CN117418778B - Petroleum geological survey drilling equipment - Google Patents

Abstract

The utility model discloses petroleum geological survey drilling equipment, which belongs to the technical field of petroleum survey drilling, and comprises a drilling device, wherein the drilling device comprises a bottom frame, a screw rod, a positioning cylinder I and a positioning cylinder II, the drilling device is used for drilling petroleum geology exploitation, the positioning device is arranged below the drilling device and comprises a positioning cylinder, the positioning device is used for fixing during drilling so as not to generate position deviation, and a moving device is arranged on the side edge of the positioning device and used for pushing the device to move. The positioning device provided by the utility model is used for carrying out accurate positioning treatment on the whole device, preventing the device from shaking up and down to separate from soil, then starting drilling, and starting the flow of internal lubricating oil of the drilling rod to the drilling end during drilling, so that the drilling efficiency is improved, the application range is wider, and the damage of rock to the device is reduced.

Description

Petroleum geological survey drilling equipment

Technical Field

The utility model relates to the technical field of petroleum exploration drilling, in particular to petroleum geological exploration drilling equipment.

Background

One of the main subjects of petroleum, geological exploration, is a viscous, dark brown liquid, known as "industrial blood". The upper part of the crust has petroleum storage. In the petroleum exploration process, the drilling machine is required to be used for carrying out deep drilling on the ground so as to carry out exploration on the ground, most of the existing drilling machines are large-scale drilling machine equipment, the equipment operation cost is high, the operation is complex, the small-area operation range cannot be used, and the practicability is low. The Chinese patent with publication number of CN215927261U discloses a petroleum engineering oil extraction geological survey punching device, which is characterized in that a screw rod I is arranged in a driving chute of a motor, the screw rod I is in threaded connection with a vertical rod of a U-shaped rod, a cross rod of the U-shaped rod is fixedly connected with a punching mechanism to start drilling, the prior art is low in accurate positioning degree of unavoidable position deviation in the punching process, and a drill bit is damaged when a hard object is encountered during drilling, so that the use is influenced.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: petroleum geological survey drilling equipment, including drilling equipment, its characterized in that: drilling equipment include chassis, lead screw, positioning cylinder I and positioning cylinder II fixed mounting are on the chassis, rotate on the chassis and install the lead screw, drilling equipment with the exploitation to petroleum geology bore, drilling equipment below be provided with positioner, positioner include positioning cylinder, the bottom four corners of chassis fixed mounting has positioning cylinder respectively, positioner be used for the fixed in order to avoid taking place the offset when drilling, positioner's side be provided with mobile device, mobile device include the third motor, third motor fixed mounting is in the chassis bottom, mobile device be used for thrust unit to remove.

The device is placed at the position where drilling is needed, the whole is reinforced through the positioning device, the conditions of vertical shaking and the like in the drilling process are prevented, and the petroleum geology is surveyed through the drilling device after the positioning device is fixed at the position.

Further, drilling equipment include fixed mounting location cylinder I and location cylinder II on the chassis, lead screw rotation is installed on the chassis, the top fixed mounting of location cylinder I and location cylinder II has the diaphragm, is provided with first motor on the diaphragm, is provided with the sliding plate under the diaphragm, the edge fixed mounting of sliding plate has the mount, the top layer fixed mounting of mount has the second motor, the below rotation connection pivot of second motor sets up in the pivot and installs the rotation gear, the intermediate level rotation of mount installs the location circle, the inner circle fixed mounting of location circle has the drilling pole, the outer lane of drilling pole is provided with the drilling pitch, the top fixed mounting of drilling pole has spacing round bar fixed block, the inside of spacing round bar fixed block is provided with the spring, the edge slidable mounting of spacing round bar fixed block has the lug, the inside fixed mounting of drilling pole has spacing lug I and spacing lug II, the place ahead fixed mounting of second motor has reset spring, reset spring's top is provided with the drilling interior pole, the fixed mounting of the centre of drilling interior pole has spacing round bar, the circular arc fixed mounting of the bottom of drilling interior pole has spacing round bar.

Further, the bottom fixed mounting of lead screw has the fixed plate, is provided with clean gear directly over the fixed plate, the bottom rotation of chassis is installed clean gear wheel, and the below fixed mounting of clean gear wheel has a plurality of clean blades.

