CN206638832U - A kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device - Google Patents

Abstract

The utility model discloses a kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device, belongs to probe winterized equipment technical field.The beneficial effects of the utility model are：It is easy to operate, only adapter sleeve need to be put down gently deep-well bottom together with probe, pressure sensor contacts with deep-well bottom, motor rotational band movable eccentric wheel rotates, eccentric wheel rotation drives the one end of draw bar drawing arc ripping bar to move upwards, so as to promote cylindric protective jacket to be moved up along the chute on adapter sleeve, probe detection position, which is exposed, proceeds by test job, so that cylindric protective jacket still has antifreezing effect at low ambient temperatures, while test of the shear wave velocity testing cable probe to deep-well bottom shear ripple can also be aided in.

Description

A kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device

Technical field

Probe winterized equipment technical field is the utility model is related to, more particularly to a kind of deep-well water conservancy deep well slurry layer shearing Ripple wave velocity testing cable probe assisting device.

Background technology

Wave velocity testing is applied to determine the velocity of wave of the compressional wave of all kinds of Rock And Soils, shearing wave or R wave, can be according to task It is required that using single-hole method, cross hole method or Surface Wave Method.Using iron ball lateral impact plank, make to move between plate and ground, produce Raw abundant shearing wave, so as to receive the shearing wave propagated downwards by soil layer at different height respectively in drilling.Because this The situation that the path that kind is vertically propagated is propagated straight up close to natural stratum by basement rock, therefore to stratum response analysis more It is useful.

In water conservancy, it will usually in ground punching, shear wave velocity testing is popped one's head in insert in deep-well passage and transferred, until Reach mud bottom, then tested.But because decentralization depth is too deep, lead to not judge whether probe reaches bottom, It is excessive so as to transfer detection probe wiring, cause probe to be distorted, produce exploration error；In addition, existing shear wave velocity testing The outer layer plastic containment vessel of cable probe is made up of plastic material, and the outer layer plastic containment vessel is to prevent probe because of magnetic The iron on absorption ground is cut, and influences measurement result, and still, external protection can be frozen in cold winter because of ambient temperature rapid drawdown Split, influence to detect, waste time and energy.

Utility model content

In order to solve the deficiency of above-mentioned prior art, the purpose of this utility model is：A kind of deep-well water conservancy deep-well mud is provided Pulp layer shear wave velocity testing cable probe assisting device.

A kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device, including be socketed on probe Adapter sleeve, some vertical rods of spaced set along the adapter sleeve base circumference, connect the chassis of some vertical rod low sides, And the resilient support members in the middle part of the chassis are arranged on, wherein, cylindric protective jacket, institute are provided with the middle part of the adapter sleeve State and chute is set on the lateral wall of adapter sleeve, the chute slides with the limiting plate on the cylindric protective jacket madial wall matches somebody with somebody Close, drive mechanism is set on the cylindric protective jacket lateral wall, and the drive mechanism bag is connected to the support on adapter sleeve Seat, the arc ripping bar that one end is hinged with the cylindric protective jacket bottom, the other end is hinged with the one end of draw bar, described to lead Draw bar the other end connection annular sleeve, the eccentric wheel coordinated with it is set in the annular sleeve, the eccentric wheel side, which is set, to be turned Axle, the rotating shaft and the motor output shaft on the support base are coaxial.

The chute at least three, it is equidistantly circumferentially disposed along the adapter sleeve lateral wall.

The resilient support members include being connected to the pressure sensor of bottom surface in the middle part of the chassis, the pressure sensor To be cylindric, back-moving spring is set in pressure sensor periphery.

The vertical rod at least three, divide the spaced set along the adapter sleeve base circumference.

The support base top surface is inclination cancave cambered surface, the convex globoidal of the arc ripping bar and the inclination concave arc of the support base Mutually it is abutted against in face.

The eccentric wheel is fixedly fitted in the annular sleeve.

The back-moving spring for connecting the adapter sleeve side wall is set at the top of the cylindric protective jacket.

During utility model works, when probe reaches deep-well bottom, pressure sensor contacts with deep-well bottom, now multiple Position spring is in compressive state, and pressure sensor radios to operating personnel into contact with the signal of deep-well bottom and operated Display on, open the controlling switch of controlled motor, motor driving eccentric wheel rotation, eccentric wheel rotation drives draw bar drawing The one end of arc ripping bar moves upwards, so as to promote cylindric protective jacket to be moved up along the chute on adapter sleeve, probe Expose at detection position, you can realize the test of deep-well bottom shear ripple.

The beneficial effects of the utility model are：The utility model global design is easy to operate, only need to be by adapter sleeve and probe Put down deep-well bottom gently together, pressure sensor contacts with deep-well bottom, the rotation of motor rotational band movable eccentric wheel, eccentric wheel rotating band The one end of dynamic draw bar drawing arc ripping bar moves upwards, so as to promote cylindric protective jacket upward along the chute on adapter sleeve Mobile, probe detection position, which is exposed, proceeds by test job, it is easy to accomplish, the utility model can work at low temperature, make Obtain cylindric protective jacket still has antifreezing effect at low ambient temperatures, further shorten the outer layer plastic at probe detection position The time that containment vessel contacts with the external world, securely and reliably, while shear wave velocity testing cable probe can also be aided in deep-well bottom The test of portion's shearing wave.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment.

Fig. 2 is Fig. 1 I areas partial enlarged drawing.

Wherein, reference is：1st, pop one's head in；2nd, adapter sleeve；3rd, cylindric protective jacket；3-1, limiting plate；31st, vertical rod；4、 Chassis；4-1, pressure sensor；4-2, back-moving spring；5th, resilient support members；6th, chute；7th, support base；8th, arc ripping bar； 9th, draw bar；91st, annular sleeve；10th, eccentric wheel；11st, rotating shaft；12nd, motor；13rd, back-moving spring.

