CN204903778U - Embedding ware of burried depth adjustable digital detector - Google Patents
Embedding ware of burried depth adjustable digital detector Download PDFInfo
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- CN204903778U CN204903778U CN201520719476.0U CN201520719476U CN204903778U CN 204903778 U CN204903778 U CN 204903778U CN 201520719476 U CN201520719476 U CN 201520719476U CN 204903778 U CN204903778 U CN 204903778U
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- wave detector
- boosting
- boosting car
- car
- embedding
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Abstract
The utility model provides an embedding ware of burried depth adjustable digital detector, including the embedding structure of wave detector frame and wave detector boosting structure, the embedding structure of wave detector frame with wave detector boosting structure links to each other, the wave detector store the passageway with the wave detector buries piece storage passageway and all sets up in the structure support frame, the wave detector store the passageway with the wave detector bury the piece store the passageway lower extreme all with wave detector boosting passageway links to each other, the shield passes through the shield axis of rotation respectively with the wave detector store the passageway with the wave detector buries piece storage passageway and links to each other, the battery sets up in the structure support frame, the electric wire is retrieved the axle and is passed through the electric wire retrieve the hub connection axle with the structure support frame links to each other. The beneficial effects of the utility model are that effectively improve the embedding efficiency of digital detector, effectively improved the matching degree of burying hole and digital detector deeply moreover, effectively improved effective work efficiency of digital detector.
Description
Technical field
The utility model belongs to digital geophone technical field of mechanical design, especially relates to the digital geophone embedding device that a kind of buried depth is adjustable.
Background technology
In existing technology, the application of digital geophone obtains to be paid attention to widely, especially in desertification grassland region, there is very high antijamming capability, and common digital geophone in soil buried fixing time need the excavation manually carrying out buried hole, and also need after digital geophone is imbedded underground to use figure to cover it, but the soil covered likely impacts digital geophone, and the buried hole of hand digging is easily caused and do not mated with digital geophone, thus affect the work efficiency of digital geophone.
Summary of the invention
The purpose of this utility model is to provide the adjustable digital geophone embedding device of a kind of buried depth, this digital geophone embedding device has automatic mining function, and the buried hole of excavating well can be mated with digital geophone, effectively improve the service efficiency of digital geophone.
For reaching above-mentioned purpose, the technical solution adopted in the utility model is: the digital geophone embedding device that a kind of buried depth is adjustable, comprise wave detector embedding structure-steel framing and wave detector boosting structure, it is characterized in that: described wave detector embedding structure-steel framing is connected with described wave detector boosting structure, described wave detector embedding structure-steel framing comprises structural supporter, wave detector storage channel, wave detector buries block storage channel, wave detector boosting passage, dust cap, dust cap rotation axis, accumulator, drive motor, electric wire reclaims axle, electric wire reclaims axle coupling shaft, fixing flap shutter, regulating ring and telescopic advance lever, described wave detector storage channel and described wave detector bury block storage channel and are all arranged in described structural supporter, described wave detector storage channel and described wave detector bury block storage channel lower end and are all connected with described wave detector boosting passage, described dust cap buries block storage channel with described wave detector storage channel and described wave detector respectively by described dust cap rotation axis and is connected, described accumulator is arranged in described structural supporter, described electric wire is reclaimed axle and is connected with described structural supporter by described electric wire recovery axle coupling shaft, described fixing flap shutter is arranged on described structural supporter lower end, described fixing flap shutter is connected with described telescopic advance lever by described regulating ring, described drive motor is arranged in described telescopic advance lever, described accumulator utilizes connecting line to be connected with described drive motor by described electric wire recovery axle, described wave detector embedding structure-steel framing is connected with described wave detector boosting structure with described wave detector boosting passage by described structural supporter, described wave detector boosting structure comprises boosting car, boosting car movable pulley, boosting car coil tension spring, boosting car securing rod, boosting car securing rod rotation axis, boosting car exhausting line, boosting car exhausting line transition axis and boosting car exhausting line reclaim axle, described boosting car lower end is connected with described boosting car movable pulley, described boosting car is connected with the described structural supporter of described wave detector embedding structure-steel framing by described boosting car coil tension spring, described boosting car securing rod is arranged on above described boosting car, described boosting car securing rod is fixed on the described structural supporter of described wave detector embedding structure-steel framing by described boosting car securing rod rotation axis, described boosting car exhausting line transition axis and described boosting car exhausting line reclaim axle and are all fixed on the described structural supporter of described wave detector embedding structure-steel framing, described boosting car exhausting line one end is connected with described boosting car, the described boosting car exhausting line other end reclaims axle by described boosting car exhausting line transition axis with described boosting car exhausting line and is connected.
