CN209248034U - A kind of wireless drilling gamma-spectrometry unit test system - Google Patents
A kind of wireless drilling gamma-spectrometry unit test system Download PDFInfo
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- CN209248034U CN209248034U CN201920189991.0U CN201920189991U CN209248034U CN 209248034 U CN209248034 U CN 209248034U CN 201920189991 U CN201920189991 U CN 201920189991U CN 209248034 U CN209248034 U CN 209248034U
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Abstract
The utility model relates to a kind of wireless drilling gamma-spectrometry unit test systems, including support stand, the simulated formation pipeline assembly on support stand top is slidably arranged in along support stand length direction, and horizontal through the tested gamma assembly being arranged in simulated formation pipeline assembly;The setting of support stand upper left-hand is tested gamma assembly left part for clamping and provides the main shaft power assembly of rotary power for tested gamma assembly, the setting of support stand upper right is tested the support tailstock assembly of gamma assembly right part for clamping, and simulated formation pipeline assembly bottom is set as it and provides the rack-driving assembly moved along its length;The utility model is crept into using the rotation of main shaft power assembly simulated-azimuth gamma drill collar, rack-driving assembly simulated-azimuth gamma, to simulate the true compound drilling situation of drilling well completely.
Description
Technical field
The utility model relates to the drilling engineering the field of test technology in petroleum, coal mine and geological prospecting, in particular to one
Kind wireless drilling gamma-spectrometry unit test system.
Background technique
In geological drilling, orientation gamma drill collar can not only measure formation lithology, additionally it is possible to tell upper and lower interface
Lithologic character is widely used in directional well, especially horizontal drilling.It can be with fast resolution oil reservoir interface, convenient for control well rail
Mark shuttles in oil sheet, efficiently accomplishes geosteering.
Currently, orientation gamma drill collar experimental provision, simulation gamma radiation source packing material is generally human configuration concrete
Instead of cannot distinguish between lithology and simulation bad ground;And experimental provision cannot achieve rotation and the parallel compound drilling that advances
Function.
Therefore, it is necessary to study the new wireless drilling gamma-spectrometry unit test system of one kind to be just particularly important.
Utility model content
The purpose of the utility model is to provide a kind of wireless drilling gamma-spectrometry unit test systems, and which solve gamma ray sources
The compound drilling mistake that invalidity problem and rotation in abundant simulated-azimuth gamma drill collar real work and drilling well carry out jointly
Journey.
The above-mentioned technical purpose of the utility model has the technical scheme that
A kind of wireless drilling gamma-spectrometry unit test system, including support stand, one end setting of the support stand
There is main shaft power assembly, the other end of the support stand is provided with support tailstock assembly, and the sliding of simulated formation pipeline assembly is set
It sets on the support stand and is located between the main shaft power assembly and support tailstock assembly, tested gamma assembly is threaded through
In the simulated formation pipeline assembly and its both ends are separately fixed on the main shaft power assembly and support tailstock assembly, described
Simulated formation pipeline assembly bottom is provided with rack-driving assembly;
The rack-driving assembly includes that the rack gear of the simulated formation pipeline assembly bottom is arranged in and is arranged described
Rack drives motor inside support stand, the output end of the rack drives motor and the input terminal of speed reducer connect, described
Master gear cooperating with the rack is arranged in the output end of speed reducer.
Further, the simulated formation pipeline assembly includes being slidably arranged in the branch along the support stand length direction
It supports the pedestal on rack top and the pipeline body in portion on the base is set, there is scale to complete not inside the pipeline body
Same radioactivity gamma ray source.
Further, the tested gamma assembly includes tested gamma drill collar, the tested gamma drill collar left end is arranged in
Left extension bar and the right extension bar that the tested gamma drill collar right end is set, and the free end of the left extension bar is clamped on institute
It states on main shaft power assembly, the free end of the right extension bar is clamped on the support tailstock assembly.
