them around its own axis inside the watch case.

The tourbillon is very difficult to manufacture, Breguet himself collected only 30 of these mechanisms. Even now, a tourbillon mechanism weighing only a few carats can consist of several tens of parts, and sometimes reach hundreds. Therefore, even now, with the advent of laser precision cutting of metals and the latest methods for their processing, even the most eminent companies produce no more than 10-20 tourbillons a year.

Today, the need for such an increase in the accuracy of watches has virtually disappeared, since the watches have already become quite accurate, so the use of tourbillons remains only in the design of the most expensive of them, as a tribute to high watchmaking.

Currently, there are two main schemes for collecting tourbillons:

The first is classic when the carriage is fixed on both sides along the axis of rotation. This method of fastening involves placing on the front of the mechanism of the "bridge", an arched structure, usually with three support points, through which the rest of the mechanism is visible. A ball bearing made of rubies is built into it.

The second type of tourbillons is soaring. Here the arched bridge is absent, and the carriage is fixed only on one side, so nothing prevents from this side to admire the work of the mechanism.

However, to date, not a single mysterious clock design is known in which the tourbillon would be completely “airy” from all sides, that is, made in air in a completely transparent space on all sides.

In particular, various brands of wrist and pocket watches are known, the case of which is completely transparent in front and behind, which allows you to see the clockwork in operation; An example of such a watch is the Omega tourbillon (patent CH 687795G A3). Despite a certain decorative effect, which is achieved by such a watch design, although the visible clockwork mechanism filling the entire internal space of the case obscures the hands and makes it difficult to quickly determine the point in time.

Creating mysterious watches (riddle watches), where there is a transparent region, the craftsmen strove to keep the usual dimensions and appearance of the watch to show the invisibility, stealth of the drive mechanism. In most known constructions, a mechanism based on a spiral spring was usually placed in an opaque region of the case, which led to the need to increase its size or deformation to form asymmetric extensions of one of the opaque parts of the case ..

A known design of a decorative table clock described in the application FR 2741967 G04B 45/04, G04G 17/00, which include an asymmetric case, consisting of a transparent or translucent outer and rear glass of the case and an opaque rim of the case, inside of which there is a clockwork. To measure time periods and create a decorative effect, at least two transparent disks are placed inside the watch case, on each of which inscriptions and / or images are applied corresponding to the measured time interval. Under the opaque rim of the case there is a clock mechanism, gears transmitting rotation from the clock mechanism to each of the transparent disks, and a fixing unit fixing each of the transparent disks. That is, the design of the watch provides end-to-end visibility through the watch case without an overview of the clockwork.

This watch design does not provide for the possibility of their use as a wrist or pocket watch, in addition, the eccentric movement of transparent discs unnecessarily complicates the watch design.

The closest in technical essence and the technical result achieved using the analogue (prototype) are watches, including an asymmetric case, consisting of a transparent outer and rear round glass of the case, one of which forms a round dial, and an opaque asymmetric rim of the case, inside of which are located at least two transparent disks, on each of which inscriptions and / or images are applied corresponding to the measured time interval: at least hours and minutes, and also placed under an opaque rim of the case: a clock mechanism, gears configured to transmit rotation from the clock mechanism to each of two transparent disks, and a fixing unit configured to fix each of the transparent disks, characterized in that they include at least two gears, each of which is formed by a gear wheel and a gear edge of a transparent disk and configured to transmit rotation to its corresponding transparent disk, while the watch case has a port active, and its outer side surface is equipped with at least one means of mechanical connection, and the clock mechanism includes a mechanical or electric drive, and the means of mechanical connection located on the outer side surface of the watch case is made with the possibility of connecting with a bracelet (strap) wrist watches, with a chain of pocket watches or with a chain of pendant or pendant [9 (prototype)].

The disadvantages of this watch are the lack of rotating hands and the visible mechanism of the arrow indication and tourbillon, as well as an asymmetric (not round) case, which significantly worsens the visual and operational properties of the watch, especially in the case of the construction in a watch, and also significantly increases the size of the case and, accordingly, it reduces the ratio of the area of the transparent dial to the area of the opaque case (the effect of mystery is reduced).

