CN206323074U - A kind of clinometer cable aperture correcting fixing-line device - Google Patents

Abstract

The utility model is related to a kind of clinometer cable aperture correcting fixing-line device, the clinometer cable aperture correcting fixing-line device is provided with the sleeve being made up of the cavity of two semi-cylindricals, two semi-cylindrical cavitys are connected by rotating shaft, opposite side is closed together by hinge, and the top surface of sleeve is the upper surface circle centre position setting correcting hole of two semicylinders；Fixing-line device is installed around the correcting hole of semicylinder upper surface, fixing-line device is linked together by base and card line plate by pin." aperture orientating device " is directly anchored on inclinometer pipe aperture by the utility model, it effectively prevent the accident that cable takes away " aperture orientating device " in inclinometer aperture, the card line device set in addition in " aperture orientating device " upper surface, survey crew is set there are other operations when being lifted up cable, as long as pulling up cable, releases cable after to mark node, cable can be stuck automatically, and measurement work becomes convenient, efficient.

Description

A kind of clinometer cable aperture correcting fixing-line device

Technical field

The utility model belongs to inclinometer technical field, more particularly to a kind of clinometer cable aperture correcting fixing-line device.

Background technology

At present, inclinometer is first put into deviational survey bottom of the tube in conventional slide formula inclinometer measurement process, will surveyed every time afterwards Oblique instrument is lifted up level altitude 0.5m or 1.0m (cable has a mark node every 0.5m), the reading after inclinometer is stable, Measurement process is in center the cable of inclinometer need to be passed through to inclinometer pipe aperture as far as possible when, to ensure measurement accuracy.Past Conventional instrument " aperture orientating device " is that a center is thick aluminium disks of the circular hole to the vee of external expansion one, and activity, which is taken, puts On inclinometer pipe aperture, cable careful need to be lifted up from big triangle vacancy during measurement, not touch aperture correcting as far as possible Device, is reached after hoisting depth, at the circular hole that cable marks node is moved back to " aperture orientating device " center again.Operating process requirement Operating personnel are careful with caution constantly, and otherwise cable is easy to " aperture orientating device " taking away inclinometer pipe aperture, in addition every time to Upper lifting cable will have the shaking motion of left and right to be unfavorable for the stabilization of inclinometer, can extend the instrument stabilizer time.

In summary, the problems of foramen primum mouthful orientating device is：1st, inclinometer lifts cable every time in measurement process It is easy to the aperture orientating device that activity is placed on inclinometer pipe aperture taking away aperture；2nd, being lifted up cable needs first to move cable Center hole internal procedure is moved back after to trigonum again more to bother, and is unfavorable for the stabilization of inclinometer.Therefore former " aperture correcting Device " influences measurement efficiency and easily produces unexpected trouble.

The content of the invention

Aperture orientating device is taken away inclinometer pipe by the utility model to solve the easy of cable lifting process presence of inclinometer Aperture, is unfavorable for the stabilization of inclinometer, and unhandy technical problem and provide it is a kind of it is simple in construction, easy to install, Improve the new clinometer cable " aperture correcting fixing-line device " of operating efficiency.

The utility model is adopted the technical scheme that to solve technical problem present in known technology：

The clinometer cable aperture correcting fixing-line device that the utility model is provided, the clinometer cable aperture correcting fixing-line device The sleeve being made up of the cavity of two semi-cylindricals is provided with, two semi-cylindrical cavitys are connected by rotating shaft, opposite side is by closing Page is closed together, and the top surface of sleeve is the upper surface circle centre position setting correcting hole of two semicylinders；Led in cavity upper surface Fixing-line device is installed around positive hole, fixing-line device is linked together by base and card line plate by pin.

Further, the inside cavity u shapes or the raised one lateral edges of taper are on correcting bore edges, other side Edge is far from spacing of the cavity wall requirement more than 1cm.

Further, respectively there is a binding groove at the base two ends；Fixing-line device is fixed on chamber by fastening bolt by binding groove On body upper surface.

Further, the middle part of two pieces of card line plates docking is set to line hole, and it is straight that card line bore dia is slightly less than correcting hole Footpath, the holes center of circle is overlapped.

