CN114082364B - Automatic filling system of drilling fluid medicine - Google Patents

Abstract

The invention discloses an automatic filling system for drilling fluid medicines, which relates to the technical field of drilling fluid treating agent addition and comprises a solid bag conveying assembly, a medicine packaging and dismantling assembly and a medicine proportioning assembly; the solid bag conveying assembly is used for conveying the solid treating agent, the medicine packaging dismantling assembly is used for pouring out the solid treating agent and recycling the packaging bag, and the medicine proportioning assembly is used for mixing the solid treating agent and flexibly adjusting the outlet position.

Description

Automatic filling system of drilling fluid medicine

Technical Field

The invention relates to the technical field of drilling fluid additive addition, in particular to an automatic filling system for drilling fluid medicines.

Background

In the prior art, a drilling fluid medicament treating agent refers to a chemical agent used in the process of preparing and treating a drilling fluid. The drilling fluid mainly comprises a solid phase and a liquid phase, the solid treating agent is bagged powder particles, the preparation process can be summarized as the process of uniformly adding the solid into the liquid, at present, a manual method is mainly adopted, the solid slurry preparation material and the treating agent are respectively added into the liquid, the method has high labor intensity and low efficiency, and the generated dust has great harm to the health of workers. When the drilling fluid is prepared and adjusted traditionally, the additive treating agent is mainly added manually. In order to solve the problem of manual addition of the treating agent, an automatic adding device for the drilling fluid treating agent is needed. The prior automatic treating agent adding device can not completely pour out the treating agent in the treating agent packaging bag.

Chinese patent publication No. CN111535763A discloses an automatic adding device and method for drilling fluid treatment agent, which can realize complete pouring and screening of treatment agent, but still needs manual treatment of packaging bags, and has a problem of poor applicability because the discharge port cannot be adjusted after the liquid and solid are proportioned.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides an automatic filling system of drilling fluid medicine, includes that the medicine packing demolishs subassembly, medicine ratio subassembly, and medicine ratio subassembly fixed mounting is on the subassembly is demolishd to the medicine packing, and the subassembly is demolishd to the medicine packing includes the support ring.

The medicine proportioning component comprises a proportioning component box body, the proportioning component box body is fixedly arranged on a support ring, a cylinder seat is fixedly arranged on the proportioning component box body, a liquid treating agent barrel is fixedly arranged on the support ring, a water pump is fixedly arranged on the liquid treating agent barrel, a water pump is fixedly arranged on the water barrel, a motor moving cylinder is fixedly arranged on the water pump, a proportioning motor is fixedly arranged on a telescopic rod of the motor moving cylinder, a central bevel gear is fixedly arranged on an output shaft of the proportioning motor, a bevel gear shaft seat I is fixedly arranged on the proportioning component box body, a stirring bevel gear is rotatably arranged on the bevel gear shaft seat I, the central bevel gear is in gear fit with the stirring bevel gear, and a small gear is fixedly arranged on the stirring bevel gear; the liquid outflow barrel is fixedly installed on the proportioning component box body, the central stirring shaft is rotatably installed on the liquid outflow barrel, the upper end face gear is fixedly installed on the central stirring shaft, and the upper end face gear and the pinion form gear fit.

A bevel gear shaft seat II is fixedly installed on the proportioning component box body, a rotating bevel gear I is rotatably installed on the bevel gear shaft seat II, the rotating bevel gear I and a central bevel gear form gear fit, a rotating bevel gear II is fixedly installed on the rotating bevel gear I, a transmission shaft seat is fixedly installed on the proportioning component box body, a transmission bevel gear I is rotatably installed on the transmission shaft seat and forms gear fit with the rotating bevel gear II, a transmission bevel gear II is fixedly installed on the transmission bevel gear I, an electric heating rod sliding rod is fixedly installed on the proportioning component box body, a transmission bevel gear III is rotatably installed on the electric heating rod sliding rod and forms gear fit with the transmission bevel gear II, a lower gear is fixedly installed on the transmission bevel gear III, an outer ring support is rotatably installed on the proportioning component box body, a discharging pipe is fixedly installed on the outer ring support, and a lower end face gear is fixedly installed on the discharging pipe, the lower face gear and the lower gear form gear fit.

Further, the solid bag conveying assembly is further included.

Further, solid bag conveying component includes the conveying component lower carriage, fixed mounting has the conveying component upper bracket on the conveying component lower carriage, fixed mounting has conveying motor on the conveying component upper bracket, fixed mounting has conveying gear I on conveying motor's the output shaft, rotate on the conveying component upper bracket and install the transport axle, fixed mounting has conveying gear II on the transport axle, conveying gear II forms gear fit with conveying gear I, fixed mounting has conveying gear III on the transport axle, fixed mounting has the feed bar on the conveying component lower carriage, rotate on the conveying component lower carriage and install the lead screw, fixed mounting has conveying gear IV on the lead screw, conveying gear IV forms gear fit with conveying gear III, slidable mounting has the delivery board on the feed bar, the delivery board forms screw-thread fit with the lead screw.