TASKS AND TECHNICAL RESULTS

The objective (goal) of this utility model is the development, industrial production and practical use of symmetrical (with a conventional round case and round dial) and compact mysterious watches with a visible arrow indication system and tourbillon, which are structurally simpler and more convenient to use due to the reduction in watch size while increasing the transparent visible region of the dial in relation to the area of the opaque case, increasing the reliability of operation and cheaper in production dstve mysterious hours, including hours with tourbillon.

The technical result obtained by using the utility model is to increase the visual attractiveness and mystery of a watch with a regular round case transparent in the middle and a round dial, while increasing the accuracy of movement and reducing the size and compactness of the mysterious watch mechanism and making it possible to use it not only in relatively small men's watches watches, but also in small mysterious women’s watches with an “air” arrow mechanism and a possible “air” “tourbillon”, as well as in small pendants, jewelry, devices and products with a mechanical calculation of time.

DISCLOSURE OF A USEFUL MODEL

The problem is solved, and the required technical result is achieved by the fact that in the spring engine of the watch, containing a drum with a serrated edge, a spring placed in the drum with the possibility of rotation of the serrated edge of the drum and set the clockwork in motion, and means for bringing the engine spring into tension at the factory hours, according to a utility model, the drum is made annular with a through central hole with the possibility of placing a clockwork inside the through central hole.

Moreover, in an annular drum

a toroidal spring is placed with the possibility of compression / expansion or expansion / compression and the movement of the clock mechanism in the process of the corresponding expansion or compression,

or a torsion spring is placed with the possibility of twisting / untwisting or untwisting / twisting and putting the clockwork in motion during the corresponding untwisting or twisting,

or a leaf spring is placed with the possibility of compression / expansion or expansion / compression and the movement of the clock mechanism in the process of corresponding expansion or compression,

or a spiral spring is placed with the possibility of twisting / untwisting or untwisting / twisting and putting the clockwork in motion during the corresponding untwisting or twisting.

At the same time, the means for bringing the clock engine spring to working condition at the watch factory includes a cam clutch gearing with the serrated edge of the drum and the crown of the crown, and to prevent the spring from twisting during the winding, the spring motor contains means for limiting the spring voltage.

In this case, the spring motor of the watch is configured to drive the clock mechanism with an arrow indicating the time and can be configured to drive the clock mechanism with a tourbillon.

The problem is solved, and the required technical result is also achieved by the fact that in a watch with a spring motor, the case containing transparent external and rear windows, a clock mechanism with a spring motor, a clock winding device and a time display device according to a utility model, the case is made hollow ring-shaped with inside a ring-shaped spring motor comprising a ring-shaped drum with a serrated edge with a through central hole, a spring with an air spring located in the ring-shaped drum the ability to rotate the gear edge of the drum and set the clockwork in motion, and a means of bringing the engine spring into a tense working state when the watch is wound.

In this case, the watch comprises a spring motor of the design described above, and the time display means in the watch comprises a time indicating mechanism located inside the annular drum of the spring motor with the formation of transparent gaps observed through the outer and rear windows between the time indicating mechanism and the case or the time indicating means in the form of at least one arrow pointer and located on the inner side of the housing rim from the side of the outer glass of the scale with numbers E marks or slots.

According to one possible embodiment, shown in detail in FIGS. 1-6, the clock mechanism comprises a winding shaft 1, a gear wheel 20, a central wheel 13, an intermediate wheel 14, a second wheel 19, an anchor wheel 16, an anchor fork 17, a balance unit 18, hour hand 27,

made with the possibility of gearing of the gear wheel 20 on the central axis with the tribe of the central wheel 13, the blade of which is gearing with the tribe of the intermediate wheel 14, the blade of which is gearing with the tribe of the second wheel 19, the blade of which is gearing with the tribe of the anchor the wheel 16, which is in gear mesh with the anchor fork 17.

At the same time, the clock (Figs. 5, 6) includes a translation unit, including a cam clutch 2 located on the crown shaft 1, a clutch 2, a translating wheel 3, a translucent transparent disk 5 with a clockwise 27, and mounted on a central axis 26, frictionally connected with axis 28 of the drive disc 9.