Further, positioner still include damping spring and spacing recess of fixed mounting at the chassis top layer, fixed mounting has locating pin II on the damping spring, the inside fixed mounting of locating cylinder has a plurality of locating springs, the inner circle of locating spring is provided with the reinforcement locating pin, the edge fixed mounting of locating pin II has the locating pin connecting plate, the other end fixed mounting of locating pin connecting plate is at the edge of locating pin I, the bottom fixed mounting of locating pin connecting plate has fixed lug, the inside of spacing recess is provided with a plurality of clamping springs, the front end of clamping spring is provided with centre gripping circular arc I, the next door of centre gripping circular arc I is provided with centre gripping circular arc II, spacing recess top fixed mounting has spacing recess enclosing cover, fixed mounting has the link on the locating pin connecting plate, the side fixed mounting of link has the clamp plate, fixed mounting has a plurality of clamp springs under the clamp plate, fixed mounting has push rod on the chassis, side fixed mounting of push rod has upper support plate and lower backup pad, fixed mounting has a plurality of stands on the backup pad.

Further, the mobile device includes still including fixed mounting in the last mount of chassis bottom, and the avris of going up the mount rotates and installs mount connecting rod I, and mount connecting rod II is installed in the avris rotation of mount connecting rod I, and the one end rotation of mount connecting rod II is installed on last mount, and the other end fixed mounting of mount connecting rod II is provided with a plurality of wheel mounts on the lower mount, and the inside rotation of wheel mount installs the wheel.

Compared with the prior art, the utility model has the beneficial effects that: (1) The positioning device provided by the utility model can strengthen the overall stability of the device, and can transversely push the reinforcing positioning pin while downwards embedding the positioning pin into soil, so that the device is prevented from shaking up and down in the drilling process, the stability is high, and meanwhile, the damping effect is achieved; (2) The drilling device provided by the utility model can prolong the service life of the device, lubricating oil and the like are filled in the cavity of the drilling rod, and when the drilling device works, the drilling rod is pressed and rotated to enable liquid in the cavity to flow out along with the small hole, and after the drilling device is completed, the upward pulling drill Kong Nagan is rotated in the opposite direction to stop the liquid from flowing out, so that the cost is saved, and the drilling efficiency is improved; (3) The moving device provided by the utility model can push the device to move at will, and the connecting rod of the telescopic fixed frame is convenient and fast to carry out the subsequent flow.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic structural diagram of a positioning device according to the present utility model.

Fig. 3 is an enlarged schematic view of a partial structure of fig. 2 a.

Fig. 4 is a schematic structural diagram of a positioning device according to the present utility model.

Fig. 5 is a schematic structural view of a drilling device according to the present utility model.

Fig. 6 is a schematic structural diagram of a drilling device according to the present utility model.

Fig. 7 is a schematic view of the internal structure of the drilling rod according to the present utility model.

Fig. 8 is a schematic cross-sectional view of a drill rod of the present utility model.

Fig. 9 is a schematic diagram of a mobile device according to the present utility model.

Reference numerals: 101-a chassis; 102-pushing rod; 103-upper support plate; 104-a lower support plate; 105-upright posts; 106-pressing the spring; 107-connecting frames; 108-locating pins I; 109-dowel connection plate; 110-locating pin II; 111-a damping spring; 112-positioning a cylinder; 113-reinforcing the locating pin; 114-positioning a spring; 115-fixing the bump; 116-pressing plate; 201-limit grooves; 202-limiting groove outer cover; 203-clamping a spring; 204-clamping an arc I; 205-clamping an arc II; 301-a lead screw; 302-positioning a cylinder I; 303-positioning a cylinder II; 304-a cross plate; 305-sliding plate; 306-a first motor; 307-a fixing frame; 308-a second motor; 309-a spindle; 310-drilling an inner rod; 311-limiting round bars; 312-drilling a hole bar; 313-return spring; 314-positioning a circle; 315-limiting round rod fixing blocks; 316-spring; 317-bump; 318-limit bump I; 319-limit bump II; 320-cleaning the gear; 321-cleaning a large gear; 322-cleaning the blade; 323 drilling pitch; 324-turning a gear; 325-fixing plate; 326-limiting and fixing the arc; 401-a third motor; 402-upper fixing frame; 403-fixing frame connecting rod I; 404-fixing frame connecting rod II; 405-lower fixing frame; 406-a wheel mount; 407-wheels.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