Preferably, the described wave detector storage channel of described wave detector embedding structure-steel framing and described wave detector bury block storage channel and form " U " type structure, and described wave detector boosting passage is half " U " font structure.
Preferably, be provided with triangle draw-in groove above the described boosting car of described wave detector boosting structure, described boosting car securing rod is " L " type structure, and described boosting car securing rod one end is provided with the fixture block matched with described boosting car upper triangular draw-in groove.
The advantage that the utility model has and good effect are: owing to adopting technique scheme, this digital geophone embedding device is made to have automatic mining function, this embedding device is made not only to reduce the labour intensity of manually digging pit, and effectively improve the matching degree excavating hole and digital geophone, because the work efficiency of digital geophone is relevant with excavating the matching degree of cheating, therefore this embedding device effectively can improve the work efficiency of digital geophone, this digital geophone embedding device has Auto-mounting function in addition, carry out embedding by boosting car to digital geophone after buried hole is excavated, effective so embedding efficiency that improve digital geophone, and digital geophone is carried out embedding while we can also adopt digital geophone sealing-plug to seal digital geophone, avoid the impact because causing wave detector when adopting earth to seal wave detector.
Accompanying drawing explanation
Fig. 1 is overall cross-sectional view of the present utility model.
In figure: 1, wave detector embedding structure-steel framing; 1-1, structural supporter; 1-2, wave detector storage channel; 1-3, wave detector bury block storage channel; 1-4, wave detector boosting passage; 1-5, dust cap; 1-6, dust cap rotation axis; 1-7, accumulator; 1-8, drive motor; 1-9, electric wire reclaim axle; 1-10, electric wire reclaim axle coupling shaft; 1-11, fixing flap shutter; 1-12, regulating ring; 1-13, telescopic advance lever; 2, wave detector boosting structure; 2-1, boosting car; 2-2, boosting car movable pulley; 2-3, boosting car coil tension spring; 2-4, boosting car securing rod; 2-5, boosting car securing rod rotation axis; 2-6, boosting car exhausting line; 2-7, boosting car exhausting line transition axis; 2-8, boosting car exhausting line reclaim axle.
Embodiment
Contrast accompanying drawing below, by the description to embodiment, to embodiment of the present utility model, effect and principle of work etc. as the mutual alignment between the shape of involved each component, structure, each several part and annexation, each several part are described in further detail.