Further, the main shaft power assembly includes the pedestal that the support stand upper left-hand is arranged in, is arranged in institute
State the master of the right part of the spindle carrier on pedestal top, the main shaft being rotatably arranged on the spindle carrier, the setting main shaft
Axis chuck and it is arranged on the pedestal and provides the power plant module of rotary power for the main shaft.
Further, the power plant module includes rotary drive motor and cycloidal pin speed reducer, the cycloidal pin speed reducer
Pass through gear auxiliary driving between power output shaft and the main shaft.
Further, the support tailstock assembly includes being slidably arranged in the supporting table along the support stand length direction
The fixing seat of frame right upper portion, bearing liner seat arranged on the fixing seat are rotatably arranged on the bearing liner by bearing
Seat in driven axle, the driven axle chuck of the driven axle left part is set and the tailstock tune of the fixing seat tail portion is set
Save lead screw.
Further, the tailstock adjusting screw is ball-screw component.
Further, the left end of the main shaft in the main shaft power assembly is provided with the rotation for detecting its revolving speed and orientation
Transformer, the rotary transformer connect the revolving speed and orientation that can show drill collar at any time with computer.
Further, equipped with electric appliance rotary connector and connecting computer in the support tailstock assembly right center, can will rotate
The signal that drill collar issues is transmitted in computer.
Further, what is filled inside the pipeline body is the gamma ray source of mud stone and sandstone production.
Further, the support stand top and be located at the simulated formation pipeline assembly left and right sides position along institute
It states the sliding of support stand length direction and is provided with V-type bracket assembly, the V-type bracket assembly includes being slidably arranged in the support
Sliding seat on rack, the support rod being arranged on the sliding seat and the V-type supporting plate that the post upper is set, it is described
A pair of of idler wheel is arranged in rotation on V-type supporting plate.
In conclusion the utility model has the following beneficial effects:
The utility model is directed to currently, orientation gamma drill collar experimental provision, simulation gamma radiation source packing material are generally
Human configuration concrete replaces, and cannot distinguish between lithology and simulation bad ground;And experimental provision cannot achieve rotation and advance
The problem of parallel compound drilling function, provide a kind of wireless drilling gamma-spectrometry unit test system, including support stand, edge
Support stand length direction is slidably arranged in the simulated formation pipeline assembly on support stand top, and level runs through setting in mould
Tested gamma assembly in quasi- stratum pipeline assembly;Meanwhile it is total for the tested gamma of clamping in the setting of support stand upper left-hand
The main shaft power assembly of rotary power is provided at left part and for tested gamma assembly, support stand upper right is arranged for card
The support tailstock assembly of tight tested gamma assembly right part, simulated formation pipeline assembly bottom are set as it and provide along its length
Mobile rack-driving assembly;Wherein, rack-driving assembly includes that the rack gear of simulated formation pipeline assembly bottom is arranged in and sets
The rack drives motor inside support stand is set, the output end of rack drives motor and the input terminal of speed reducer connect, slow down
The master gear matched with rack gear is arranged in the output end of machine.
The utility model uses ground mfs layer and sandstone to replace concrete as gamma ray source, simulates the true ring in underground completely
Border, it is truer to orientation gamma drill collar test data;The static test of existing equipment is compared, the utility model uses two motor controls
System, one of motor are rotary drive motor for controlling drill collar rotation, simulate rotary drilling, another motor is rack gear drive
Dynamic motor simulates going down process, to realize simulation rotation and the parallel composite drill that advances for controlling gamma ray source horizontal movement
Into function.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the entire workbench of embodiment, illustrates the specific structure of entire workbench;
Fig. 2 is the structural schematic diagram of embodiment middle rack drive assembly;
Fig. 3 is the structural schematic diagram that gamma assembly is tested in embodiment;
Fig. 4 is the structural schematic diagram of main shaft power assembly in embodiment.