In addition, the outer side surface of the watch case is equipped with at least one means of mechanical connection, made in the form of a bracelet or wrist strap fastener, a pocket watch chain fastener or a pendant or pendant fastener.

The problem is solved, and the required technical result is also achieved by the fact that according to the method of assembling watches containing an annular hollow case with transparent outer and rear windows, a clock mechanism including a spring motor, a clock winding and transfer facility, an oscillating system, a trigger mechanism connecting the engine and trigger system of gears and mechanism of time indication means, according to a utility model

a spring motor and a factory and clock transfer facility are configured as an annular engine module and a repair unit,

the engine and repair module are placed in the cavity of the annular body,

and the oscillating system, the trigger mechanism connecting the engine and the trigger mechanism, the gear system and the mechanism of the time indication device are placed inside the ring-shaped engine module and the repair kit.

In this case, as the spring engine, the spring engine described above, the oscillating system, the trigger mechanism connecting the engine and the trigger mechanism, the gear system and the mechanism of the time indication device are placed inside the ring-shaped engine module and the repair unit with the formation of transparent gaps observed through the outer and rear windows between them and case.

According to this new, previously unknown, original arrangement of watches, the most dimensional parts, such as, for example, the balance unit, are located in the center of the clock mechanism in the very middle of the new spring engine of a mechanical watch, which would also be overall in a classic version.

Thus, according to the utility model, the new design of the case, the spring motor of the watch and the watch mechanism are located relative to each other according to a new, original layout scheme, which ensures the smallest possible dimensions of the visible region in the center of the watch and the maximum possible transparent space between it and the edges of the opaque case.

The tourbillon in the watch design according to the invention is only a possible decorative addition and can be replaced by an ordinary descent unit and regulator.

DESCRIPTION OF DRAWINGS

The essence of the utility model is illustrated by the drawings shown in figures 1, 2, 3, 4, 5, 6, 7.

Figure 1 shows the inventive spring clock engine in an exploded state, comprising a drum wheel 6, a drum 7 with a serrated edge, a toroidal shape spring 8, working for compression / expansion, or for expansion / compression, or twisting / crushing.

Figure 2 shows the mechanism of the winding spring engine of the watch, including the winding shaft 1 with the crown 2 and the cam clutch 3, made with the possibility of gearing with the crown teeth of the drum wheel 6, which is connected with a special stop to the end of the toroidal spring 8.

Figure 3 shows a front view of a variant of the design and layout of the clock with a spring motor and tourbillon, comprising a winding shaft 1, a clockwork tribe 3, a cam clutch 3, a translating wheel 4, a translating disc 5, a drum wheel 6, a drum 7, a toroidal spring 8 , gears 10, 11 and 12, a drive gear 9, a gear 20, a central wheel 13, an intermediate wheel 14, a second tribe 24, a second wheel 19, an anchor wheel 16, an anchor fork 17, an hour hand, a tourbillon carriage bridge 21.

Figure 4 shows a side view of a variant of the design and layout of the watch mechanism with a spring motor and a tourbillon, comprising a clockwork shaft 1, a clockwork tribe 3, a cam clutch 3, a transfer wheel 4, a transfer disk 5, a drum wheel 6, a drum 7, a toroidal spring 8, gears 10, 11 and 12, a drive gear 9, a gear 20, a central wheel 13, an intermediate wheel 14, a second tribe 24, a second wheel 19, an anchor wheel 16, an anchor fork 17, a balance unit 18, an hour hand 27 , tourbillon carriage bridge 21, clock axis 26, ENTRAL axis 28.

Figure 5 shows the translation unit of the mechanism, including the winding shaft 1, the cam clutch 2, the translating wheel 4, the translating transparent disk 5, on which the hour hand 27 is located and which is mounted on the central axis 26, which is frictionally connected to the axis 28 of the drive disk 9.

Figure 6 shows a front view of the embodiment of the design and layout of the clock with a spring motor and a dial indicating mechanism without a tourbillon containing a clockwork shaft 1, a gear wheel 20, a central wheel 13, an intermediate wheel 14, a second wheel 19, an anchor wheel 16, an anchor fork 17, balance node 18, hour hand 27.

