CN205826458U - Continuous measuring viscosity meter - Google Patents

Abstract

The utility model discloses a continuous measurement viscometer, the on-line screen storage device comprises a base, the main support, a slide rail, slewing mechanism, the funnel, funnel support and mud shunt tubes, main support and slide rail are all fixed to be set up on the base, slewing mechanism sets up on the main support, be provided with the slider on the slide rail, slider longitudinal movement on the slide rail, fixedly connected with hose all the way of mud shunt tubes, another way drives the slewing mechanism motion with the slewing mechanism cooperation, hose end and mud shunt tubes intercommunication, the other end is connected with the tubular metal resonator, tubular metal resonator and slider fixed connection, the funnel is fixed on the funnel support, be provided with the sensor in the funnel, the funnel support is circular motion through the slewing mechanism drive. The utility model discloses artifical mud viscosity performance of gathering of simulation, the error of removing different people and measuring the mud performance completely, and possess continuous measurement drilling fluid performance, be favorable to monitoring the influence of mud performance to the oil gas layer.

Description

Measure viscosity apparatus continuously

Technical field

This utility model relates to a kind of device measuring mud viscosity during oil log, particularly relates to a kind of continuous Measure viscosity apparatus.

Background technology

In Process of Oil Well Drilling, the well drilling detritus of down-hole is carried to ground, then by the mud of drilling tool high speed flowing By mud vibrating screen, landwaste is leached.For a long time, petroleum industry commonly uses manual measurement mud property, thus is likely to result in one A little errors.Now, a kind of situation is that oil speed-raising is obvious especially, when fast drilling, can be potentially encountered answering in various engineering Miscellaneous situation, such as bores and meets oil-gas Layer, and water layer etc. all can cause the slight change of mud property, grasps so having monitored mud property To oil-gas Layer data, also can prevent some engineering accidents.

Publication No. 204679382U, it is a kind of durable that publication date is that in JIUYUE, 2015 Chinese patent literature of 30 days discloses Drilling oil viscosity the most double survey instrument, including drive link, the bottom of described drive link connects drill bit, the other end of drive link Being in transmission connection with drilling well driving means, described drill bit is connected with drive link by transiting rod, and described drive link is the most successively Being provided with cavity A and cavity B, described cavity A is located at the bottom of drive link, and the top of described cavity A is in communication with the outside, in cavity A Be provided with the micro-formula viscometer that shakes of moment of torsion, in described cavity B, be provided with rotating cylinder viscometer, the inwall of described cavity A is positioned at outer the most in succession Logical place is provided with filter screen.

Publication No. 203519463U, publication date is that the Chinese patent literature of on 04 02nd, 2014 discloses a kind of drilling well Constructing device, particularly to a kind of funnel viscometer and densimeter determinator case.Its technical scheme is: include that Marsh funnel props up Frame, base, case lid, casing, disjunctor support, Marsh funnel support, opposite side installation disjunctor are installed in the side in described casing Support and base；Fixing Marsh funnel on described Marsh funnel support, the one of disjunctor support is passed through in the lower section of Marsh funnel End fixes measuring cup, and the other end of disjunctor support fixes rustless steel measuring cup and densimeter, and disjunctor support is arranged on base.

Mud is non-Newtonian fluid, and its virtual viscosity claims regarding viscosity or apparent viscosity.Situ of drilling well Marsh funnel is measured Second time that unit volume mud flows out characterizes drilling fluid rheology energy, in seconds.Above-mentioned prior art exists asks as follows Topic: first, manual measurement is usually taked at scene, it is impossible to Continuous Observation mud property.Second, often there is big mistake during measurement Difference, situ of drilling well cannot unify reading, and such as everyone is different to the response time of time, causes stopwatch to read viscosity time Time have difference；In funnel, add the difference of mud amount, also have influence on viscosity time.And viscosity can monitor oil-gas Layer money Material.

Summary of the invention

The purpose of this utility model is the problems referred to above overcoming prior art to exist, it is provided that one measures viscosity continuously Instrument.This utility model simulation is artificial gathers mud viscosity performance, excludes different people completely and measures the error of mud property, and tool For measuring property of drilling fluid continuously, be conducive to the monitoring mud property impact on oil-gas Layer.

