CN205591912U - Drilling imager probe wiping arrangement - Google Patents

Abstract

The utility model discloses a drilling imager probe wiping arrangement, including the probe body, the probe is provided with the backup pad on the body, and the steel wire spiral wheel is installed on rotating the motor output shaft to the rotation motor of installing in the backup pad, and the winding of steel wire spiral wheel has flexible steel wire, and the steel wire is parallel with probe body axis, and its free end fixed connection cleans the ring and hugs closely transparent lateral surface of probe body for the elastic material that absorbs water, inboard to cleaning the ring, clean on the ring to the side of and the backup pad downside install compression spring within a definite time. The utility model discloses a control is rotated the motor and is rotated, drives the steel wire spiral wheel and rotates, and the ring of cleaning that drives the elastic material that absorbs water through steel wire and compression spring makes a round trip to clean the transparent portion of probe, realizes that remote control cleans the probe, operation labour saving and time saving, and it is more convenient to operate, improves image acquisition efficiency, and the image acquisition effect improves greatly, the utility model discloses still have simple structure, with low costs, the swift characteristics of loading and unloading convenient to use.

Description

A kind of borehole imaging instrument probe wiping arrangement

Technical field

This utility model relates to a kind of borehole imaging instrument probe wiping arrangement, belongs to a kind of borehole imaging instrument technical field.

Background technology

At present, borehole imaging instrument is widely used in the departments such as engineering geology, hydrogeology, geological prospecting, Geotechnical Engineering, mine；It is applicable to upright opening, lateral aperture and angling hole (angle of depression, the elevation angle).Borehole imaging instrument core gathers panoramic high-definition image for boring probe, but in engineering reality, imager is when gathering deep hole image, often due to the temperature difference is big in the exit orifice of hole, boring probing shell glass easy hydrops mist, make probe obscure, have a strong impact on image acquisition so that collection image blurring.Due to probe again in deep hole hole, again cannot wiping water smoke, affect camera lens gather image result, if take taking-up wiping after place into, waste time and energy, be substantially reduced image acquisition efficiency.

Summary of the invention

The technical problems to be solved in the utility model is: providing a kind of borehole imaging instrument probe wiping arrangement, it is achieved remote control wiping is popped one's head in, and it is time saving and energy saving to operate, improve image acquisition efficiency, image acquisition effect is greatly improved, to solve problems of the prior art.

The technical scheme that this utility model is taked is: a kind of borehole imaging instrument probe wiping arrangement, including probe body, it is provided with gripper shoe on described probe body, the rotary electric machine being provided with in described gripper shoe, steel wire winding wheel is installed on described rotary electric machine output shaft, described steel wire winding wheel is wound with the steel wire of flexibility, described steel wire is parallel with probe body axis, its free end is fixedly attached to wiping annulus, described wiping annulus is water-absorbing flexible material, probe body hyalomere lateral surface is close in inner side, between described wiping annulus upper side and gripper shoe downside, compression spring is installed.

Preferably, above-mentioned wiping annulus is embedded in retainer ring, it is provided with outside described retainer ring and pulls ring,, described steel cord end fixes connection by pulling buckle and pulls ring, by retainer ring with pull ring, ensure that rigidity and the intensity pulling elastic wiping annulus, and can allow at the elastic the tightst low laminating hyalomere of wiping annulus, wiping effect is more preferable, and such structure also is able to the service life of raising equipment.

Preferably, at above-mentioned wiping annulus laminating probe body, cross section is arranged to arc surface structure, uses arc surface can reduce wiping contact area, contact surface stress is bigger, and wiping effect is more preferable, additionally it is possible to reduce frictional force, reduce power consumption, reduce the purchase requirement of rotary electric machine.

Preferably, the arc surface of above-mentioned wiping annulus is provided with a plurality of annular groove, passes through strip groove, on the one hand, the quick wipe driven because of rotary electric machine, it is possible to the too much water of wiping is run up in groove, minimizing water contacts with probe hyalomere, makes wiping effect more preferable, on the other hand, wiping groove also is able to reduce wiping contact area, contact surface stress is bigger, and wiping effect is more preferable, additionally it is possible to reduce frictional force, reduce power consumption, reduce the purchase requirement of rotary electric machine.