Examples: 1-9, a petroleum geology surveys drilling equipment, including drilling equipment, extrusion device includes chassis 101, lead screw 301, positioning cylinder I302 and positioning cylinder II 303 fixed mounting are on chassis 101, and the lead screw 301 is installed in the rotation on the chassis 101, drilling equipment use the exploitation to petroleum geology to bore, drilling equipment below be provided with positioner, positioner include positioning cylinder 112, the bottom four corners of chassis 101 fixed mounting has positioning cylinder 112 respectively, positioner be used for the fixed in order to avoid taking place the offset when drilling, positioner's side be provided with mobile device, mobile device include third motor 401, third motor 401 fixed mounting is in chassis 101 bottom, mobile device be used for thrust unit to remove.

The device is placed at the position where drilling is needed, the whole is reinforced through the positioning device, the conditions of vertical shaking and the like in the drilling process are prevented, and the petroleum geology is surveyed through the drilling device after the positioning device is fixed at the position.

As shown in fig. 1-9, the drilling device comprises a positioning cylinder i 302 and a positioning cylinder ii 303 which are fixedly installed on a chassis 101, a screw 301 is rotatably installed on the chassis 101, a transverse plate 304 is fixedly installed at the top ends of the positioning cylinder i 302 and the positioning cylinder ii 303, a first motor 306 is arranged on the transverse plate 304, a sliding plate 305 is arranged under the transverse plate 304, the first motor 306 drives the screw 301 to rotate, the screw 301 rotates to drive the sliding plate 305 to slide downwards, a fixing frame 307 is fixedly installed on the side edge of the sliding plate 305, a second motor 308 is fixedly installed on the upper surface layer of the fixing frame 307, a rotating shaft 309 is driven to rotate by the second motor 308, a rotating gear 324 is driven to rotate by the rotating shaft 309, and a drilling tooth distance 323 is driven to rotate by the rotating gear 324, so that the purpose of automatic drilling is achieved.

The middle layer of mount 307 rotates and installs location circle 314, the inner circle fixed mounting of location circle 314 has drilling pole 312, the inside of drilling pole 312 is hollow, the outer lane of drilling pole 312 is provided with drilling pitch 323, the top fixed mounting of drilling pole 312 has spacing round bar fixed block 315, the upper surface layer fixed mounting of mount 307 has reset spring 313, the inner circle of reset spring 313 is provided with drilling inner rod 310, make spacing round bar 311 rotate to lug 317 entrance through forward rotation pressing drilling inner rod 310, continue to rotate spacing round bar 311 and make lug 317 move to both sides, thereby make spacing round bar 311 position in spacing round bar fixed block 315 inside, drilling inner rod 310 is spacing fixed circular arc 326 rotates in the forward rotation, when spacing fixed circular arc 326 rotates to with spacing lug II 319 agree with, drilling inner rod 310 presses down, make spacing fixed circular arc 326 and 319 form a complete circle, when drilling device needs lubrication at this moment, rotate drilling inner rod 310 in the reverse direction, reset spring 313 returns to the normal, simultaneously spacing fixed circular arc 326 goes up to initial position, continue to take out lubricating device's life through the inside of drilling pole 312 to the delivery end oil, the life of lubricating device is got back to the inside of hole, the life-span of the device is improved.

As shown in fig. 1-9, the first motor 306 drives 301 to rotate, and drives the cleaning gear 320 to rotate, so that the cleaning gear 320 rotates to rotate the cleaning gear 321, and a plurality of cleaning blades 322 are fixedly installed below the cleaning gear 321, so that the cleaning blades 322 can prevent soil and the like on geological surfaces from falling into the holes in the drilling process, and the drilling speed and effect are affected.

As shown in fig. 1-4, the push rod 102 is fixedly installed on the chassis 101, the upper supporting plate 103 and the lower supporting plate 104 are fixedly installed on the side edge of the push rod 102, the plurality of upright posts 105 are fixedly installed on the lower supporting plate 104, the pressing springs 106 are arranged outside the upright posts 105, the pressing plates 116 are arranged above the pressing springs 106, the connecting frame 107 is fixedly installed on the side edge of the pressing plates 116, the other end of the connecting frame 107 is fixedly installed on the locating pin connecting plate 109, one end of the locating pin connecting plate 109 is fixedly installed on the edge of the locating pin ii 110, the other end of the locating pin connecting plate 109 is fixedly installed on the edge of the locating pin i 108, the bottom end of the locating pin connecting plate 109 is fixedly installed with the fixing lug 115, the locating pin connecting plate 109 is moved downwards by pressing the pressing plates 116, the locating pin connecting plate 109 is moved downwards to push the clamping arc i 204 and the clamping arc ii 205, so that the lug 115 is clamped and fixed by the clamping arc i 204, the locating pin ii 110 is driven to extend downwards while the locating pin ii 110 extends downwards, the locating pin ii 110 extends downwards to transversely extend the locating pin 113 into soil, and the shaking and vibration of the soil is prevented when the locating pin connecting plate 109 is stably moved downwards.

