CN107219339B - Drilling fluid on-site analysis and test operation table - Google Patents

Abstract

The utility model discloses a drilling fluid on-site analysis and test operation table, which comprises a distribution box, an equipment box, an instrument box, a water tank and four supporting legs, wherein the equipment box is internally provided with a gas storage bottle, an air compressor, a water pump and a motor; the top of the water tank is provided with a water inlet, the bottom of the water tank is provided with a water outlet, and a heating device is arranged in the water tank; two rows of drilling fluid testing instruments are detachably arranged in the instrument box; the distribution box is used for providing electric energy for the air compressor, the water pump, the motor, the heating device and each drilling fluid testing instrument; the four supporting legs are adjustable in height and are arranged at the bottom of the operating platform. The utility model realizes the rapid completion of routine performance test analysis of drilling fluid on one workbench surface, and avoids the situation that drilling fluid workers respectively measure various drilling fluid performance measurement parameters in different places, thereby reducing the back and forth running times and lowering the labor intensity.

Description

Drilling fluid on-site analysis and test operation table

Technical Field

The utility model relates to a drilling fluid on-site analysis and test operation table which is used for solving the problems of packaging, storage, use, transportation and the like of drilling fluid on-site analysis and test instruments in the petroleum drilling process.

Background

Drilling fluids are known as drilling "blood", and their importance in the petroleum drilling industry is seen. Drilling fluid engineers need to analyze and test the performance of the drilling fluid continuously on site, and adjust and process according to the specific conditions so as to meet the requirements of underground safety, rapidness and high efficiency drilling. Conventional drilling fluid parameters include density, fluid loss, PH, funnel viscosity, rheological parameters, and the like. The used instruments relate to densitometers, marshall funnel viscometers, API medium pressure water loss, HTHP water loss meters, six-speed rotary viscometers, solid phase content measuring instruments and the like, wherein part of the instruments can work after being electrified, and part of the instruments need a stable high-pressure air source. After the instrument is used, the instrument needs to be cleaned to protect the instrument and the next use. Under the prior art conditions, each analysis instrument is individually packaged and used independently. Drilling fluid density and funnel viscosity are measured on the circulation tank, and other performance parameter measurements are performed in the sitting room on the circulation tank or in the well site instrument room due to the need of electricity. The ZL200720003144.8 drilling fluid analysis and test instrument box realizes the integral transportation and carrying of instruments, but cannot provide basic conditions required by on-site analysis and test.

Currently, there are the following problems with drilling fluid analysis assays:

(1) The drilling fluid analysis and test instruments are various, and each instrument is independently packaged, is used independently, has low efficiency and brings a plurality of inconveniences to carrying.

(2) The drilling fluid is toxic, the whole set of performance measurement of the drilling fluid generates about 0.1 square waste water at one time, if the waste water is analyzed and tested in a special room of an instrument, no part is discharged, and if the waste water is recycled, the expenditure of manpower and material resources is necessarily increased.

(3) When the drilling fluid performance parameters are measured on the circulating tank, sewage for cleaning the instrument can directly enter the circulating tank, but because tap water is not available, the instrument is inconvenient to clean, the existing method is to clean by using water contained in a container, but when the drilling fluid is constructed in winter in the north, water is dripped on site to form ice, the water contained in the container is not realistic, and too cold water is not beneficial to the health of drilling fluid workers.

(4) The measurement of drilling fluid density is performed on a horizontal table, and it is difficult to find the horizontal plane on the circulation tank.

(5) A six-speed rotary viscometer and an HTHP water loss meter are used in the sitting room, and the plug does not meet the explosion-proof requirement.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a drilling fluid on-site analysis and test operation table.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a drilling fluid field analysis assay console comprising:

a block terminal, an equipment box, an instrument box, a water tank and four landing legs, wherein:

the device box is internally provided with a gas storage bottle, an air compressor, a water pump and a motor, wherein the gas storage bottle is used for storing air compressed by the air compressor, the water pump is used for pressurizing water stored in the water tank, and the motor is used for driving the air compressor and the water pump;

the top of the water tank is provided with a water inlet, the bottom of the water tank is provided with a water outlet, and a heating device is arranged in the water tank and is used for heating water stored in the water tank;

two rows of drilling fluid testing instruments are detachably arranged in the instrument box, one row is sequentially provided with an HTHP water loss instrument, a six-speed rotary viscometer, an API water loss instrument and a solid phase content tester, and the other row is sequentially provided with a funnel support, a densimeter, a sand-containing funnel and a water gun, wherein the funnel support is used for clamping the funnel viscometer; the HTHP water loss instrument and the API water loss instrument are communicated with the gas storage bottle; the water gun is connected with the water pump through a hose;

the distribution box is used for providing electric energy for the air compressor, the water pump, the motor, the heating device and each drilling fluid testing instrument;

the four supporting legs are adjustable in height and are arranged at the bottom of the operating platform.