Further, one layer of antiskid glue cushion is posted on the inwall of the cavity；At the fixing-line device folding rotating shaft in the middle part of pin Spring is installed to be used for making to set back after card line plate tilting putting.

The utility model has the advantages and positive effects of：Because the utility model is direct directly by " aperture orientating device " Inclinometer pipe aperture is fixed on, the possibility that cable takes away " aperture orientating device " in inclinometer aperture is effectively prevent, in addition in " aperture The card line device that orientating device " upper surface is set, makes survey crew to have other operations when being lifted up cable, as long as pulling up Cable, to releases cable after node is marked, cable can be stuck automatically, and measurement work becomes convenient, efficient.During cavity is There is upper surface in empty two panels semicolumn body, semicolumn body, lower surface is sky, and semicircular bodies upper surface center of circle position is one The semicircle (diameter is slightly larger than cable size) of hollow out, a raised u is arranged at the bottom for connecting semicircle upper surface in inside cavity Body is looped around on the semicircle outside of hollow out, and the inner side of u bodies is used for guide cable, prevents cable in the process pulled upwards In be stuck in the semicircular edge of hollow out.Cavity two panels semicircular body inwall adheres to one layer of antiskid glue cushion, cavity is firmly consolidated It is scheduled on skew back pipe；Card line device includes fixed base and movable card line plate, and fixed base is fixed by fastening bolt On cavity upper surface, card line plate is connected by rotating shaft pin with base, and spring passes through pin connect base and card line plate, makes card Line plate has downward movement tendency all the time.A kind of new aperture correcting fixing-line device of the present invention, directly leads to aperture correcting fixing-line device Cross bolt and be fastened on inclinometer pipe aperture, it is to avoid cable takes away orientating device the accident in aperture, automatic card line is designed to surveying Oblique instrument automatically blocks cable when being promoted to measurement position, can complete to measure work without other operations, effectively increase survey Amount efficiency.Solve traditional " aperture orientating device " to be easy to aperture orientating device taking away inclinometer pipe aperture, be unfavorable for inclinometer It is stable, the problem of extending the instrument stabilizer time.The utility model can greatly improve the convenience of operating personnel, and reduction need not The operational error wanted.

Brief description of the drawings

Fig. 1 is the clinometer cable aperture correcting fixing-line device structural representation that the utility model embodiment is provided.

Fig. 2 is the clinometer cable aperture correcting fixing-line device cavity top view that the utility model embodiment is provided.

Fig. 3 is the cavity cross-section figure that the utility model embodiment is provided.

Fig. 4 is the card line device top view that the utility model embodiment is provided.

Fig. 5 is the clinometer cable aperture correcting fixing-line device operation principle schematic diagram that the utility model embodiment is provided.

In figure：1st, rotating shaft；2nd, cavity；3rd, hinge；4th, the first fastening bolt；5th, correcting hole；6th, base；7th, binding groove；8、 Second fastening bolt；9th, pin；10th, spring；11st, pin；12nd, card line plate；13rd, line hole；14th, thread Pilot hole；15th, skid-proof rubber Pad；16th, cable.

Embodiment

For the content of the invention of the present utility model, feature and effect can be further appreciated that, following examples are hereby enumerated, and coordinate Accompanying drawing describes in detail as follows.

Structure of the present utility model is explained in detail below in conjunction with the accompanying drawings.

As Figure 1-Figure 5, the clinometer cable aperture correcting fixing-line device that the utility model embodiment is provided includes：Rotating shaft 1st, cavity 2, hinge 3, fastening bolt 4, correcting hole 5, base 6, binding groove 7, No. two fastening bolts 8, pin 9, spring 10, Pin 11, card line plate 12, line hole 13, thread Pilot hole 14, antiskid glue cushion 15, cable 16.

There are u shapes or the projection of taper, two semicolumns inside the sleeve being made up of the cavity 2 of two semi-cylindricals, cavity 2 Shape cavity 2 is connected by rotating shaft 1, and opposite side is closed together by hinge 3, and one layer of antiskid glue cushion is posted on the inwall of cavity 2 15.The top surface of sleeve is that the upper surface circle centre position hollow out one of two semicylinders is referred to as correcting hole slightly larger than the hole of cable size 5.Fixing-line device is installed in the upper surface of cavity 2, fixing-line device is linked together by base 6 and card line plate 12 by pin 11, pin 11 middle parts are used for making to set back after the tilting of card line plate 12 putting through a spring 10.

