CN209784742U - Four box structures of manipulator table series connection - Google Patents

Abstract

The utility model relates to a machinery wrist-watch part, concretely relates to four box structures of manipulator table series connection. The technical scheme is as follows: the winding cross gear component comprises a first winding cross gear shaft and a first winding wheel which are connected in series, a first winding ratchet wheel is meshed with the first winding intermediate wheel, the first winding intermediate wheel is meshed with a second winding ratchet wheel, the second winding wheel is meshed with a winding cross gear shaft, the winding cross gear shaft is meshed with a third winding wheel, the third winding ratchet wheel is meshed with the second winding intermediate wheel, the second winding intermediate wheel is meshed with a fourth winding ratchet wheel, and the fourth winding wheel is meshed with a double gear shaft. The utility model provides a four box structures of mechanical wrist-watch series connection, the time nature is good, can continue the time of walking 120 hours.

Description

Four box structures of manipulator table series connection

Technical Field

The utility model relates to a machinery wrist-watch part, concretely relates to four box structures of manipulator table series connection.

Background

Mechanical watches are generally provided with a barrel for providing kinetic energy to the watch to enable travel. The watch can travel for 30-40 hours by winding the clockwork spring once.

SUMMERY OF THE UTILITY MODEL

The utility model provides a four box structures of manipulator table series connection, it is good to walk the time nature, can continue to walk the time 120 hours.

The technical scheme of the utility model as follows:

A manipulator tandem four-box structure comprises a first barrel, a second barrel, a third barrel and a fourth barrel which are connected in series, wherein the first barrel comprises a first barrel shaft, a first barrel wheel and a first clockwork spring; the barrel wheel is sleeved on the barrel shaft I, the spring is wound on the barrel shaft I, and two ends of the spring I are fixedly connected to the barrel wheel I and the barrel shaft I respectively; the barrel wheel II is sleeved on the barrel shaft II, the clockwork spring II is wound on the barrel shaft II, and two ends of the clockwork spring II are fixedly connected to the barrel wheel II and the barrel shaft II respectively; the barrel wheel III is sleeved on the barrel shaft III, the clockwork spring III is wound on the barrel shaft III, and two ends of the clockwork spring III are fixedly connected to the barrel wheel III and the barrel shaft III respectively; the barrel wheel IV is sleeved on the barrel shaft IV, the spring IV is wound on the barrel shaft IV, and two ends of the spring IV are fixedly connected to the barrel wheel IV and the barrel shaft IV respectively; the first winding ratchet wheel is connected with the first winding shaft in a clamping mode, the second winding ratchet wheel is connected with the second winding shaft in a clamping mode, the third winding ratchet wheel is connected with the third winding shaft in a clamping mode, and the fourth winding ratchet wheel is connected with the fourth winding shaft in a clamping mode; a winding cross gear shaft of the winding cross gear component is meshed with a first winding intermediate gear, a first winding ratchet wheel is meshed with a first winding intermediate gear, a first winding intermediate gear is meshed with a second winding ratchet wheel, a second winding intermediate gear is meshed with a winding cross gear shaft, a third winding intermediate gear is meshed with a third winding intermediate gear, a second winding intermediate gear is meshed with a fourth winding ratchet wheel, and a fourth winding intermediate gear is meshed with a double gear shaft.

Furthermore, the mechanical watch is connected with four box structures in series, a first strip box, a second strip box, a third strip box, a fourth strip box, a first winding intermediate wheel and a second winding intermediate wheel are arranged between the middle clamping plate and the bottom clamping plate, a first winding ratchet wheel, a second winding ratchet wheel, a third winding ratchet wheel and a fourth winding ratchet wheel are arranged between the lower clamping plate and the bottom clamping plate, and a winding tooth-passing shaft is arranged between the middle clamping plate and the lower clamping plate.

Furthermore, the mechanical watch is connected with four box structures in series, a cross wheel of the winding cross wheel component is meshed with the winding through wheel, and a non-return pawl and a pawl spring are arranged on the lower clamping plate and used for controlling the winding through wheel to rotate in a single direction.

The utility model has the advantages that: the utility model discloses a four box structure output torque of establishing ties are stable, the time nature is good, the time length when continuing to walk, can continue to walk 120 hours. The lower clamping plate is provided with a non-return pawl and a pawl spring, the non-return pawl can control the winding passing wheel to rotate in one direction, the barrel wheel is locked in one direction to avoid the situation that the spring drives the barrel wheel to rotate rapidly when the torque is large, and the barrel wheel rotates normally in the other direction to realize travel.