Preferably, above-mentioned wiping annulus is provided with retractable dust cover, passes through dust cover, it is possible to ensure the clean of wiping annulus, it is to avoid the bonding of dust causes wiping effect to be deteriorated, and also can improve the service life of equipment.

Preferably, above-mentioned retractable dust cover is horn structure, upper end diameter is big, lower end is little, the dust that horn structure can allow retractable dust cover automatically will build up on during moving up and down drops, avoid accumulating on dust cover dust, increase weight during allowing wiping annulus move up and down, increase the power consumption of rotary electric machine.

Preferably, above-mentioned pull ring and retainer ring junction to be provided with reinforcement, rigidity and the intensity pulling ring can be improved by reinforcement.

Preferably, above-mentioned gripper shoe is arranged on the top of probe body hyalomere and is easy to put probe hyalomere wiping in place, improves the image acquisition effect of probe.

Preferably, above-mentioned rotary electric machine drives the winding mechanism of steel wire to use two sets, and relative probe body axis centrosymmetry is placed, is symmetrical arranged winding mechanism, allows and pull ring and wiping annulus stress equalization, and wiping is more uniform, and equipment life can be longer.

Preferably, above-mentioned rotary electric machine is connected to controller, described controller connects human-computer interaction interface and probe photographic head, by the figure of camera collection, human-computer interaction interface carries out showing and controller carries out process and is capable of artificial judgment and automatically carries out wiping the need of wiping probe or controller according to image result, substantially increases efficiency and the effect of image acquisition.

The beneficial effects of the utility model: compared with prior art, this utility model rotates by controlling rotary electric machine, steel wire winding wheel is driven to rotate, the wiping annulus wiping back and forth probe hyalomere of water-absorbing flexible material is driven by steel wire and compression spring, realize remote control wiping probe, it is time saving and energy saving to operate, more convenient operation, improve image acquisition efficiency, image acquisition effect is greatly improved, effectively solve image acquisition weak effect and wiping inconvenience present in prior art, waste time and energy, image acquisition effect and inefficient problem, this utility model also has simple in construction, low cost, load and unload feature convenient to use.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the close-up schematic view A in Fig. 1；

Fig. 3 is cross-sectional schematic B-B in Fig. 1；

Fig. 4 is the schematic top plan view of Fig. 1.

In figure: 1-probe body, 2-gripper shoe, 3-rotary electric machine, 4-steel wire winding wheel, 5-steel wire, 6-compression spring, 7-pulls ring, 8-wiping annulus, 9-retractable dust cover, 10-retainer ring, 11-annular groove, 12-reinforcement.

Detailed description of the invention

Below in conjunction with the accompanying drawings and this utility model is described further by specific embodiment.

nullAs Figure 1-Figure 4，A kind of borehole imaging instrument probe wiping arrangement，Including probe body 1，Gripper shoe 2 it is provided with on probe body 1，The rotary electric machine 3 being provided with in gripper shoe 2，Steel wire winding wheel 4 is installed on rotary electric machine 3 output shaft，Steel wire winding wheel 4 is wound with the steel wire 5 of flexibility，Steel wire 5 is parallel with probe body 1 axis，Its free end is fixedly attached to wiping annulus 8，Wiping annulus 8 is water-absorbing flexible material，Water-absorbing flexible body such as sponge，Probe body 1 hyalomere lateral surface it is close to inside it，Between wiping annulus 8 upper side and gripper shoe 2 downside, compression spring 6 is installed，Before using，Compression spring 6 is in free elongation state，Wiping annulus 8 is in probe hyalomere bottom，Steel wire work wiping annulus 6 moves up and compression spring 8 resets during motor reversal，Achieve working back and forth of wiping annulus.