Further, a conveying cylinder is fixedly mounted on the upper support of the conveying assembly, and a conveying push plate is fixedly mounted on a telescopic rod of the conveying cylinder.

Further, the support ring is fixedly connected with the lower support of the conveying assembly, a supporting bottom column for supporting is fixedly mounted on the support ring, a component shell is disassembled by fixed mounting on the support ring, a gear set shell is fixedly mounted on the component shell, a motor is disassembled by fixed mounting on the gear set shell, a gear I is disassembled by fixed mounting on an output shaft of the motor, an upper cam shaft is rotatably mounted on the support ring, a gear II is disassembled by fixed mounting on the upper cam shaft, the gear II is disassembled and forms gear fit with the gear I, an upper cam shaft gear is rotatably mounted on the support ring, the upper cam shaft gear forms gear fit with the gear II, an upper cam is fixedly mounted on the upper cam shaft, a vibrating shaft is slidably mounted on the support ring, the lower end face of the vibrating shaft is contacted with the upper cam, and a bag breaking cone is fixedly mounted on the vibrating shaft.

Further, a lower cam shaft gear is rotatably mounted on the support ring, a lower cam is fixedly mounted on the lower cam shaft gear, the lower cam shaft gear forms gear fit with the dismounting gear II, a sieve is slidably mounted on the dismounting assembly shell, the lower surface of the sieve is in contact with the lower cam, a connecting plate is fixedly mounted on the support ring, a transfer port is fixedly mounted on the connecting plate, a waste box is fixedly mounted on the support ring, an end face gear is fixedly mounted on the dismounting gear I, a shaft seat is fixedly mounted on the support ring, a small bevel gear is rotatably mounted on the shaft seat and forms gear fit with the end face gear, and an input bevel gear I is fixedly mounted on the small bevel gear; fixed mounting has cylinder on the case on the abandonment case, fixed mounting has the case top shoe on the telescopic link of cylinder on the case, case top shoe slidable mounting is on demolising the subassembly shell, rotate on the case top shoe and install fixed rotating shaft, fixed mounting has output bevel gear I on the fixed rotating shaft, output bevel gear I forms the gear cooperation with input bevel gear I, fixed mounting has broken bag hook on the fixed rotating shaft, fixed mounting has micro motor on the abandonment case, fixed mounting has the bag rod of getting on micro motor's the output shaft.

Furthermore, a cylinder shaft is slidably mounted on the central stirring shaft, a lifting cylinder is fixedly mounted on the proportioning component box body, the cylinder shaft is fixedly connected with a telescopic rod of the lifting cylinder, and a barrier plate is fixedly mounted on the cylinder shaft.

Furthermore, a movable stirring rod is rotatably arranged on the central stirring shaft.

Compared with the prior art, the invention has the beneficial effects that: (1) the medicine proportioning component can ensure that the treating agent in the treating agent packaging bag can be completely poured out; (2) the medicine package dismantling assembly can automatically process the package, so that manual processing is avoided; (3) the medicine proportioning component can adjust the discharge hole, and has wide applicability.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of the solid bag transfer assembly of the present invention.

FIG. 3 is an external view of the pharmaceutical package removal assembly of the present invention.

Fig. 4 is a schematic view of the interior of the pharmaceutical package removal assembly of the present invention.

FIG. 5 is a partial schematic view of the pharmaceutical package removal assembly of the present invention.

FIG. 6 is an external view of the drug proportioning device of the present invention.

FIG. 7 is a schematic view of the interior of the drug proportioning device of the present invention.

FIG. 8 is a schematic view of a movable stirring rod of the medicine proportioning component of the present invention.

