CN201229473Y - Mechanical timing clock for geologic batter level - Google Patents
Mechanical timing clock for geologic batter level Download PDFInfo
- Publication number
- CN201229473Y CN201229473Y CNU2008200135193U CN200820013519U CN201229473Y CN 201229473 Y CN201229473 Y CN 201229473Y CN U2008200135193 U CNU2008200135193 U CN U2008200135193U CN 200820013519 U CN200820013519 U CN 200820013519U CN 201229473 Y CN201229473 Y CN 201229473Y
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- China
- Prior art keywords
- wheel
- assembly
- axle
- component
- lower plate
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Abstract
The utility model relates to a mechanical timing clock of a geological inclinometer, which comprises an upper clamping plate, a lower clamping plate, a timing graduated circle, a wheel shaft component, an escape wheel component, a pallet fork component and a balance wheel component, wherein the upper clamping plate and the lower clamping plate are parallel with each other through being fixed by four upright posts, the wheel shaft component which comprises a great wheel shaft component, a second wheel shaft component, a third wheel shaft component and a fourth wheel shaft component, and the escape wheel component, the pallet fork component and the balance wheel component are all arranged between the upper clamping plate and the lower clamping plate, and both ends of each shaft are respectively rotationally connected with the upper clamping plate and the lower clamping plate, a clockwork spring on the great wheel shaft component enables the great wheel shaft component to obtain the power, the great wheel shaft component drives the second, the third and the fourth wheel shaft components, the fourth wheel shaft component drives the escape wheel component, the escape wheel component drives the pallet fork component to act, the pallet fork component enables the balance wheel to rotate, regulates the frequency of the swinging and controls the clockwork spring to discharge power outwards according to a certain frequency, the cam is driven by the wheel shafts, a hour hand is pushed by a push-rod, and the mechanical timing clock of the geological inclinometer is formed when a clock is arranged in the geological inclinometer. The clock is suitable for field operation, is durable in use and is easy to use.
Description
Technical field
The utility model relates to mechanical clock, particularly relates to a kind of mechanical timing clock that is used on the geological-inclinometer.
Background technology
Geological-inclinometer is widely used in the industries such as geology, mine, building, water conservancy and geophysical survey, the random clock of geological-inclinometer gradually adopts electronic watch at present, though show flexibly accurately, but geological-inclinometer is generally used in the open air, poor working environment, instrument is easily drenched by rain and dew, and wherein the power supply of electronic component is easy to be subjected to humidity, and power supply can't normal power supply.Instrument is subjected to the interference of region electromagnetic field or mechanical shock often, makes the CD-ROM drive motor of electronic clock lose the step, can difference take place with the standard time.
Summary of the invention
The technical problems to be solved in the utility model is, a kind of humidity, magnetic or mechanical disturbance of not being subjected to is provided, and is durable in use, time spent saving of work and time and geological-inclinometer mechanical timing clock easily again.
The technical scheme that adopts is:
Geological-inclinometer mechanical timing clock comprises train wheel bridge, lower plate, timing index dial, axle assembly, escape wheel assembly, pallet module, balance wheel assembly.Train wheel bridge becomes relative up and down being parallel to each other with lower plate by four upright supports, and train wheel bridge and lower plate are fixed on the column.Described axle assembly, escape wheel assembly, pallet module and balance wheel assembly all are located between train wheel bridge and the lower plate.Axle assembly, comprise great wheel shaft assembly, great wheel arbor assembly, three axle assemblies, four-wheel shaft assembly, the great wheel shaft assembly is made of a gear assembly and the clockwork spring of suit on great wheel axle and the great wheel axle, its gear assembly is made up of a gear and ratchet, gear and ratchet are fixed, the great wheel axle is rotatably connected on respectively on train wheel bridge and the lower plate with its two ends, and an end and the great wheel axle of clockwork spring are fixed, and the other end and train wheel bridge are fixed.The great wheel arbor assembly is made of two gear shafts and two gears that are contained on two gear shafts, three axle assemblies are made of three gear shafts and three gears that are contained on three gear shafts, the four-wheel shaft assembly is made of four gear shafts and four gears that are contained on four gear shafts, two gear shafts, three gear shafts, four gear shafts all are rotationally connected with two axial ends and train wheel bridge and lower plate, two gear shafts and two gears mesh with a gear and three gear shafts respectively, three gears and the engagement of four gear shafts.The escape wheel assembly is made of escape wheel axle and the escape wheel that is contained on the escape wheel axle, and pallet module is made of escapement fork shaft and the escapement lever that is contained on the escapement fork shaft, and escape wheel axle and escapement fork shaft all are rotationally connected with two axial ends and train wheel bridge and lower plate.Balance wheel assembly is made of balancing arbor and the escapement and the hairspring that are contained on the balancing arbor, and balancing arbor two ends difference rotational support is in the screw and the nest formula bearing of spinning at the lower plate screwing of spinning on the train wheel bridge.Described escape wheel axle and four gearing mesh, described escapement lever is provided with two escapement bearing pins, two escapement bearing pins connect escape wheel and escapement respectively, described hairspring outer end is fixed on the adjacent column, the inner is connected with escapement, described great wheel shaft extension goes out the train wheel bridge end regularly index dial is housed, the top can be connected with wind-up key, the great wheel shaft extension goes out the lower plate end and is fixedly connected with cam, on the push rod that cam withstands on lower plate is connected, cam promotes push rod, and push rod promotes hour hands, the mechanical timing clock of above-mentioned assembling is contained on the geological-inclinometer, constitutes geological-inclinometer mechanical timing clock.