In figure, 1, support stand;2, simulated formation pipeline assembly;21, pedestal;22, pipeline body;3, it is total to be tested gamma
At;31, it is tested gamma drill collar;32, left extension bar;33, right extension bar;4, main shaft power assembly;41, pedestal;42, main shaft branch
Frame;43, main shaft;44, spindle chuck;45, rotary drive motor;46, cycloidal pin speed reducer;47, gear pair;5, support tailstock is total
At;51, fixing seat;52, bearing liner seat;53, driven axle;54, driven axle chuck;55, tailstock adjusting screw;6, rack-driving is total
At;61, rack gear;62, rack drives motor;63, speed reducer;64, master gear;7, V-type bracket assembly;71, sliding seat;72, it props up
Strut;73, V-type supporting plate.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Embodiment 1
As depicted in figs. 1 and 2, a kind of wireless drilling gamma-spectrometry unit test system, including support stand 1, the branch
One end of support rack 1 is provided with main shaft power assembly 4, and the other end of the support stand 1 is provided with support tailstock assembly 5, mould
Quasi- stratum pipeline assembly 2 slides and is horizontally set on the support stand 1 and is located at the main shaft power assembly 4 and support tail
Between seat assembly 5, tested gamma assembly 3 is threaded through in the simulated formation pipeline assembly 2 and its both ends be separately fixed at it is described
On main shaft power assembly 4 and support tailstock assembly 5,2 bottom of simulated formation pipeline assembly is provided with rack-driving assembly 6.
The rack-driving assembly 6 includes that the rack gear 61 that 2 bottom of simulated formation pipeline assembly is arranged in and setting exist
Rack drives motor 62 inside the support stand 1, the input of the output end and speed reducer 63 of the rack drives motor 62
The master gear 64 matched with the rack gear 61 is arranged in end connection, the output end of the speed reducer 63.
Embodiment 2
As shown in Figure 1, on the basis of embodiment 1, the simulated formation pipeline assembly 2 includes along the support stand 1
The pedestal 21 that length direction is slidably arranged in 1 top of support stand and the pipeline body that 21 top of pedestal is set
22, the different radioactivity gamma ray sources for thering is inside the pipeline body 22 scale to complete.
In the present embodiment, simulated formation pipeline assembly 2 includes being slidably arranged in supporting table along 1 length direction of support stand
The pedestal 21 on 1 top of frame and the pipeline body 22 that 21 top of pedestal is set, the difference for thering is scale to complete inside pipeline body 22
Radioactivity gamma ray source, provide gamma ray test source for tested gamma assembly.
Embodiment 3
As shown in figure 3, the tested gamma assembly 3 includes tested gamma drill collar 31, sets on the basis of embodiment 1 or 2
Set tested 31 left end of gamma drill collar left extension bar 32 and the right lengthening of tested 31 right end of gamma drill collar is set
Bar 33, and the free end of the left extension bar 32 is clamped on the main shaft power assembly 4, the free end of the right extension bar 33
It is clamped on the support tailstock assembly 5.
In the present embodiment, gamma assembly 3 is tested to include tested gamma drill collar 31, be arranged in tested 31 left end of gamma drill collar
Left extension bar 32 and the right extension bar 33 of tested 31 right end of gamma drill collar is set, and the free end of left extension bar 32 is clamped on
On main shaft power assembly 4, the free end of right extension bar 33 is clamped on support tailstock assembly 5, and being tested gamma assembly is aluminium alloy
Part or non-magnetic rustproof steel part can simulate underground true environment entirely, truer to orientation gamma drill collar test data.
Embodiment 4
As shown in figure 4, the main shaft power assembly 4 includes being arranged in the support on the basis of embodiment 1 or 2 or 3
The pedestal 41 of 1 upper left-hand of rack, is rotatably arranged on the spindle carrier at the spindle carrier 42 that 41 top of pedestal is arranged in
The spindle chuck 44 of the right part of main shaft 43, the setting main shaft 43 on 42 and setting are the main shaft on the pedestal 41
43 provide the power plant module of rotary power.