As shown in fig. 9, the moving device further includes an upper fixing frame 402 fixedly installed at the bottom of the chassis 101, a fixing frame connecting rod i 403 is rotatably installed at the side of the upper fixing frame 402, a fixing frame connecting rod ii 404 is rotatably installed at the side of the fixing frame connecting rod i 403, one end of the fixing frame connecting rod ii 404 is rotatably installed on the upper fixing frame 402, the other end of the fixing frame connecting rod ii 404 is fixedly installed on a lower fixing frame 405, a plurality of wheel fixing frames 406 are provided on the lower fixing frame 405, and wheels 407 are rotatably installed inside the wheel fixing frames 406. The third motor 401 drives the fixed frame connecting rod I403 and the fixed frame connecting rod II 404 to open and close at the same frequency, and when the device is moved to a designated position, the fixed frame connecting rod I403 and the fixed frame connecting rod II 404 start to fold upwards and retract, so that follow-up work is conveniently carried out.

The utility model discloses a petroleum geological investigation drilling device, which comprises the following working principles: the third motor 401 drives the fixed frame connecting rod I403 and the fixed frame connecting rod II 404 to open so as to enable the wheels 407 to contact the ground surface, the push rod 102 is pushed to enable the device to move to a designated position for standby, at the moment, the third motor 401 drives the fixed frame connecting rod I403 and the fixed frame connecting rod II 404 to fold upwards for recovery again so as to enable the wheels 407 to be far away from the bottom surface, the bottom end of the positioning cylinder 112 contacts with the bottom surface, then the positioning pin connecting plate 109 is downwards moved by pressing the pressing plate 116, and simultaneously the fixing lug 115 pushes the clamping circular arc I204 and the clamping circular arc II 205, the fixing lug 115 reaches a clamped state, at the moment, the positioning pin II 110 downwards extends, the positioning pin II 110 transversely extends to the soil while the positioning pin 113 is extruded to be reinforced, after the device positioning is completed, the first motor 306 is enabled to drive the screw 301 to rotate forwards so as to drive the cleaning gear 320 at the bottom of the screw 301 to rotate, and the cleaning gear 320 drives the cleaning gear 321 to rotate, the screw 301 rotates forward to drive the sliding plate 305 to move downwards, the sliding plate 305 rotates and simultaneously drives the second motor 308 to rotate forward, the second motor 308 rotates to drive the rotating shaft 309 to rotate, the rotating gear 324 rotates, the rotating gear 324 drives the drilling pitch 323 to rotate, the drilling pitch 323 is fixed on the drilling rod 312, the drilling rod 312 rotates, the inside of the drilling rod 312 is hollow, lubricating oil or water is filled in the cavity of the drilling rod 312, the lubricating oil in the cavity flows into the working end along with the small hole in the drilling rod 312 in the drilling process, so that a hard object damage device is avoided in the high-speed rotating process, the drilling inner rod 310 is pressed in a rotating manner after the drilling is completed, the limit round rod 311 pushes the protruding blocks 317 at the upper end and the lower end of the limit round rod fixing block 315, the limit round rod 311 is fixed in the limit round rod fixing block 315, then the limit fixing circular arc 326 is completely matched with the limit protruding block II 319, a disc is formed to prevent the continuous loss of lubricating oil, and when drilling is completed, the rotating gear 324 stops working, the first motor 306 drives the screw 301 to rotate reversely, so that the sliding plate 305 returns upwards to the initial position, and the drilling work is completed.