Preferably, above-mentioned wiping annulus 8 is embedded in retainer ring 10, it is provided with outside retainer ring 10 and pulls ring 7, steel wire 5 end is fixed connection by pulling buckle and is pulled ring 7, by retainer ring and the rigidity and the intensity that pull ring ensure that to pull elastic wiping annulus, and can allow at the elastic the tightst low laminating hyalomere of wiping annulus, wiping effect is more preferable, and such structure also is able to the service life of raising equipment；Wiping annulus 8 cross section at probe body 1 of fitting is arranged to arc surface structure, uses arc surface can reduce wiping contact area, and contact surface stress is bigger, and wiping effect is more preferable, additionally it is possible to reduce frictional force, reduces power consumption, reduces the purchase requirement of rotary electric machine；The arc surface of wiping annulus 8 is provided with a plurality of annular groove 11, by strip groove, on the one hand, the quick wipe driven because of rotary electric machine, it is possible to the too much water of wiping is run up in groove, minimizing water contacts with probe hyalomere, make wiping effect more preferable, on the other hand, wiping groove also is able to reduce wiping contact area, and contact surface stress is bigger, wiping effect is more preferable, frictional force can also be reduced, reduce power consumption, reduce the purchase requirement of rotary electric machine；Retractable dust cover 9 is installed on wiping annulus 8, retractable dust cover 9 is horn structure, upper end diameter is big, lower end is little, the dust that horn structure can allow retractable dust cover automatically will build up on during moving up and down drops, avoid accumulating on dust cover dust, increase weight during allowing wiping annulus move up and down, increase the power consumption of rotary electric machine；Ring 7 and retainer ring 10 junction is pulled to be provided with reinforcement 12.

Preferably, above-mentioned rotary electric machine 3 drives the winding mechanism of steel wire 5 to use two sets, and relative probe body 1 axis centre is symmetrically placed, is symmetrical arranged winding mechanism, allows and pulls ring and wiping annulus stress equalization, and wiping is more uniform, and equipment life can be longer.

Preferably, above-mentioned rotary electric machine 3 is connected to controller, and controller connects human-computer interaction interface and probe photographic head.

The above; it is only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited thereto; any those familiar with the art is in the technical scope that this utility model discloses; change can be readily occurred in or replace; all should contain within protection domain of the present utility model, therefore, protection domain of the present utility model should be as the criterion with described scope of the claims.

Claims (10)

1. a borehole imaging instrument probe wiping arrangement, it is characterized in that: include probe body (1), gripper shoe (2) it is provided with on described probe body (1), the rotary electric machine (3) being provided with in described gripper shoe (2), steel wire winding wheel (4) is installed on described rotary electric machine (3) output shaft, described steel wire winding wheel (4) is wound with the steel wire (5) of flexibility, described steel wire (5) is parallel with probe body (1) axis, its free end is fixedly attached to wiping annulus (8), described wiping annulus (8) is water-absorbing flexible material, probe body (1) hyalomere lateral surface is close in inner side, between described wiping annulus (8) upper side and gripper shoe (2) downside, compression spring (6) is installed.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterized in that: described wiping annulus (8) is embedded in retainer ring (10), described retainer ring (10) outside is provided with and pulls ring (7), and described steel wire (5) end is fixed connection by pulling buckle and pulled ring (7).

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterised in that: described wiping annulus (8) laminating probe body (1) place cross section is arranged to arc surface structure.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 3, it is characterised in that: the arc surface of described wiping annulus (8) is provided with a plurality of annular groove (11).

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterised in that: being provided with retractable dust cover (9) on described wiping annulus (8), described retractable dust cover (9) is socketed in compression spring (6) outward.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 5, it is characterised in that: described retractable dust cover (9) is horn structure, and upper end diameter is big, and lower end is little.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 2, it is characterised in that pull ring (7) and retainer ring (10) junction to be provided with reinforcement (12) described in:.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterised in that: described gripper shoe (2) is arranged on the top of probe body (1) hyalomere.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterised in that: described rotary electric machine (3) drives the winding mechanism of steel wire (5) to use two sets, and relative probe body (1) axis centre is symmetrically placed.

A kind of borehole imaging instrument probe wiping arrangement the most according to claim 1, it is characterised in that: described rotary electric machine (3) is connected to controller, and described controller connects human-computer interaction interface and probe photographic head.