The inside u shapes of cavity 2 or the raised one lateral edges of taper are close on the edge of correcting hole 5, and other side edge is far from chamber Spacing of the body sidewall requirement more than 1cm.Respectively there is a binding groove 7 at the two ends of base 6, and a fastening bolt 8 will by the binding groove 7 Fixing-line device is fixed on the upper surface of cavity 2.On card line plate 12 with correcting hole about 5 lap there is a less semicircle perforate to claim For line hole 13.The diameter of correcting hole 5 should be 1.5 times of the diameter at cable nubbed surface, and the diameter of line hole 13 should be compared with cable sheet The wide 2-3mm of body, but less than the diameter at cable nubbed surface.

As shown in Figure 2 and Figure 3, it is the hollow cavity that is used in the utility model be fastened on inclinometer tube orifice, by inclinometer edge " clinometer cable aperture correcting fixing-line device " cavity side is through the fastening bolt 4 on hinge 3 by inclinometer pipe test to after ttom of pipe Unclamp, afterwards open two halves cavity, two halves cavity is closed be placed in inclinometer tube orifice after cable is passed through into correcting hole 5, then The fastening bolt 4 of side is tightened.Here the effect of correcting hole 5 is a certain small work that cable is strapped in inclinometer pipe center Within the scope of dynamic, the u bodies of inner bulge are to prevent that cable is stuck in the damage that the edge of correcting hole 5 causes cable in lifting process It is bad.

Such as Fig. 4 is is used for the device of card line in the utility model, and the movable center hole size of card line plate 12 and cable are straight Footpath coincide, cable be lifted up process can smoothly by the circular hole of movable card line plate 12, when running into the mark point of projection, Two panels card line plate 12 can be started simultaneously, and raised mark point can automatically restore to home position again by card line plate 12 afterwards, Releases cable is only needed this moment, and the raised node of cable can be firmly stuck on card line plate 12.So measure the position of different height Shifting amount only need to simply be lifted up cable.It can be existed for the cable of different-diameter by the bolt of mobile firm banking The position of binding groove 7 come be adjusted with meet more polytypic cable requirement.

If Fig. 5 is that the utility model " a kind of clinometer cable aperture correcting fixing-line device " one in measurement process is simple Schematic diagram.

The above is only, to preferred embodiment of the present utility model, not to make any formal to the utility model Limitation, it is every according to technical spirit of the present utility model to any simple modification made for any of the above embodiments, equivalent variations with Modification, is belonged in the range of technical solutions of the utility model.

Claims (5)

1. a kind of clinometer cable aperture correcting fixing-line device, it is characterised in that the clinometer cable aperture correcting fixing-line device is set The sleeve being made up of the cavity of two semi-cylindricals is equipped with, two semi-cylindrical cavitys are connected by rotating shaft, and opposite side passes through hinge Close together, the top surface of sleeve is the upper surface circle centre position setting correcting hole of two semicylinders；Simultaneously around correcting hole Fixing-line device is installed, fixing-line device is linked together by base and card line plate by pin.

2. correcting fixing-line device in clinometer cable aperture as claimed in claim 1, it is characterised in that the inside cavity u shapes or The raised one lateral edges of taper are on correcting bore edges, and other side edge is far from spacing of the cavity wall requirement more than 1cm.

3. correcting fixing-line device in clinometer cable aperture as claimed in claim 1, it is characterised in that the base two ends respectively have one Bar binding groove；Fixing-line device is fixed on cavity upper surface by fastening bolt by binding groove.

4. correcting fixing-line device in clinometer cable aperture as claimed in claim 1, it is characterised in that two pieces of card line plates docking Middle part be set to line hole, card line bore dia is slightly less than correcting bore dia, and the holes center of circle is overlapped.

5. correcting fixing-line device in clinometer cable aperture as claimed in claim 1, it is characterised in that pasted on the inwall of the cavity There is one layer of antiskid glue cushion；Spring is installed at the fixing-line device folding rotating shaft in the middle part of pin to be used for making card line plate set back after tilting Put.