Claims (3)

1. Petroleum geological survey drilling equipment, including drilling equipment, its characterized in that: the drilling device comprises a bottom frame (101), a lead screw (301), a positioning cylinder I (302) and a positioning cylinder II (303), wherein the positioning cylinder I (302) and the positioning cylinder II (303) are fixedly arranged on the bottom frame (101), the lead screw (301) is rotatably arranged on the bottom frame (101), the drilling device is used for drilling petroleum geology exploitation, the positioning device is arranged below the drilling device and comprises the positioning cylinder (112), the positioning cylinders (112) are respectively and fixedly arranged at four corners of the bottom frame (101), the positioning device is used for fixing during drilling so as not to generate position offset, a moving device is arranged on the side edge of the positioning device and comprises a third motor (401), the third motor (401) is fixedly arranged at the bottom of the bottom frame (101), and the moving device is used for pushing the device to move;

the drilling device comprises a transverse plate (304) fixedly arranged at the top ends of a positioning cylinder I (302) and a positioning cylinder II (303), a first motor (306) is arranged on the transverse plate (304), a sliding plate (305) is arranged right below the transverse plate (304), a fixing frame (307) is fixedly arranged at the edge of the sliding plate (305), a second motor (308) is fixedly arranged on the upper surface layer of the fixing frame (307), a rotating shaft (309) is connected to the lower side of the second motor (308) in a rotating manner, a rotating gear (324) is arranged on the rotating shaft (309), a positioning circle (314) is rotatably arranged in the middle layer of the fixing frame (307), a drilling rod (312) is fixedly arranged at the inner ring of the positioning circle (314), a drilling tooth pitch (323) is arranged on the outer ring of the drilling rod (312), a limit round rod fixing block (315) is fixedly arranged at the top end of the drilling rod (312), a spring (316) is arranged in the limit round rod fixing block (315), a bump (317) is slidably arranged at the edge of the limit round rod fixing block (315), a limit bump (318) is fixedly arranged in the inner side of the drilling rod fixing block (312), a limit bump (318) is fixedly arranged in the motor I (319) and a limit bump (319) is rotatably arranged on the inner side of the fixing rod (312), a reset spring (313) is fixedly arranged in front of the second drilling rod (313), a limiting round rod (311) is fixedly arranged in the middle of the drilling inner rod (310), and a limiting fixed arc (326) is fixedly arranged at the bottom end of the drilling inner rod (310);

the positioning device also comprises a damping spring (111) and a limiting groove (201) which are fixedly arranged on the surface layer of the underframe (101), a positioning pin II (110) is fixedly arranged on the damping spring (111), a plurality of positioning springs (114) are fixedly arranged beside the positioning cylinder (112), a reinforcing positioning pin (113) is arranged on the inner ring of the positioning spring (114), a positioning pin connecting plate (109) is fixedly arranged on the edge of the positioning pin II (110), the other end of the positioning pin connecting plate (109) is fixedly arranged on the edge of the positioning pin I (108), a fixing lug (115) is fixedly arranged at the bottom end of the positioning pin connecting plate (109), a plurality of clamping springs (203) are arranged in the limiting groove (201), a clamping arc I (204) is arranged at the front end of the clamping spring (203), a clamping arc II (205) is arranged beside the clamping arc I (204), a limiting groove (202) is fixedly arranged at the top of the limiting groove (201), a connecting frame (107) is fixedly arranged on the positioning pin connecting plate (109), a pressing plate (116) is fixedly arranged on the side edge of the connecting plate (107), a plurality of pushing rods (116) are fixedly arranged under the pressing plates (116), an upper supporting plate (103) and a lower supporting plate (104) are fixedly arranged on the side edge of the push rod (102), and a plurality of upright posts (105) are fixedly arranged on the lower supporting plate (104).

2. A petroleum geological survey drilling rig according to claim 1, wherein: the bottom fixed mounting of lead screw (301) has fixed plate (325), is provided with clean gear (320) directly over fixed plate (325), clean gear wheel (321) are installed in the bottom rotation of chassis (101), and a plurality of clean blades (322) are installed to the below fixed mounting of clean gear wheel (321).

3. A petroleum geological survey drilling rig according to claim 1, wherein: the mobile device is including installing last mount (402) in chassis (101) bottom, and mount connecting rod I (403) are installed in the avris rotation of going up mount (402), and mount connecting rod II (404) are installed in the avris rotation of mount connecting rod I (403), and one end rotation of mount connecting rod II (404) is installed on last mount (402), and the other end fixed mounting of mount connecting rod II (404) is on lower mount (405), is provided with a plurality of wheel mounts (406) on lower mount (405), and wheel (407) are installed in the inside rotation of wheel mount (406).