Preferably, the distribution box and the instrument box are arranged at the upper part of the operation table, and the equipment box and the water tank are arranged at the lower part of the operation table.

Preferably, in the instrument box, the box cover and the rear side face are locked through the pin buckle, the box cover is connected with the front side face and the front side face is connected with the box bottom through the hinge, when the instrument box is used, the pin buckle is opened, the box cover is opened from back to front and is overlapped with the front side face, and the overlapped box cover and the front side face are horizontally opened to be flush with the box bottom, so that an operation platform is obtained.

Preferably, the funnel support is a rotatable funnel support which is secured to the instrument pod by a swivel.

Preferably, a circular ring for clamping the funnel viscometer is provided with a notch.

Preferably, the bottom of the console is provided with a horizontal glass bulb.

Preferably, lifting rings are arranged at four corners of the bottom of the operation table.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

(1) The conventional performance test analysis of the drilling fluid is completed on one workbench surface, and the situation that drilling fluid workers measure various drilling fluid performance measurement parameters at different places is avoided, so that the number of back and forth running times can be reduced, and the labor intensity is reduced.

(2) The device is provided with a warm water cleaning instrument with pressure, so that the working comfort of drilling fluid workers can be improved.

Drawings

FIG. 1 is a front view of an operator's station according to an embodiment of the present utility model;

fig. 2 is a top view of an operation table according to an embodiment of the present utility model.

In the figure, a 1-distribution box, a 2-equipment box, a 3-instrument box, a 4-water tank, a 5-supporting leg, a 6-HTHP water loss meter, a 7-six-speed rotational viscosity meter, an 8-API water loss meter, a 9-solid phase content tester, a 10-funnel support, an 11-density meter, a 12-sand-containing funnel and a 13-water gun are arranged.

Detailed Description

The following detailed description of the utility model refers to the accompanying drawings.

Referring to fig. 1, in this embodiment, the console includes 4 boxes: the power distribution box 1, the equipment box 2, the instrument box 3 and the water tank 4, wherein the power distribution box 1 and the instrument box 3 are positioned on the upper part of the operation table, and the equipment box 2 and the water tank 4 are positioned on the lower part of the operation table. From the view point of view, the distribution box 1 is facing to the left, which is used to supply electric energy to the heating device in the water tank 4, the water pump in the equipment tank 2, the air compressor, the motor and the drilling fluid laboratory equipment in the equipment tank 3. The instrument box 3 integrally combines drilling fluid testing instruments with different specifications and different models to form a whole. In the instrument box 3, the box cover and the rear side face are locked by a pin buckle, and the box cover and the front side face as well as the front side face and the box bottom are connected by adopting hinges. When the box cover is used, the pin buckle is opened, the box cover is opened from back to front, the opened box cover is overlapped with the front side surface, and the overlapped box cover and the front side surface are horizontally opened to be flush with the box bottom to serve as an operation platform. The measurement of the funnel viscosity and density of the drilling fluid can be accomplished on an operating platform. Here, the case cover, the case bottom, the front side, the rear side refer to the case cover, the case bottom, the front side, the rear side of the instrument case.

The lower part of the operating platform is a water tank 4 and an equipment tank 2. The equipment box 2 is internally provided with a gas storage bottle, an air compressor, a water pump and a motor, and the placement positions of the gas storage bottle, the air compressor, the water pump and the motor are properly adjusted according to the respective specifications and model sizes. Air is compressed by an air compressor and stored in a gas storage bottle for use in measuring the filtration loss of drilling fluid. The water tank 4 is provided with a heating device, the temperature is controllable, analysis and test under different temperatures are met, and the water pressurized by the water pump is used for cleaning the instrument, so that the instrument can be cleaned quickly. The top of the water tank 4 is provided with a water inlet, and the bottom is provided with a water outlet. The equipment box 2 is provided with a side cover, is connected with the water tank by a buckle, and is convenient to open maintenance equipment.