As shown in Figure 1, the digital geophone embedding device that the utility model provides a kind of buried depth adjustable, comprise wave detector embedding structure-steel framing 1 and wave detector boosting structure 2, wave detector embedding structure-steel framing 1 is connected with wave detector boosting structure 2, wave detector embedding structure-steel framing 1 comprises structural supporter 1-1, wave detector storage channel 1-2, wave detector buries block storage channel 1-3, wave detector boosting passage 1-4, dust cap 1-5, dust cap rotation axis 1-6, accumulator 1-7, drive motor 1-8, electric wire reclaims axle 1-9, electric wire reclaims axle coupling shaft 1-10, fixing flap shutter 1-11, regulating ring 1-12 and telescopic advance lever 1-13, wave detector storage channel 1-2 and wave detector bury block storage channel 1-3 and are all arranged in structural supporter 1-1, wave detector storage channel 1-2 and wave detector bury block storage channel 1-3 lower end and are all connected with wave detector boosting passage 1-4, dust cap 1-5 buries block storage channel 1-3 with wave detector storage channel 1-2 with wave detector respectively by dust cap rotation axis 1-6 and is connected, accumulator 1-7 is arranged in structural supporter 1-1, electric wire is reclaimed axle 1-9 and is connected with structural supporter 1-1 by electric wire recovery axle coupling shaft 1-10, fixing flap shutter 1-11 is arranged on structural supporter 1-1 lower end, fixing flap shutter 1-11 is connected with telescopic advance lever 1-13 by regulating ring 1-12, drive motor 1-8 is arranged in telescopic advance lever 1-13, accumulator 1-7 utilizes connecting line to be connected with drive motor 1-8 by electric wire recovery axle 1-9, wave detector embedding structure-steel framing 1 is connected with wave detector boosting structure 2 with wave detector boosting passage 1-4 by structural supporter 1-1, wave detector boosting structure 2 comprises boosting car 2-1, boosting car movable pulley 2-2, boosting car coil tension spring 2-3, boosting car securing rod 2-4, boosting car securing rod rotation axis 2-5, boosting car exhausting line 2-6, boosting car exhausting line transition axis 2-7 and boosting car exhausting line reclaim axle 2-8, boosting car 2-1 lower end is connected with boosting car movable pulley 2-2, boosting car 2-1 is connected with the structural supporter 1-1 of wave detector embedding structure-steel framing 1 by boosting car coil tension spring 2-3, boosting car securing rod 2-4 is arranged on above boosting car 2-1, boosting car securing rod 2-4 is fixed on the structural supporter 1-1 of wave detector embedding structure-steel framing 1 by boosting car securing rod rotation axis 2-5, boosting car exhausting line transition axis 2-7 and boosting car exhausting line reclaim axle 2-8 and are all fixed on the structural supporter 1-1 of wave detector embedding structure-steel framing 1, boosting car exhausting line 2-6 one end is connected with boosting car 2-1, the boosting car exhausting line 2-6 other end reclaims axle 2-8 by boosting car exhausting line transition axis 2-7 with boosting car exhausting line and is connected.
Preferably, the wave detector storage channel 1-2 of wave detector embedding structure-steel framing 1 and wave detector bury block storage channel 1-3 and form " U " type structure, and wave detector boosting passage 1-4 is half " U " font structure.
Preferably, be provided with triangle draw-in groove above the boosting car 2-1 of wave detector boosting structure 2, boosting car securing rod 2-4 is " L " type structure, and boosting car securing rod 2-4 one end is provided with the fixture block matched with boosting car 2-1 upper triangular draw-in groove.
The advantage that the utility model has and good effect are: owing to adopting technique scheme, this digital geophone embedding device is made to have automatic mining function, this embedding device is made not only to reduce the labour intensity of manually digging pit, and effectively improve the matching degree excavating hole and digital geophone, because the work efficiency of digital geophone is relevant with excavating the matching degree of cheating, therefore this embedding device effectively can improve the work efficiency of digital geophone, this digital geophone embedding device has Auto-mounting function in addition, carry out embedding by boosting car to digital geophone after buried hole is excavated, effective so embedding efficiency that improve digital geophone, and digital geophone is carried out embedding while we can also adopt digital geophone sealing-plug to seal digital geophone, avoid the impact because causing wave detector when adopting earth to seal wave detector.
Above embodiment of the present utility model has been described in detail, but described content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.