For achieving the above object, the technical solution adopted in the utility model is as follows:

One measures viscosity apparatus continuously, it is characterised in that: include base, main support, slide rail, rotating mechanism, funnel, funnel Support and mud isocon, main support and slide rail are all fixedly installed on base, and rotating mechanism is arranged on main support, on slide rail Being provided with slide block, slide block is lengthwise movement on slide rail, and mud isocon one tunnel is fixedly connected with flexible pipe, another road and rotating mechanism Coordinating and drive rotating mechanism motion, flexible pipe one end connects with mud isocon, and the other end connects metal tube, metal tube and slide block Fixing connection, funnel is fixed on funnel stand, is provided with sensor in funnel, and funnel stand is driven by rotating mechanism and does circle Zhou Yundong；When funnel stand turns to drive metal tube to move on slide rail, metal tube outlet coordinates with funnel notes funnel Mud, when funnel stand turns to separate with metal tube, completes funnel is noted mud.

Described rotating mechanism includes reduction gear box, rotating disk, impeller and gear, and gear is fixed in impeller, and impeller passes through The mud of mud isocon output drives motion, and reduction gear box one end is connected with gear, and the other end is connected with rotating disk, and funnel props up Frame is fixedly installed on rotating disk.

Described sensor includes sensors A and sensor B, and the big end near funnel arranges sensors A, little near funnel End arranges sensor B.

It is provided with on described slide rail for slide block is carried out spacing limiting plate.

Described metal tube is S-shaped.

Employing the utility model has the advantage of:

1, this utility model solves the problem that situ of drilling well measures mud viscosity performance equipment the most continuously.

2, this utility model is easy for installation, only need to be placed at one upper outlet of the anti-overflow tank of drilling crew.

3, this utility model has and measures property of drilling fluid continuously, is conducive to the monitoring mud property impact on oil-gas Layer.

4, use this utility model, unify drilling fluid viscosity performance data.

Accompanying drawing explanation

Fig. 1 is blade wheel structure schematic diagram of the present utility model

Fig. 2 is this utility model Facad structure figure

Fig. 3 is this utility model construction profile.

Figure is labeled as: 1, impeller, 2, gear, 3, funnel stand, 4, rotating disk, 5, main support, 6, base, 7, mud shunting Pipe, 8, flexible pipe, 9, slide rail, 10, slide block, 11, funnel, 12, sensors A, 13, sensor B, 14, limiting plate, 15, reduction gearing Case.

Detailed description of the invention

Embodiment 1

One measures viscosity apparatus continuously, including base 6, main support 5, slide rail 9, rotating mechanism, funnel 11, funnel stand 3 All being fixedly installed on base 6 with mud isocon 7, main support 5 and slide rail 9, rotating mechanism is arranged on main support 5, slide rail 9 On be provided with slide block 10, slide block 10 lengthwise movement on slide rail 9, mud isocon 7 one tunnel is fixedly connected with flexible pipe 8, another road Coordinate drive rotating mechanism motion with rotating mechanism, flexible pipe 8 one end connects with mud isocon 7, and the other end connects metal tube, Metal tube is fixing with slide block 10 to be connected, and funnel 11 is fixed on funnel stand 3, is provided with sensor, funnel stand 3 in funnel 11 Driven by rotating mechanism and move in a circle；When funnel stand 3 turns to drive metal tube to move on slide rail 9, metal tube Outlet coordinates funnel 11 note mud with funnel 11, when funnel stand 3 turns to separate with metal tube, completes funnel 11 note Mud.

Preferred implementation of the present utility model is, described rotating mechanism includes reduction gear box 15, rotating disk 4, impeller 1 and Gear 2, gear 2 is fixed in impeller 1, and impeller 1 drives motion, reduction gear box 15 by the mud of mud isocon 7 output One end is connected with gear 2, and the other end is connected with rotating disk 4, and funnel stand 3 is fixedly installed on rotating disk 4.

Another preferred implementation of the present utility model is, described sensor includes sensors A 12 and sensor B 13, Big end near funnel 11 arranges sensors A 12, and the small end near funnel 11 arranges sensor B 13.