The power plant module includes rotary drive motor 45 and cycloidal pin speed reducer 46, and the cycloidal pin speed reducer 46 moves
It is driven between power output shaft and the main shaft 43 by gear pair 47.
In the present embodiment, main shaft power assembly 4 exists including the pedestal 41 of 1 upper left-hand of support stand is arranged in, is arranged
The master of the right part of the spindle carrier 42 on 41 top of pedestal, the main shaft 43 being rotatably arranged on spindle carrier 42, setting main shaft 43
Axis chuck 44 and it is arranged on pedestal 41 and provides the power plant module of rotary power for main shaft 43, wherein power plant module includes rotation
Driving motor 45 and cycloidal pin speed reducer 46 pass through gear pair 47 between the power output shaft and main shaft 43 of cycloidal pin speed reducer 46
Transmission can be fixed orientation gamma assembly by left extension bar, and provide rotation function for it, and rotary drilling process is simulated.
Embodiment 5
As shown in Figure 1, the support tailstock assembly 5 includes along the support on the basis of embodiment 1 or 2 or 3 or 4
1 length direction of rack is slidably arranged in the fixing seat 51 of 1 right upper portion of support stand, is arranged in the fixing seat 51
Bearing liner seat 52, the driven axle 53 being rotatably arranged in the bearing liner seat 52 by bearing, setting are left in the driven axle 53
The driven axle chuck 54 of end and the tailstock adjusting screw 55 that 51 tail portion of fixing seat is set.
The tailstock adjusting screw 55 is ball-screw component.
In the present embodiment, support tailstock assembly 5 includes being slidably arranged in support stand 1 along 1 length direction of support stand
The fixing seat 51 of right upper portion, is rotatably arranged on bearing liner seat 52 by bearing at the bearing liner seat 52 being arranged in fixing seat 51
Interior driven axle 53, the tailstock that the driven axle chuck 54 of 53 left part of driven axle is arranged in and 51 tail portion of fixing seat is arranged in are adjusted
Lead screw 55, tailstock adjusting screw 55 be ball-screw component, support tailstock assembly can constant bearing gamma assembly tail end, revolve therewith
Turn, keeps whole system operation more stable.The utility model uses the rotation of main shaft power assembly simulated-azimuth gamma drill collar, ball wire
Thick stick drive assembly simulated-azimuth gamma drilling, to simulate the true compound drilling situation of drilling well completely
Embodiment 6
On the basis of embodiment 1 or 2 or 3 or 4 or 5, the left end of the main shaft 43 in the main shaft power assembly 4 is provided with
For detecting the rotary transformer of its revolving speed and orientation, the rotary transformer is connect with computer can show turning for drill collar at any time
Speed and orientation.
In the present embodiment, the left end of the main shaft 43 in main shaft power assembly 4 is provided with for detecting its revolving speed and side
The rotary transformer of position, and rotary transformer connect the revolving speed and orientation that can show drill collar at any time with computer.
Embodiment 7
On the basis of embodiment 1 or 2 or 3 or 4 or 5 or 6, it is furnished with electric appliance in 5 right center of support tailstock assembly
Rotary connector simultaneously connects computer, can will rotate the signal that drill collar issues and be transmitted in computer.
In the present embodiment, it is furnished with electric appliance rotary connector in support 5 right center of tailstock assembly and connects computer, can incites somebody to action
The signal that rotation drill collar issues is transmitted in computer.
Embodiment 8
On the basis of embodiment 1 or 2 or 3 or 4 or 5 or 6 or 7, filled inside the pipeline body 22 be mud stone and
The gamma ray source of sandstone production.
In the present embodiment, what is filled inside pipeline body 22 is the gamma ray source of mud stone and sandstone production, can simulate well
Lower gamma ray source, analog signal are authentic and valid.