Drawings

FIG. 1 is a schematic diagram of a mechanical watch with four serial boxes;

Fig. 2 is a schematic plane development view of a mechanical watch series connection four-box structure.

Detailed Description

As shown in fig. 1 and 2, a mechanical hand watch has a structure of connecting four barrels in series, and comprises a first barrel, a second barrel, a third barrel and a fourth barrel which are connected in series, wherein the first barrel comprises a first barrel shaft, a first barrel wheel 61 and a first clockwork spring, the second barrel comprises a second barrel shaft, a second barrel wheel 91 and a second clockwork spring, the third barrel comprises a third barrel shaft, a third barrel wheel 62 and a third barrel wheel, and the fourth barrel comprises a fourth barrel shaft, a fourth barrel wheel 92 and a fourth barrel wheel; the first barrel wheel 61 is sleeved on the first barrel shaft, the spring is wound on the first barrel shaft, and two ends of the first spring are fixedly connected to the first barrel wheel 61 and the first barrel shaft respectively; the second barrel wheel 91 is sleeved on the second barrel shaft, the second clockwork spring is wound on the second barrel shaft, and two ends of the second clockwork spring are fixedly connected to the second barrel wheel 91 and the second barrel shaft respectively; the third barrel wheel 62 is sleeved on the third barrel shaft, the third spring is wound on the third barrel shaft, and two ends of the third spring are fixedly connected to the third barrel wheel 62 and the third barrel shaft respectively; a barrel wheel IV 92 is sleeved on the barrel shaft IV, the barrel shaft IV is wound on the barrel wheel IV, and two ends of the barrel shaft IV are respectively and fixedly connected to the barrel wheel IV 92 and the barrel shaft IV; the first winding ratchet wheel 71 is connected with the first winding shaft in a clamping mode, the second winding ratchet wheel 72 is connected with the second winding shaft in a clamping mode, the third winding ratchet wheel 73 is connected with the third winding shaft in a clamping mode, and the fourth winding ratchet wheel 74 is connected with the fourth winding shaft in a clamping mode; the winding cross-tooth shaft of the winding cross-wheel component 5 is meshed with the first winding drum 61, the first winding ratchet wheel 71 is meshed with the first winding intermediate wheel 81, the first winding intermediate wheel 81 is meshed with the second winding ratchet wheel 72, the second winding drum wheel 91 is meshed with the winding over-tooth shaft 10, the winding over-tooth shaft 10 is meshed with the third winding drum 62, the third winding ratchet wheel 73 is meshed with the second winding intermediate wheel 82, the second winding intermediate wheel 82 is meshed with the fourth winding ratchet wheel 74, and the fourth winding drum 92 is meshed with the two-tooth shaft 13. The first barrel, the second barrel, the third barrel, the fourth barrel, the first winding intermediate wheel 81 and the second winding intermediate wheel 82 are arranged between the middle clamping plate 20 and the bottom clamping plate 40, the first winding ratchet wheel 71, the second winding ratchet wheel 72, the third winding ratchet wheel 73 and the fourth winding ratchet wheel 74 are arranged between the lower clamping plate 30 and the bottom clamping plate 40, and the winding pinion shaft 10 is arranged between the middle clamping plate 20 and the lower clamping plate 30. The winding wheel of the winding wheel-striding component 5 is meshed with the winding wheel 4, the lower clamping plate 30 is provided with a non-return pawl 15 and a pawl spring 16, and the non-return pawl 15 is used for controlling the winding wheel 4 to rotate in one direction.