Geological-inclinometer mechanical timing clock of the present utility model is fit to field work, durable in use, the saving of labor, save time easy to use.
Description of drawings
Fig. 1 is the utility model structural representation.
Fig. 2 is the vertical view of Fig. 1.
Fig. 3 is that the A of Fig. 1 is to view.
Embodiment
Geological-inclinometer mechanical timing clock comprises train wheel bridge 3, lower plate 1, timing index dial 5, axle assembly, escape wheel assembly, pallet module, balance wheel assembly.Train wheel bridge 3 supports to relative up and down being parallel to each other with lower plate 1 by four columns 2, and train wheel bridge 3 and lower plate 1 are fixed on the column 2.Described axle assembly, escape wheel assembly, pallet module and balance wheel assembly all are installed between train wheel bridge 3 and the lower plate 1.Axle assembly, comprise great wheel shaft assembly, great wheel arbor assembly, three axle assemblies, four-wheel shaft assembly, the great wheel shaft assembly is made of a gear assembly and the clockwork spring 4 of suit on great wheel axle 6 and the great wheel axle 6, its gear assembly is made up of a gear 22 and ratchet 23, gear 22 is fixing with ratchet 23, great wheel axle 6 is rotatably connected on respectively on train wheel bridge 3 and the lower plate 1 with its two ends, and an end of clockwork spring 4 and great wheel axle 6 are fixing, and the other end and train wheel bridge 3 are fixing.The great wheel arbor assembly is made of two gear shafts 7 and two gears 21 that are contained on two gear shafts 7, three axle assemblies are made of three gear shafts 8 and three gears 20 that are contained on three gear shafts 8, the four-wheel shaft assembly is made of four gear shafts 9 and four gears 19 that are contained on four gear shafts 9, two gear shafts 7, three gear shafts 8, four gear shafts 9 all are rotationally connected with two axial ends and train wheel bridge 3 and lower plate 1, two gear shafts 7 and two gears 21 mesh with a gear 22 and three gear shafts 8 respectively, three gears 20 and 9 engagements of four gear shafts.The escape wheel assembly is made of escape wheel axle 10 and the escape wheel 11 that is contained on the escape wheel axle 10, pallet module is made of escapement fork shaft 12 and the escapement lever 18 that is contained on the escapement fork shaft 12, and escape wheel axle 10 and escapement fork shaft 12 all are rotationally connected with two axial ends and train wheel bridge 3 and lower plate 1.Balance wheel assembly is made of balancing arbor 14 and the escapement 15 and the hairspring 16 that are contained on the balancing arbor 14, balancing arbor 14 two ends respectively rotational support in the screw of spinning on the train wheel bridge 3 and spinning in the nest formula bearing of lower plate 1 screwing 17.Described escape wheel axle 10 and 19 engagements of four gears, described escapement lever 18 is provided with two escapement bearing pins 13, two escapement bearing pins 13 connect escape wheel 11 and escapement 15 respectively, described hairspring 16 outer ends are fixed on the adjacent column 2, the inner is connected with escapement 15, described great wheel axle 6 stretches out train wheel bridge 3 ends regularly index dial 5 is housed, great wheel axle 6 tops can be connected with wind-up key 26, great wheel axle 6 stretches out lower plate 1 end and is fixedly connected with cam 24, cam 24 withstands on the push rod 25 that is connected with lower plate 1, and cam 24 promotes push rod 25, and push rod 25 promotes hour hands, the mechanical timing clock of above-mentioned assembling is contained on the then oblique instrument of geology, constitutes geological-inclinometer mechanical timing clock.