Embodiment 9
As shown in Figure 1, on the basis of embodiment 8,1 top of support stand and to be located at the simulated formation pipeline total
1 length direction of support stand sliding is provided with V-type bracket assembly 7 at 2 left and right sides position, the V-type bracket is total
Include the sliding seat 71 being slidably arranged on the support stand 1, the support rod 72 that is arranged on the sliding seat 71 at 7 and sets
The V-type supporting plate 73 in 72 upper end of support rod is set, a pair of of idler wheel is arranged in rotation on the V-type supporting plate 73.
In the present embodiment, on 1 top of support stand and positioned at the left and right sides position of simulated formation pipeline assembly 2 edge branch
Support 1 length direction of rack sliding is provided with V-type bracket assembly 7, and V-type bracket assembly 7 includes being slidably arranged in support stand 1
On sliding seat 71, the support rod 72 that is arranged on sliding seat 71 and the V-type supporting plate 73 that 72 upper end of support rod is set, V-type support
A pair of of idler wheel is arranged in rotation on plate 73, and V-type bracket assembly is the auxiliary support mechanism of gamma assembly, for guaranteeing that complete machine operation is flat
Surely.
When work, first tested gamma assembly is packed into simulated formation pipeline assembly, and by the left end of tested gamma assembly
It is fixedly mounted in the spindle chuck of main shaft power assembly, it is total that the right end end of tested gamma assembly is fixedly mounted on support tailstock
At driven axle chuck in, then by panel operation platform control main shaft power assembly rotary drive motor rotation and rack gear pass
The rack drives motor rotation of dynamic assembly, wherein the rotation of rotary drive motor drives the rotation of tested gamma assembly to simulate
Rotary drilling, and the rotation of rack drives motor passes through the relative motion of rack gear and master gear, and then realizes simulated formation pipeline
Transverse shifting of the assembly relative to tested gamma assembly, to simulate going down process, to realize simulation rotation and advance parallel
Compound drilling function;The left end of main shaft in main shaft power assembly is provided with the rotation transformation for detecting its revolving speed and orientation
Device, and rotary transformer connect the revolving speed and orientation that can show drill collar at any time with computer;Meanwhile on the right side of support tailstock assembly
It is furnished with electric appliance rotary connector in center and connects computer, can will rotates the signal that drill collar issues and be transmitted in computer.
It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used for solving in the present embodiment
It releases in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if this is specific
When posture changes, then directionality instruction also correspondingly changes correspondingly.
In addition, the description for being related to " first ", " second " etc. is used for description purposes only, it is not understood to indicate or imply
Its relative importance or the quantity for implicitly indicating indicated technical characteristic.The spy of " first ", " second " is defined as a result,
Sign can explicitly or implicitly include at least one of the features.
Technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy
It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution
Conjunction is not present, also not within the protection scope of the requires of the utility model.
Claims (10)
1. a kind of wireless drilling gamma-spectrometry unit test system, it is characterised in that: including support stand (1), the supporting table
One end of frame (1) is provided with main shaft power assembly (4), and the other end of the support stand (1) is provided with support tailstock assembly
(5), simulated formation pipeline assembly (2) slide and be horizontally set on the support stand (1) and be located at the main shaft power it is total
At between (4) and support tailstock assembly (5), tested gamma assembly (3) are threaded through in the simulated formation pipeline assembly (2) and it
Both ends are separately fixed on the main shaft power assembly (4) and support tailstock assembly (5), the simulated formation pipeline assembly (2)
Bottom is provided with rack-driving assembly (6);
The rack-driving assembly (6) includes setting in the rack gear (61) of simulated formation pipeline assembly (2) bottom and setting
In the internal rack drives motor (62) of the support stand (1), the output end and speed reducer of the rack drives motor (62)
(63) master gear (64) matched with the rack gear (61) is arranged in input terminal connection, the output end of the speed reducer (63).
2. a kind of wireless drilling gamma-spectrometry unit test system according to claim 1, it is characterised in that: the simulation
Stratum pipeline assembly (2) includes being slidably arranged in the pedestal (21) on the support stand (1) top and being arranged in the pedestal
(21) pipeline body (22) on top, the internal different radioactivity gamma ray sources for thering is scale to complete of the pipeline body (22).
