CN209354120U - Guide rail for magnetic steering simulation test and calibration - Google Patents

Abstract

The utility model provides a kind of guide rail for magnetic steering simulation test and calibration, comprising: main frame component is provided with oscillating rack；Secondary frame assembly, with main frame inter-module every setting；Slide track component, one end are hinged on time frame assembly, and the other end of slide track component is arranged in oscillating rack, and the other end of slide track component can be swung with oscillating rack；Magnetic short section component is arranged on slide track component and can move along the extending direction of slide track component.The utility model has the beneficial effects that, one end of slide track component is arranged on secondary frame assembly by rotary flange, the other end of slide track component is arranged in the swing that slide track component may be implemented in oscillating rack, magnetic short section component can extend along direction movement on slide track component simultaneously, can be realized the purpose of simulation magnetic short section component motion profile in the multiple freedom degrees in underground.

Description

Guide rail for magnetic steering simulation test and calibration

Technical field

The utility model relates to test, field of measuring technique, and in particular to one kind be used for magnetic steering simulation test and calibration Guide rail.

Background technique

Currently, petroleum industry increasingly payes attention to difficulty and employs storage with the increase of energy demand and the failure of easy exploiting oil reservoir The exploitation of amount and unconventional resource.In this context, magnetic navigational drilling techniques are gradually widely applied, major embodiment Super-viscous oil is exploited that can utilize the technology to complete construction to parallel water horizontal well, the construction for completing connected well carrys out working seam Gas and underground dissolvable mine.Control well track must be guided by magnetic guide instrument by boring this kind of exceptional well.

For magnetic pipe nipple as the important composition equipment in magnetic steering drilling technology, the calibration of magnetic flux is extremely important, The numerical value of calibration is directly related to the accuracy of magnetic steering.In the system equipment for magnetic steering simulation test and calibration, The actual condition for asking magnetic pipe nipple that can simulate underground realizes movement and the rotation of itself on spatial position, it is therefore desirable to one Kind can control magnetic pipe nipple movement, and making, which can be realized while it is mobile by command speed, moves along direction rotation, and can It is swung within the scope of certain amplitude.

Utility model content

The utility model provides a kind of guide rail for magnetic steering simulation test and calibration, to realize simulation magnetic short section The purpose of component motion profile in the multiple freedom degrees in underground.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of be used for magnetic steering simulation test and mark Fixed guide rail, comprising: main frame component is provided with oscillating rack；Secondary frame assembly, with main frame inter-module every setting；Sliding rail Component, one end are hinged on time frame assembly, and the other end of slide track component is arranged in oscillating rack, and slide track component is another End can be swung with oscillating rack；Magnetic short section component is arranged on slide track component and can move along the extending direction of slide track component It is dynamic.

Further, the extending direction of oscillating rack and the extending direction of slide track component are vertical in the horizontal plane.

Further, magnetic short section component includes motor and rolling bearing, and magnetic short section equipment to be tested can be mounted on rotation On bearing, motor can drive rolling bearing to drive magnetic short section equipment rotation to be tested.

Further, the swaying direction both ends of oscillating rack are provided with limit assembly.

Further, the support frame being used to support is provided with below the middle part of slide track component.

Further, the guide rail for magnetic steering simulation test and calibration further includes sliding floor component, and support frame is propped up It supports on sliding floor component, and can be slided on sliding floor component.

Further, the guide rail for magnetic steering simulation test and calibration further includes the first connecting column, the first connecting column Both ends are separately connected sliding floor component and main frame component.

Further, the guide rail for magnetic steering simulation test and calibration further includes the second connecting column, the second connecting column Both ends are separately connected sliding floor component and time frame assembly.

The utility model has the beneficial effects that being arranged one end of slide track component by rotary flange in secondary frame assembly On, the other end of slide track component is arranged in the swing that slide track component may be implemented in oscillating rack, while magnetic short section component energy Enough directions that extends along on slide track component are mobile, can be realized simulation magnetic short section component and move rail in the multiple freedom degrees in underground The purpose of mark.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

Fig. 1 is the top view of the utility model embodiment；

Fig. 2 is the main view of the utility model embodiment.

Appended drawing reference in figure: 1, main frame component；2, secondary frame assembly；3, slide track component；4, magnetic short section component；5, it slides Bottom deck assembly；6, the first connecting column；7, the second connecting column；8, support frame.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

A kind of guide rail for magnetic steering simulation test and calibration as depicted in figs. 1 and 2, including main frame component 1, secondary frame Frame component 2, slide track component 3 and magnetic short section component 4.Main frame component 1 is provided with oscillating rack.Secondary frame assembly 2 and main frame The setting of the interval of component 1.3 one end of slide track component is hinged on time frame assembly 2, and the other end setting of slide track component 3 is swinging tooth On item, and the other end of slide track component 3 can be swung with oscillating rack.Magnetic short section component 4 is arranged on slide track component 3 and can Extending direction along slide track component 3 moves.