Referring to fig. 2, two rows of drilling fluid testing instruments are fixedly arranged in an instrument box 3, the first row is provided with an HTHP water loss instrument 6, a six-speed rotary viscometer 7, an API water loss instrument 8, a solid phase content measuring instrument 9 in sequence from left to right, and the HTHP water loss instrument 6 and the API water loss instrument 8 are respectively connected with a gas storage bottle; the HTHP water loss meter 6 and the six-speed rotary viscometer 7 are respectively connected to an explosion-proof distribution board in the distribution box 1. The second row is from left to right in proper order funnel support 10, densimeter 11, contain hourglass fill 12, squirt 13, and funnel support 10 is used for centre gripping funnel viscometer, and squirt 13 passes through the hose and links to each other with the water pump in the equipment box 2, and the pressurized water of water pump is used for instrument cleaning from squirt 13 blowout. The drilling fluid laboratory equipment formulated in the equipment box 3 can be adjusted according to customer requirements, but the discharge sequence is not recommended to be changed. The drilling fluid testing instrument bases are embedded on the instrument box and fixed on the rear side face of the instrument box 3 through clamping bands, so that the drilling fluid testing instrument bases can be used in fixed positions or can be moved to an operation platform for use after the clamping bands are released.

In conducting the assay, the preferred sequence of operations is: measuring viscosity by adopting a funnel viscometer, measuring HTHP water loss by adopting an HTHP water loss meter 6, measuring viscosity by adopting a six-speed rotational viscometer 7 within 30 minutes of measuring HTHP water loss, and measuring water loss by adopting an API water loss meter 8 within the last 10 minutes of waiting for the six-speed rotational viscometer 7 to measure viscosity; finally, the density is measured using a densitometer 11. According to the operation sequence, the measurement of all drilling fluid parameters can be completed in the shortest time, and the efficiency is greatly improved.

The left side face in the instrument box 3 is provided with a rotatable funnel support 10, and the left end of the funnel support 10 is fixed on the instrument box 3 through a rotating piece. The free end of the funnel holder 10 points to the right when not in use. When in use, the funnel support 10 is rotated forwards by 30-60 degrees, so that the funnel support 10 is positioned on the operation platform for measuring the viscosity of the drilling fluid funnel. The circle of the free end of the funnel support 10 is provided with a notch, so that the funnel can be conveniently taken and placed.

The height of the four supporting legs 5 of the operation table can be finely adjusted, a horizontal glass bubble is arranged at the bottom of the instrument box 3, and the operation table is ensured to be horizontal by adjusting the height of the four supporting legs 5 and observing the horizontal glass bubble. Lifting rings are arranged at four corners of the bottom of the operating platform, so that the lifting rings are convenient to move and lift.

Claims (1)

1. Drilling fluid on-site analysis chemical examination operation panel, characterized by includes:

a block terminal, an equipment box, an instrument box, a water tank and four landing legs, wherein:

the device box is internally provided with a gas storage bottle, an air compressor, a water pump and a motor, wherein the gas storage bottle is used for storing air compressed by the air compressor, the water pump is used for pressurizing water stored in the water tank, and the motor is used for driving the air compressor and the water pump;

the top of the water tank is provided with a water inlet, the bottom of the water tank is provided with a water outlet, and a heating device is arranged in the water tank and is used for heating water stored in the water tank;

two rows of drilling fluid testing instruments are detachably arranged in the instrument box, one row is sequentially provided with an HTHP water loss instrument, a six-speed rotary viscometer, an API water loss instrument and a solid phase content tester, and the other row is sequentially provided with a funnel support, a densimeter, a sand-containing funnel and a water gun, wherein the funnel support is used for clamping the funnel viscometer; the HTHP water loss instrument and the API water loss instrument are communicated with the gas storage bottle; the water gun is connected with the water pump through a hose;

the distribution box is used for providing electric energy for the air compressor, the water pump, the motor, the heating device and each drilling fluid testing instrument;

the four supporting legs are adjustable in height and are arranged at the bottom of the operating platform;

the distribution box and the instrument box are arranged at the upper part of the operation table, and the equipment box and the water tank are arranged at the lower part of the operation table;

in the instrument box, the box cover and the rear side face are locked through the pin buckle, the box cover is connected with the front side face and the front side face is connected with the box bottom through the hinge, when the instrument box is used, the pin buckle is opened, the box cover is opened from back to front and is overlapped with the front side face, and the overlapped box cover and the front side face are horizontally opened to be level with the box bottom, so that an operation platform is obtained;

the funnel support is a rotatable funnel support and is fixed on the instrument box through a rotating piece;

the circular ring used for clamping the funnel viscometer is provided with a notch;

the bottom of the operating table is provided with a horizontal glass bulb;

lifting rings are arranged at four corners of the bottom of the operating platform.