The gear wheel 20 on the central axis works with the tribe of the central wheel 13, the blade of which works with the tribe of the intermediate wheel 14, the blade of which works with the tribe of the second wheel 19, the blade of which works with the tribe of the anchor wheel 16, which works with the anchor fork 17.

7 shows a front view of a variant of the watch with a spring engine and tourbillon.

IMPLEMENTATION AND INDUSTRIAL IMPLEMENTATION OF A USEFUL MODEL

A characteristic feature of the claimed utility model is the design and use of a spring motor based on a toroidal spring ring-shaped along the outer annular edge of the housing, which allows the use of a sufficiently long spring and, accordingly, to ensure the possibility of a fairly uniform compression / expansion, which in turn not only simplifies the design for due to the elimination of time-alignment devices for uneven unwinding of commonly used coil springs , but also increases the reliability and accuracy of the watch, as well as their compactness.

A characteristic feature of the claimed utility model is also the ability to perform a symmetrical circular annular case and a round dial with a diameter of the mechanism of about 38 mm and a diameter of the transparent region of about 29 mm with the possibility of placement in the center of the tourbillon (Figs. 3, 4, 7) or a conventional dial mechanism with an ordinary descent assembly and a regulator (Fig. 6) with the effect of "airiness", that is, the visually perceived placement of the switch mechanism "hanging in the air" without visible mechanical means of their attachment to sensor body clock.

This is achieved by the original design and location of the inventive spring motor of the original design, as well as by using transparent glass disks in the clockwork, both for the supports of the central axes and for the drives on the central axes.

As a possible but not necessary option for the design of the inventive spring motor, a clock with a spring motor and a method for assembling a clock with a spring motor with a toroidal shape in spring, working for longitudinal compression / decompression.

A spring motor with longitudinal compression / decompression located on the outer edge of a toroidal shape of the spring 8 is placed in an annular drum 7 with a hollow central part and a gear edge in a symmetrical circular annular case with a transparent symmetrical round window inside the engine.

In this case, the spring motor (Fig. 1) may include a compression / decompression toroid-shaped spring 8 located in the cylindrical groove of the annular cylindrical drum 7, closed laterally by a drum ring 6 with crown teeth on the outer edge. Inside the cylindrical groove of the annular cylindrical drum 6 is placed a toroidal shape of the spring 8, which at one end abuts against a ledge in the groove of the drum, and the other end abuts against the step of the drum wheel.

At the same time, it is possible to place the engine in an annular region of the case, limited by diameters of about 29 mm or less and about 38 mm or less, and this original design of the spring engine allows you to maximize the use of this central area of the clock with the formation of a transparent window inside the engine and, accordingly, inside a symmetrical ring case hours.

The inventive spring engine plant (Fig.2, 3, 4, 6), that is, bringing it into working condition, is carried out through the crown 1, the cam clutch 3, the clockwork trib 2 and the crown teeth of the drum wheel 6, which compresses the toroidal shaped spring 8 and brings it into working condition.

In order to prevent excessive compression and damage to the toroidal shape of the spring 8 during the plant process, it is possible to provide a means of limiting its compression in the form of an additional stop necessary to cut off too much moment when the spring coils are maximally deformed and can cause uneven stroke in the initial period of the stroke immediately after excessive factories.

Next, the clock drive (Figs. 3, 4, 6) is carried out from the gear edge of the drum 7 by means of gears 10, 11, 12, providing the necessary gear ratio, which allows to reduce the moment and accordingly increase the amount of movement.

The wheel 12 is in gear engagement with the ring gear of the transparent disk 9, which is rigidly connected to the wheel 20 with a central axis 28.

The wheel 20 is in gearing with the tribe of the central wheel 13, the blade of which is in gearing with the tribe of the intermediate wheel 14, the blade of which, in turn, interacts with the second tribe 24 of the tourbillon carriage.

A fixed second wheel 19 is mounted on a stationary transparent disk, which simultaneously serves as a support.

With the second wheel 19, the tribe of the anchor wheel 16 interacts, fixed together with the anchor fork 17 under a special bridge on the carriage.