3. a kind of wireless drilling gamma-spectrometry unit test system according to claim 1, it is characterised in that: described tested
Gamma assembly (3) includes being tested gamma drill collar (31), the left extension bar (32) in tested gamma drill collar (31) left end being arranged
Right extension bar (33) with setting in tested gamma drill collar (31) right end, and the free end clamping of the left extension bar (32)
On the main shaft power assembly (4), the free end of the right extension bar (33) is clamped on the support tailstock assembly (5).
4. a kind of wireless drilling gamma-spectrometry unit test system according to claim 1, it is characterised in that: the main shaft
Power assembly (4) include setting the support stand (1) upper left-hand pedestal (41), be arranged on the pedestal (41) top
Spindle carrier (42), be rotatably arranged on the spindle carrier (42) main shaft (43), the setting main shaft (43) right end
The spindle chuck (44) in portion and setting are that the main shaft (43) provide the power plant module of rotary power on the pedestal (41).
5. a kind of wireless drilling gamma-spectrometry unit test system according to claim 4, it is characterised in that: the power
Module includes rotary drive motor (45) and cycloidal pin speed reducer (46), the power output shaft of the cycloidal pin speed reducer (46) with
It is driven between the main shaft (43) by gear pair (47).
6. a kind of wireless drilling gamma-spectrometry unit test system according to claim 1, it is characterised in that: the support
Tailstock assembly (5) includes the fixing seat (51) for being slidably arranged in the support stand (1) right upper portion, is arranged in the fixing seat
(51) bearing liner seat (52) on, the driven axle (53) being rotatably arranged in the bearing liner seat (52) by bearing, setting exist
The tailstock adjusting screw of the driven axle chuck (54) of driven axle (53) left part and setting in the fixing seat (51) tail portion
(55).
7. a kind of wireless drilling gamma-spectrometry unit test system according to claim 6, it is characterised in that: the tailstock
Adjusting screw (55) is ball-screw component.
8. a kind of wireless drilling gamma-spectrometry unit test system according to any one of claims 1 to 7, feature exist
In: the left end of the main shaft (43) in the main shaft power assembly (4) is provided with the rotation transformation for detecting its revolving speed and orientation
Device, the rotary transformer connect the revolving speed and orientation that can show drill collar at any time with computer.
9. a kind of wireless drilling gamma-spectrometry unit test system according to any one of claims 1 to 7, feature exist
In: it is furnished with electric appliance rotary connector in support tailstock assembly (5) right center and connects computer, can will rotates what drill collar issued
Signal is transmitted in computer.
10. a kind of wireless drilling gamma-spectrometry unit test system according to claim 2, it is characterised in that: the pipe
What is filled inside road ontology (22) is the gamma ray source of mud stone and sandstone production.
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CN201920189991.0U CN209248034U (en) | 2019-02-11 | 2019-02-11 | A kind of wireless drilling gamma-spectrometry unit test system |
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CN201920189991.0U CN209248034U (en) | 2019-02-11 | 2019-02-11 | A kind of wireless drilling gamma-spectrometry unit test system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109669216A (en) * | 2019-02-11 | 2019-04-23 | 中国石油集团川庆钻探工程有限公司长庆钻井总公司 | A kind of wireless drilling gamma-spectrometry unit test system and application method |
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2019
- 2019-02-11 CN CN201920189991.0U patent/CN209248034U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109669216A (en) * | 2019-02-11 | 2019-04-23 | 中国石油集团川庆钻探工程有限公司长庆钻井总公司 | A kind of wireless drilling gamma-spectrometry unit test system and application method |
CN109669216B (en) * | 2019-02-11 | 2024-02-06 | 中国石油天然气集团有限公司 | Wireless while-drilling gamma measurement unit test system and use method |
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