Claims (1)
1, geological-inclinometer mechanical timing clock, comprise train wheel bridge (3), lower plate (1), timing index dial (5), axle assembly, the escape wheel assembly, pallet module, balance wheel assembly, it is characterized in that described train wheel bridge (3) supports to relative up and down being parallel to each other with lower plate (1) by four columns (2), train wheel bridge (3) and lower plate (1) are fixed on the column (2), described axle assembly, the escape wheel assembly, pallet module and balance wheel assembly all are located between train wheel bridge (3) and the lower plate (1), axle assembly, comprise the great wheel shaft assembly, the great wheel arbor assembly, three axle assemblies, the four-wheel shaft assembly, a gear assembly and clockwork spring (4) that the great wheel shaft assembly is gone up suit by great wheel axle (6) and great wheel axle (6) constitute, its gear assembly is made up of a gear (22) and ratchet (23), gear (22) is fixing with ratchet (23), great wheel axle (6) is rotatably connected on respectively on train wheel bridge (3) and the lower plate (1) with its two ends, one end of clockwork spring (4) and great wheel axle (6) are fixing, the other end and train wheel bridge (3) are fixing, the great wheel arbor assembly is made of two gear shafts (7) and two gears (21) that are contained on two gear shafts (7), three axle assemblies are made of three gear shafts (8) and three gears (20) that are contained on three gear shafts (8), the four-wheel shaft assembly is made of four gear shafts (9) and four gears (19) that are contained on four gear shafts (9), two gear shafts (7), three gear shafts (8), four gear shafts (9) all are rotationally connected with two axial ends and train wheel bridge (3) and lower plate (1), two gear shafts (7) and two gears (21) mesh with a gear (22) and three gear shafts (8) respectively, three gears (20) and four gear shafts (9) engagement, the escape wheel assembly is made of escape wheel axle (10) and the escape wheel (11) that is contained on the escape wheel axle (10), pallet module is made of escapement fork shaft (12) and the escapement lever (18) that is contained on the escapement fork shaft (12), escape wheel axle (10) and escapement fork shaft (12) all are rotationally connected with two axial ends and train wheel bridge (3) and lower plate (1), balance wheel assembly is by balancing arbor (14) and be contained in escapement (15) on the balancing arbor (14) and hairspring (16) constitutes, balancing arbor (14) two ends rotational support are respectively gone up in the screw and the nest formula bearing of spinning at lower plate (1) screwing (7) of spinning at train wheel bridge (3), described escape wheel axle (10) and four gears (19) engagement, described escapement lever (18) is provided with two escapement bearing pins (13), two escapement bearing pins (13) connect escape wheel (11) and escapement (15) respectively, described hairspring (16) outer end is fixed on the adjacent column (2), the inner is connected with escapement (15), described great wheel axle (6) stretches out train wheel bridge (3) end regularly index dial (5) is housed, great wheel axle (6) top can be connected with wind-up key (26), great wheel axle (6) stretches out lower plate (1) end and is fixedly connected with cam (24), cam (24) withstands on the push rod (25) that is connected with lower plate (1), cam (24) promotes push rod (25), push rod (25) promotes hour hands, and the mechanical timing clock of above-mentioned assembling is contained on the geological-inclinometer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200135193U CN201229473Y (en) | 2008-06-17 | 2008-06-17 | Mechanical timing clock for geologic batter level |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2008200135193U CN201229473Y (en) | 2008-06-17 | 2008-06-17 | Mechanical timing clock for geologic batter level |
Publications (1)
Publication Number | Publication Date |
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CN201229473Y true CN201229473Y (en) | 2009-04-29 |
Family
ID=40634419
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CNU2008200135193U Expired - Fee Related CN201229473Y (en) | 2008-06-17 | 2008-06-17 | Mechanical timing clock for geologic batter level |
Country Status (1)
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CN (1) | CN201229473Y (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101609300B (en) * | 2008-06-17 | 2012-03-14 | 杨士玉 | Geological-inclinometer mechanical timing clock |
-
2008
- 2008-06-17 CN CNU2008200135193U patent/CN201229473Y/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101609300B (en) * | 2008-06-17 | 2012-03-14 | 杨士玉 | Geological-inclinometer mechanical timing clock |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20090429 |