The translation (Fig. 5) is carried out through the crown shaft 1 and the cam clutch 2 to the translating wheel 4 and then to the transparent translating disk 5, on which the hour hand 27 is located, this disk is mounted on the central axis 26, which is frictionally connected to the axis 28 of the drive disk 9 .

The minute hand in this embodiment is not shown, but with the addition of a system of dial wheels its installation is possible.

In the embodiment of the watch with a spring motor and a conventional mechanism without a tourbillon (Fig.6), the gear wheel 20 on the central axis works with the tribe of the central wheel 13, the blade of which works with the tribe of the intermediate wheel 14, the blade of which works with the tribe of the second wheel 19, the blade which works with the tribe of the anchor wheel 16, which works with the anchor fork 17.

The minute hand in this embodiment is also not shown, but with the addition of a system of dial wheels its installation is possible.

The inventive design of the spring motor can be used in the watch mechanism with an ordinary descent unit and a regulator, so with a tourbillon.

Thus, the proposed original design of the spring motor and the options for the original design of the clock with a spring motor provide an increase in the visual attractiveness and mystery of the watch with the usual round case transparent in the middle and round dial, while improving the reliability and accuracy of the movement and reducing the size of the mechanism and case of the mysterious watch, ensuring the possibility of its use not only in relatively small men's watches, but also in small FIR female mysterious wristwatch with "air" pointer mechanism and "air" tourbillon and a small pendant, jewelry, instruments and articles with mechanical calculation time.

The use of a toroidal shape of the spring is an original technical solution, previously not used in watches, since most of the requirements for engines were satisfied in ordinary watches with a standard spring.

The design of the ring-shaped engine, where an ordinary spiral spring cannot give the spring torque necessary for operation, is technologically simple and makes it possible to achieve the desired technical result.

As options for the execution of individual parts, assemblies, clockwork and clockwise drives of the watch, known and traditional for watchmaking technologies, materials and design solutions known in watchmaking can be used [10, 11, 12, 13].

Thus, given the novelty of the set of essential features, the technical solution of the problem, the inventive step and the significance of all the general and particular features of the utility model, proven in the section "prior art" and "Disclosure of a utility model", proven in the section "Implementation and industrial implementation of the utility model ", The technical feasibility and industrial applicability of the utility model, the solution of set inventive problems and the confident achievement of the required technical result when real In accordance with the model and use of the utility model, in our opinion, the claimed group of utility models satisfies all the eligibility requirements for the utility model m.

The analysis also shows that all the general and particular features of the utility model are essential, since each of them is necessary, and all together they are not only sufficient to achieve the goal of the utility model, but also allow you to implement the utility model in an industrial way.

In addition, the analysis of the set of essential features of the utility model and the uniform technical result achieved by using them shows the presence of a single inventive concept, close and inextricable connection between the spring engine and the design options of the clock with the spring engine, which allows us to combine the utility model in one application, that is, to ensure requirements of the unity criterion of a utility model.

INFORMATION SOURCES

1.http: //foto.mail.ru/mail/artembar/antiquarian-watch.

2. patent CH 151 of January 24, 1889.

3.http: //www.bling.ru/watches/quinting_jriysterious_quardinal.htm

4. http://www.oclock.info/vernisage/gallery/galleryviewer.php?tid=20&aid=3730

5.http: //www.clockmaker.ru/master_publ_38.htm

6. US patent No. 2312391 of March 2, 1943

7. US patent No. 2248195 of July 8, 1941, reissued May 1, 1945, RE 22640

8. US 2642713 dated June 23, 1953

9. RU 85004 G04B 45/04, publ. 07/20/2009 (prototype)

10. Kharitonchuk A.P. Reference book for watch repair, Moscow, 1977, p. 18, 21

11. Romanov A.D. Designing time devices. Moscow, 1975, p. 140

12. Tarasov S.V. Technology of watchmaking, Moscow, 1963

13. Popova V.D., Goldberg N.B. Device and assembly technology of watches. Moscow, 1989.

14. http://bse.sci-lib.com/article121589.html Clock (device). Great Soviet Encyclopedia (prototype).