Another preferred implementation of the present utility model is, described slide rail 9 is provided with for carrying out spacing to slide block 10 Limiting plate 14.When metal tube does not moves, slide block 10 is positioned on limiting plate 14, and funnel stand 3 turns to drive at metal tube gold When belonging to pipe motion, slide block 10 moves upward on slide rail 9, and when funnel stand 3 turns to separate with metal tube, slide block 10 is at slide rail Move downwardly on 9 on limiting plate 14.

Another preferred implementation of the present utility model is that described metal tube is S-shaped.

Using this utility model, mud impeller when creeping into is rotated and then by reduction gear box, power is passed to successively On rotating disk and funnel stand.When funnel rotates a circle, the situation of change of mud by sensor acquisition, and will come into computer and carry out point Analysis.

Embodiment 2

The present embodiment combines accompanying drawing and is described further this utility model.

As it can be seen, main support 5 is fixed on base 6, gear 2 is fixed on inside impeller 1.In mud impeller 1 Gear 2 rotates, and then drives reduction gear box 15, rotating disk 4, funnel stand 3, funnel 11 to rotate counterclockwise.

In conjunction with accompanying drawing 2, when funnel 11 is on the right side of main support 5, mud, from mud isocon 7, is slided through plastic flexible pipe 8, band The S-shaped metal tube of block 10 flows to funnel 11, and mud first arrives sensor B 13, sensor B 13 and sends a signal and return calculating Machine, mud arrives sensors A 12 again, and sensors A 12 sends a signal and returns computer, and funnel stand 3, funnel 11 continue inverse Hour hands rotate, and the S-shaped metal tube of band slide block 10 drops to from slide rail 9 from funnel stand 3 landing, the S-shaped metal tube of band slide block 10 On slide block limiting plate 14, now complete mud and fill funnel 11 operation；Funnel stand 3, funnel 11 continue to rotate counterclockwise, to main On the left of support 5, in funnel 11, mud sends a signal when firstly flowing through sensors A 12 and returns computer, again passes through sensor B 13 Time send a signal return computer, now complete blank funnel 11 mud operation, record mud degree of being stained with.Funnel stand 3, funnel 11 continue to rotate counterclockwise to below the S-shaped metal tube of band slide block on the right side of main support 5, complete circulation and fill mud, blank mud Survey the process of mud degree of being stained with.

This utility model is not limited to above example, but within this utility model claims all should be fallen into.

Claims (5)

1. a continuous measurement viscosity apparatus, it is characterised in that: include base (6), main support (5), slide rail (9), rotating mechanism, leakage Bucket (11), funnel stand (3) and mud isocon (7), main support (5) and slide rail (9) are all fixedly installed on base (6), turn Motivation structure is arranged on main support (5), and slide rail (9) is provided with slide block (10), slide block (10) lengthwise movement on slide rail (9), Mud isocon (7) one tunnel is fixedly connected with flexible pipe (8), and another road coordinates drive rotating mechanism motion, flexible pipe with rotating mechanism (8) one end connects with mud isocon (7), and the other end connects metal tube, and metal tube is fixing with slide block (10) to be connected, funnel (11) being fixed on funnel stand (3), be provided with sensor in funnel (11), funnel stand (3) is driven by rotating mechanism and does Circular motion；When funnel stand (3) turns to drive metal tube to move on slide rail (9), metal tube outlet and funnel (11) Coordinate and funnel (11) is noted mud, when funnel stand (3) turns to separate with metal tube, complete funnel (11) is noted mud.

Continuous measurement viscosity apparatus the most according to claim 1, it is characterised in that: described rotating mechanism includes reduction gear box (15), rotating disk (4), impeller (1) and gear (2), gear (2) is fixed in impeller (1), and impeller (1) passes through mud isocon (7) The mud of output drives motion, and reduction gear box (15) one end is connected with gear, and the other end is connected with rotating disk (4), funnel stand (3) it is fixedly installed on rotating disk (4).

Continuous measurement viscosity apparatus the most according to claim 2, it is characterised in that: described sensor includes sensors A (12) With sensor B(13), the big end near funnel (11) arranges sensors A (12), and the small end near funnel (11) arranges sensor B (13).

Continuous measurement viscosity apparatus the most according to claim 3, it is characterised in that: described slide rail is provided with for right on (9) Slide block (10) carries out spacing limiting plate (14).

Continuous measurement viscosity apparatus the most according to claim 4, it is characterised in that: described metal tube is S-shaped.