When the watch winds up, the handle shaft 1 drives the vertical wheel 2 to rotate, the vertical wheel 2 drives the winding wheel 3 to rotate, the winding wheel 3 drives the winding idler wheel 4 to rotate, the winding idler wheel 4 drives the winding idler wheel part 5 to rotate, the winding idler gear shaft drives the first barrel wheel 61 to rotate, the first barrel wheel 61 rotates to wind the first clockwork spring, and the first barrel wheel drives the first barrel shaft to rotate after the full torque is reached; the first winding ratchet wheel 71 is driven by the first winding shaft to rotate, the first winding ratchet wheel 71 drives the first winding intermediate wheel 81 to rotate, the first winding intermediate wheel 81 drives the second winding ratchet wheel 72 to rotate, the second winding ratchet wheel 72 drives the second winding shaft to rotate, and the second winding shaft winds the second winding spring and drives the second barrel wheel 91 to rotate after the second winding shaft reaches a full winding moment; the second barrel wheel 91 drives the third barrel wheel 62 to rotate, the third barrel wheel 62 rotates to wind the third spring, the third barrel wheel drives the third barrel shaft to rotate after reaching the full spring moment, and the third barrel shaft drives the third barrel ratchet wheel 73 to rotate; the third winding ratchet wheel 73 drives the second winding intermediate wheel 82 to rotate, the second winding intermediate wheel 82 drives the fourth winding ratchet wheel 74 to rotate, the fourth winding ratchet wheel 74 drives the fourth winding shaft to rotate, and the fourth winding shaft winds the fourth winding spring to reach the full-winding moment; at this time, the springs of the four barrels reach the maximum torque, and the stem 1 can not be twisted any more.

When the movement is normal, the clockwork spring in the barrel outputs elastic potential energy to drive the barrel wheel to rotate, when the clockwork spring moments in the four barrels are equal, the barrel wheel four 92 drives the two gear shafts 13 to rotate, the two gear shafts 13 drive the minute wheel to rotate, the minute wheel drives the cross wheel to rotate, the cross wheel drives the hour wheel to rotate, and the movement is normal; when the four barrels have moment drops, the barrel with the largest moment in the four barrels outputs elastic potential energy due to the fact that the four barrels are connected in series, the two gear shafts 13 are driven to rotate through transmission, and the movement normally travels in the same manner.

Claims (3)

1. A manipulator tandem four-box structure is characterized by comprising a first barrel, a second barrel, a third barrel and a fourth barrel which are connected in series, wherein the first barrel comprises a first barrel shaft, a first barrel wheel and a first spring; the barrel wheel is sleeved on the barrel shaft I, the spring is wound on the barrel shaft I, and two ends of the spring I are fixedly connected to the barrel wheel I and the barrel shaft I respectively; the barrel wheel II is sleeved on the barrel shaft II, the clockwork spring II is wound on the barrel shaft II, and two ends of the clockwork spring II are fixedly connected to the barrel wheel II and the barrel shaft II respectively; the barrel wheel III is sleeved on the barrel shaft III, the clockwork spring III is wound on the barrel shaft III, and two ends of the clockwork spring III are fixedly connected to the barrel wheel III and the barrel shaft III respectively; the barrel wheel IV is sleeved on the barrel shaft IV, the spring IV is wound on the barrel shaft IV, and two ends of the spring IV are fixedly connected to the barrel wheel IV and the barrel shaft IV respectively; the first winding ratchet wheel is connected with the first winding shaft in a clamping mode, the second winding ratchet wheel is connected with the second winding shaft in a clamping mode, the third winding ratchet wheel is connected with the third winding shaft in a clamping mode, and the fourth winding ratchet wheel is connected with the fourth winding shaft in a clamping mode; a winding cross gear shaft of the winding cross gear component is meshed with a first winding intermediate gear, a first winding ratchet wheel is meshed with a first winding intermediate gear, a first winding intermediate gear is meshed with a second winding ratchet wheel, a second winding intermediate gear is meshed with a winding cross gear shaft, a third winding intermediate gear is meshed with a third winding intermediate gear, a second winding intermediate gear is meshed with a fourth winding ratchet wheel, and a fourth winding intermediate gear is meshed with a double gear shaft.

2. The mechanical wristwatch four-box structure in series connection as claimed in claim 1, wherein the first barrel, the second barrel, the third barrel, the fourth barrel, the first winding intermediate wheel and the second winding intermediate wheel are disposed between the middle plate and the bottom plate, the first winding ratchet, the second winding ratchet, the third winding ratchet and the fourth winding ratchet are disposed between the bottom plate and the lower plate, and the winding pinion shaft is disposed between the middle plate and the bottom plate.

3. the mechanical watch serial four-box structure as claimed in claim 1, wherein the upper winding ratchet member has a ratchet engaged with the upper winding ratchet, and the lower clamping plate has a non-return pawl for controlling the unidirectional rotation of the upper winding ratchet and a pawl spring.