15. http://www.watches.ru/index.php?page=30&art=55

16.Http: //ru.wikipedia.org/wiki/MEXAHHICHECKI CLOCK

17. http://lab-37.com/des_art/tourbillon/

Claims (16)

1. The spring engine of the watch, comprising a drum with a serrated edge, a spring placed in the drum to rotate the serrated edge of the drum and set the clockwork in motion, and means for bringing the engine spring into tension during winding, characterized in that the drum is ring-shaped with through a central hole with the possibility of placing the clockwork inside the through central hole. 2. The spring motor of a watch according to claim 1, characterized in that a toroidal spring is placed in the annular drum with the possibility of compression / expansion or expansion / compression and the movement of the clock mechanism in the process of corresponding expansion or compression. 3. The spring motor of a watch according to claim 1, characterized in that a torsion spring is placed in an annular drum with the possibility of twisting / untwisting or untwisting / twisting and setting the clock mechanism in motion during corresponding untwisting or twisting. 4. The spring motor of a watch according to claim 1, characterized in that a leaf spring is arranged in the annular drum with the possibility of compression / expansion or expansion / compression and the movement of the clock mechanism in the process of corresponding expansion or compression. 5. The spring motor of a watch according to claim 1, characterized in that a coil spring is arranged in an annular drum with the possibility of twisting / untwisting or untwisting / twisting and setting the clock mechanism in motion during corresponding untwisting or twisting. 6. The spring motor of a watch according to claim 1, characterized in that the means for bringing the spring of the clock engine to working condition at the watch factory comprises a cam clutch gearing with the gear edge of the drum and the crown of the crown. 7. The spring motor of a watch according to claim 1, characterized in that it comprises means for limiting the voltage of the spring. 8. The spring motor of a watch according to claim 1, characterized in that it is arranged to move a clock mechanism with an arrow indicating the time. 9. The spring motor of a watch according to claim 1, characterized in that it is arranged to drive a clock mechanism with a tourbillon. 10. A clock with a spring motor, comprising a case with transparent outer and rear windows, a clock with a spring motor, a clock winding and clock and means for indicating the time, characterized in that the case is hollow, ring-shaped with an annular spring-loaded ring-shaped engine inside. a drum with a serrated edge with a through hole in the center, a spring placed in an annular drum with the possibility of rotation of the serrated edge of the drum and set the clockwork in motion anism and means of bringing the engine spring into a tense working state when the watch is wound. 11 Watch according to claim 10, characterized in that it comprises a spring motor according to any one of claims 1 to 9. 12. The watch of claim 10, wherein the time indicating means comprises a time indicating mechanism located inside the annular drum of the spring motor with the formation of transparent gaps observed through the outer and rear windows between the time indicating mechanism and the case. 13. The watch of claim 10, characterized in that the time indication means is made in the form of at least one dial pointer and located on the inner side of the case rim from the outer glass side of the scale with numbers or time interval labels. 14. The watch according to claim 10, characterized in that the watch mechanism comprises a winding shaft 1, a gear wheel 20, a central wheel 13, an intermediate wheel 14, a second wheel 19, an anchor wheel 16, an anchor fork 17, a balance unit 18, an hour hand 27 made with the possibility of gearing of the gear wheel 20 on the central axis with the tribe of the central wheel 13, the blade of which is gearing with the tribe of the intermediate wheel 14, the blade of which is gearing with the tribe of the second wheel 19, the blade of which is in gear the atom is meshed with the tribe of the anchor wheel 16, which is in gear engagement with the anchor fork 17. 15. The watch according to claim 10, characterized in that it comprises a translation unit including a cam clutch 2, a gear wheel 3, a translucent transparent disk 5 with a clockwise 27, and mounted on a central axis 26, arranged with the possibility of gearing frictionally connected to the axis 28 of the drive disk 9. 16. Watch according to claim 10, characterized in that the outer side surface of the case is equipped with at least one means of mechanical connection. 17. The watch according to clause 16, characterized in that the mechanical connection means is made in the form of a bracelet or watch strap fastener, a pocket watch chain fastener or a pendant or pendant fastener.