One end of slide track component 3 is arranged on secondary frame assembly 2 by rotary flange, by the other end of slide track component 3 The swing that slide track component 3 may be implemented in oscillating rack is set, while magnetic short section component 4 can be on slide track component 3 along it Extending direction is mobile, can be realized the purpose of the simulation motion profile in the multiple freedom degrees in underground of magnetic short section component 4.

In the utility model embodiment in the horizontal plane, the extending direction of the extending direction and slide track component of oscillating rack hangs down Directly.The utility model can realize mobile control of the magnetic short section component 4 on slide track component 3 within the scope of 0mm-3000mm, control essence It spends up to 0.1mm.

Driving motor is provided at oscillating rack, the other end for driving oscillating rack to drive slide track component 3 is swung.Pendulum The swaying direction both ends of carry-over bar are provided with limit assembly, it can be achieved that swing control of the magnetic short section component 4 within the scope of ± 12.4 ° System controls precision up to 0.1 °.

Magnetic short section component 4 includes motor and rolling bearing, and magnetic short section equipment to be tested can be mounted on rolling bearing, electricity Machine can drive rolling bearing to drive magnetic short section equipment rotation to be tested.

Rotation of the magnetic short section equipment to be tested within the scope of 20r/min~200r/min can be realized by motor control, controlled Precision processed is up to 1r/min.The utility model can realize position to magnetic short section component 4 within the scope of above-mentioned technical parameter, angle With the comprehensively control of rotation speed, magnetic short section can be more really simulated in the various motion profile postures of underground.

The support frame 8 being used to support is provided with below the middle part of slide track component 3.For magnetic steering simulation test and calibration Guide rail further includes sliding floor component 5, and support frame 8 is supported on sliding floor component 5, and can be in sliding floor component 5 Upper sliding.Preferably, 8 lower part of support frame is set as roller form, can move left and right on sliding floor component 5.

Guide rail for magnetic steering simulation test and calibration further includes the first connecting column 6 and the second connecting column 7, the first connection The both ends of column 6 are separately connected and (are bolted) sliding floor component 5 and main frame component 1.The both ends of second connecting column 7 connect respectively Connect and (be bolted) sliding floor component 5 and time frame assembly 2.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects: this reality With the novel comprehensively control that can be achieved to position of the magnetic short section component within the scope of above-mentioned technical parameter, angle and rotation speed, Magnetic short section can more really be simulated in the various motion profile postures of underground.

The above, only specific embodiment of the utility model cannot limit the range that utility model is implemented, institute with it With the displacement of its equivalent assemblies, or according to equivalent variations made by the utility model patent protection scope and modification, should all still fall within The scope that this patent is covered.In addition, between technical characteristic and technical characteristic in the utility model, technical characteristic and technical solution Between, between technical solution and technical solution use can be freely combined.

Claims (8)

1. a kind of guide rail for magnetic steering simulation test and calibration characterized by comprising

Main frame component (1), is provided with oscillating rack；

Secondary frame assembly (2) is spaced with main frame component (1) and is arranged；

Slide track component (3), one end are hinged on time frame assembly (2), and the other end of slide track component (3) is arranged in the swing tooth On item, and the other end of slide track component (3) can be swung with the oscillating rack；

Magnetic short section component (4) is arranged on slide track component (3) and can move along the extending direction of slide track component (3).

2. the guide rail according to claim 1 for magnetic steering simulation test and calibration, which is characterized in that in horizontal plane Interior, the extending direction of oscillating rack and the extending direction of slide track component are vertical.

3. the guide rail according to claim 1 for magnetic steering simulation test and calibration, which is characterized in that magnetic short section component It (4) include motor and rolling bearing, magnetic short section equipment to be tested can be mounted on the rolling bearing, and the motor can drive It moves the rolling bearing and drives the magnetic short section equipment rotation to be tested.

4. the guide rail according to claim 1 for magnetic steering simulation test and calibration, which is characterized in that the swing tooth The swaying direction both ends of item are provided with limit assembly.

5. the guide rail according to claim 1 for magnetic steering simulation test and calibration, which is characterized in that slide track component (3) support frame (8) being used to support is provided with below middle part.

6. the guide rail according to claim 5 for magnetic steering simulation test and calibration, which is characterized in that described to be used for magnetic The guide rail for being oriented to simulation test and calibration further includes sliding floor component (5), and support frame (8) is supported on sliding floor component (5) it on, and can be slided on sliding floor component (5).

7. the guide rail according to claim 6 for magnetic steering simulation test and calibration, which is characterized in that described to be used for magnetic Guiding simulation test and the guide rail of calibration further include the first connecting column (6), and the both ends of the first connecting column (6) are separately connected sliding bottom Board group part (5) and main frame component (1).

8. the guide rail according to claim 6 for magnetic steering simulation test and calibration, which is characterized in that described to be used for magnetic Guiding simulation test and the guide rail of calibration further include the second connecting column (7), and the both ends of the second connecting column (7) are separately connected sliding bottom Board group part (5) and time frame assembly (2).