Embodiment

In order that the technical characterstic and advantage of the purpose of this utility model, technical scheme, scheme are more clearly understood, with Lower combination drawings and Examples, the utility model is further elaborated.Certainly, specific embodiment described herein Only to explain the utility model, it is not used to limit the utility model.

Embodiment 1

Referring to Fig. 1 and Fig. 2, the utility model is：A kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable is visited Head servicing unit, including the adapter sleeve 2 being socketed on probe 1, some vertical rods of spaced set along the base circumference of adapter sleeve 2 31, the chassis 4 of some low sides of vertical rod 31 is connected, and the resilient support members 5 at the middle part of chassis 4 are arranged on, wherein, in adapter sleeve 2 middle parts are provided with cylindric protective jacket 3, and chute 6, chute 6 and the cylindric madial wall of protective jacket 3 are set on the lateral wall of adapter sleeve 2 On limiting plate 3-1 be slidably matched, drive mechanism is set on the cylindric lateral wall of protective jacket 3, drive mechanism bag is connected to tightly Admittedly the support base 7 on set 2, the arc ripping bar 8 that one end is hinged with the cylindric bottom of protective jacket 3, the other end are hinged with draw bar 9 One end, the other end of draw bar 9 connection annular sleeve 91, annular sleeve 91 is interior to set the eccentric wheel 10 coordinated with it, eccentric wheel 10 Side sets rotating shaft 11, and rotating shaft 11 and the output shaft of motor 12 on support base 7 are coaxial.

Chute 6 is three, equidistantly circumferentially disposed along the lateral wall of adapter sleeve 2.

Resilient support members 5 include being connected to the pressure sensor 4-1 of the middle part bottom surface of chassis 4, and pressure sensor 4-1 is circle Column, back-moving spring 4-2 is set in pressure sensor 4-1 peripheries.

Vertical rod 31 is three, divides the spaced set along the base circumference of adapter sleeve 2.

To tilt cancave cambered surface, the convex globoidal of arc ripping bar 8 is mutually abutted against the top surface of support base 7 with the inclination cancave cambered surface of support base 7.

Eccentric wheel 10 is fixedly fitted in annular sleeve 91.

The cylindric top of protective jacket 3 sets the back-moving spring 13 of the connection side wall of adapter sleeve 2.

During utility model works, when probe 1 reaches deep-well bottom, pressure sensor 4-1 contacts with deep-well bottom, this When back-moving spring 4-2 be in compressive state, pressure sensor 4-1 radios to operator into contact with the signal of deep-well bottom On the display that member is operating, the controlling switch of controlled motor 12 is opened, motor 12 drives eccentric wheel 10 to rotate, eccentric wheel 10 Rotation drives draw bar 9 to pull the one end of arc ripping bar 8 and moved upwards, so as to promote cylindric protective jacket 3 along adapter sleeve 2 Chute 6 move up, the 1 detection position of popping one's head in is exposed, you can realizes the test of deep-well bottom shear ripple.

Technical characteristic of the utility model without description can be realized by or using prior art, will not be repeated here, Certainly, described above is not to limitation of the present utility model, and the utility model is also not limited to the example above, this technology neck The variations, modifications, additions or substitutions that the those of ordinary skill in domain is made in essential scope of the present utility model, it should also belong to The utility model.

Claims (7)

1. a kind of deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device, including it is socketed in probe（1） On adapter sleeve（2）, along the adapter sleeve（2）Some vertical rods of spaced set on base circumference（31）, connect described some vertical Bar（31）The chassis of low side（4）, and it is arranged on the chassis（4）The resilient support members at middle part（5）, it is characterised in that： The adapter sleeve（2）Middle part is provided with cylindric protective jacket（3）, the adapter sleeve（2）Lateral wall on chute is set（6）, it is described Chute（6）With the cylindric protective jacket（3）Limiting plate on madial wall（3-1）It is slidably matched, in the cylindric protective jacket （3）Drive mechanism is set on lateral wall, and the drive mechanism bag is connected to adapter sleeve（2）On support base（7）, one end with it is described Cylindric protective jacket（3）The be hinged arc ripping bar in bottom（8）, the other end is hinged with draw bar（9）One end, the draw bar （9）The other end connects annular sleeve（91）, the annular sleeve（91）It is interior that the eccentric wheel coordinated with it is set（10）, the eccentric wheel （10）Side sets rotating shaft（11）, the rotating shaft（11）With positioned at the support base（7）On motor（12）Decelerator it is defeated Shaft is coaxial.

2. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by：The chute（6）At least three, along the adapter sleeve（2）Lateral wall is equidistantly circumferentially disposed.

3. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by:The resilient support members（5）Including being connected to the chassis（4）The pressure sensor of middle part bottom surface（4-1）, institute State pressure sensor（4-1）To be cylindric, in the pressure sensor（4-1）Periphery sets back-moving spring（4-2）.

4. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by:The vertical rod（31）At least three, divide along the adapter sleeve（2）Spaced set on base circumference.

5. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by:The support base（7）Top surface is to tilt cancave cambered surface, the arc ripping bar（8）Convex globoidal and the support base（7） Inclination cancave cambered surface be mutually abutted against.

6. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by:The eccentric wheel（10）It is fixedly fitted to the annular sleeve（91）It is interior.

7. deep-well water conservancy deep well slurry layer shear wave velocity testing cable probe assisting device according to claim 1, its It is characterised by:The cylindric protective jacket（3）Top, which is set, connects the adapter sleeve（2）The back-moving spring of side wall（13）.