Claims (3)
1. the digital geophone embedding device that a buried depth is adjustable, comprise wave detector embedding structure-steel framing and wave detector boosting structure, it is characterized in that: described wave detector embedding structure-steel framing is connected with described wave detector boosting structure, described wave detector embedding structure-steel framing comprises structural supporter, wave detector storage channel, wave detector buries block storage channel, wave detector boosting passage, dust cap, dust cap rotation axis, accumulator, drive motor, electric wire reclaims axle, electric wire reclaims axle coupling shaft, fixing flap shutter, regulating ring and telescopic advance lever, described wave detector storage channel and described wave detector bury block storage channel and are all arranged in described structural supporter, described wave detector storage channel and described wave detector bury block storage channel lower end and are all connected with described wave detector boosting passage, described dust cap buries block storage channel with described wave detector storage channel and described wave detector respectively by described dust cap rotation axis and is connected, described accumulator is arranged in described structural supporter, described electric wire is reclaimed axle and is connected with described structural supporter by described electric wire recovery axle coupling shaft, described fixing flap shutter is arranged on described structural supporter lower end, described fixing flap shutter is connected with described telescopic advance lever by described regulating ring, described drive motor is arranged in described telescopic advance lever, described accumulator utilizes connecting line to be connected with described drive motor by described electric wire recovery axle, described wave detector embedding structure-steel framing is connected with described wave detector boosting structure with described wave detector boosting passage by described structural supporter, described wave detector boosting structure comprises boosting car, boosting car movable pulley, boosting car coil tension spring, boosting car securing rod, boosting car securing rod rotation axis, boosting car exhausting line, boosting car exhausting line transition axis and boosting car exhausting line reclaim axle, described boosting car lower end is connected with described boosting car movable pulley, described boosting car is connected with the described structural supporter of described wave detector embedding structure-steel framing by described boosting car coil tension spring, described boosting car securing rod is arranged on above described boosting car, described boosting car securing rod is fixed on the described structural supporter of described wave detector embedding structure-steel framing by described boosting car securing rod rotation axis, described boosting car exhausting line transition axis and described boosting car exhausting line reclaim axle and are all fixed on the described structural supporter of described wave detector embedding structure-steel framing, described boosting car exhausting line one end is connected with described boosting car, the described boosting car exhausting line other end reclaims axle by described boosting car exhausting line transition axis with described boosting car exhausting line and is connected.
2. the digital geophone embedding device that a kind of buried depth according to claim 1 is adjustable, it is characterized in that: the described wave detector storage channel of described wave detector embedding structure-steel framing and described wave detector bury block storage channel and form " U " type structure, described wave detector boosting passage is half " U " font structure.
3. the digital geophone embedding device that a kind of buried depth according to claim 1 is adjustable, it is characterized in that: above the described boosting car of described wave detector boosting structure, be provided with triangle draw-in groove, described boosting car securing rod is " L " type structure, and described boosting car securing rod one end is provided with the fixture block matched with described boosting car upper triangular draw-in groove.
Priority Applications (1)
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CN201520719476.0U CN204903778U (en) | 2015-09-16 | 2015-09-16 | Embedding ware of burried depth adjustable digital detector |
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CN201520719476.0U CN204903778U (en) | 2015-09-16 | 2015-09-16 | Embedding ware of burried depth adjustable digital detector |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105182406A (en) * | 2015-09-16 | 2015-12-23 | 成都华兴智造科技有限公司 | Digital detector embedding device with adjustable embedding depth |
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2015
- 2015-09-16 CN CN201520719476.0U patent/CN204903778U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105182406A (en) * | 2015-09-16 | 2015-12-23 | 成都华兴智造科技有限公司 | Digital detector embedding device with adjustable embedding depth |
CN105182406B (en) * | 2015-09-16 | 2017-05-31 | 成都华兴智造科技有限公司 | A kind of adjustable digital detector embedding device of buried depth |
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C14 | Grant of patent or utility model | ||
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AV01 | Patent right actively abandoned |
Granted publication date: 20151223 Effective date of abandoning: 20170531 |