Reference numerals: 1-a solid bag transfer assembly; 2-medicine package dismantling assembly; 3-a drug proportioning component; 101-a lower carriage of the conveying assembly; 102-a transport assembly upper rack; 103-a conveying motor; 104-conveying gear I; 105-a conveying gear ii; 106-a delivery shaft; 107-conveying gear III; 108-a delivery gear IV; 109-a lead screw; 110-a light bar; 111-a transport plate; 112-a delivery cylinder; 113-a delivery push plate; 201-support ring; 202-supporting a bottom pillar; 203-removing the assembly housing; 204-gear set housing; 205-dismantling the motor; 206-removing the gear I; 207-removing the gear II; 208-upper cam shaft gear; 209-upper camshaft shaft; 210-an upper cam; 211-vibration axis; 212-bag breaking cone; 213-lower cam shaft gear; 214-lower cam; 215-sieve; 216-connecting plate; 217-a transfer port; 218-a discard bin; 219-face gear; 220-bevel pinion; 221-shaft seat; 222-input bevel gear i; 223-output bevel gear I; 224-fixed rotating shaft; 225-box upper slide block; 226-tank upper cylinder; 227-bag breaking hook; 228-a micro-motor; 229-bag-taking stick; 301-proportioning component box; 302-a cylinder block; 303-a liquid treatment agent bucket; 304-a bucket; 305-a water pump; 306-a motor moving cylinder; 307-proportioning motor; 308-center bevel gear; 309-bevel gear shaft seat I; 310-a stirring bevel gear; 311-pinion gear; 312-upper face gear; 313-liquid outflow drum; 314-central stirring shaft; 315-cylinder axis; 316-lifting cylinder; 317-barrier plate; 318-rotating bevel gear I; 319-bevel gear shaft seat II; 320-rotating bevel gear II; 321-transfer bevel gear I; 322-transfer shaft seat; 323-transfer bevel gear II; 324-transfer bevel gear iii; 325-an electric heating rod sliding bar; 326-lower gear; 327-lower face gear; 328-a discharge pipe; 329-outer ring support; 330-movable stirring rod.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1-8, the automatic filling system for drilling fluid medicines comprises a solid bag conveying component 1, a medicine package removing component 2 and a medicine proportioning component 3, wherein the solid bag conveying component 1 and the medicine package removing component 2 are fixedly connected, and the medicine proportioning component 3 is fixedly installed on the medicine package removing component 2.

The solid bag conveying assembly 1 comprises a conveying assembly lower support 101, a conveying assembly upper support 102 is fixedly mounted on the conveying assembly lower support 101, a conveying motor 103 is fixedly mounted on the conveying assembly upper support 102, a conveying gear I104 is fixedly mounted on an output shaft of the conveying motor 103, a conveying shaft 106 is rotatably mounted on the conveying assembly upper support 102, a conveying gear II 105 is fixedly mounted on the conveying shaft 106, the conveying gear II 105 is in gear fit with the conveying gear I104, a conveying gear III 107 is fixedly mounted on the conveying shaft 106, a feed bar 110 is fixedly mounted on the conveying assembly lower support 101, a lead screw 109 is rotatably mounted on the conveying assembly lower support 101, a conveying gear 108 IV is fixedly mounted on the lead screw 109, the conveying gear IV 108 is in gear fit with the conveying gear III 107, a conveying plate 111 is slidably mounted on the feed bar 110, and the conveying plate 111 is in thread fit with the lead screw 109. The conveying motor 103 is started to drive the conveying gear I104 to rotate, the conveying gear I104 rotates to drive the conveying gear II 105 to rotate, the conveying gear II 105 rotates to drive the conveying shaft 106 to rotate, the conveying shaft 106 rotates to drive the conveying gear III 107 to rotate, the conveying gear III 107 rotates to drive the conveying gear IV 108 to rotate, the conveying gear IV 108 rotates to drive the screw rod 109 to rotate, and the screw rod 109 rotates to drive the conveying plate 111 to slide on the polished rod 110; the bagged treatment agent is placed on the conveying plate 111, and the conveying plate 111 ascends along with the bagged treatment agent.

The upper bracket 102 of the conveying component is fixedly provided with a conveying cylinder 112, and the telescopic rod of the conveying cylinder 112 is fixedly provided with a conveying push plate 113. The conveying cylinder 112 is started to drive the conveying push plate 113 to do reciprocating linear motion; the conveying pushing plate 113 is pushed by the conveying cylinder 112, and the bagged treating agent on the conveying plate 111 is pushed into the medicine package removing assembly 2.

The medicine package dismantling assembly 2 comprises a support ring 201, the support ring 201 is fixedly connected with a lower support 101 of a conveying assembly, a support bottom column 202 playing a supporting role is fixedly installed on the support ring 201, a dismantling assembly shell 203 is fixedly installed on the support ring 201, a gear set shell 204 is fixedly installed on the dismantling assembly shell 203, a dismantling motor 205 is fixedly installed on the gear set shell 204, a dismantling gear I206 is fixedly installed on an output shaft of the dismantling motor 205, an upper cam shaft 209 is rotatably installed on the support ring 201, a dismantling gear II 207 is fixedly installed on the upper cam shaft 209, the dismantling gear II 207 forms gear fit with the dismantling gear I206, an upper cam shaft gear 208 is rotatably installed on the support ring 201, the upper cam shaft gear 208 forms gear fit with the dismantling gear II 207, an upper cam 210 is fixedly installed on the upper cam shaft 209, and a vibration shaft 211 is slidably installed on the support ring 201, the lower end surface of the vibration shaft 211 is contacted with the upper cam 210, and the bag breaking cone 212 is fixedly arranged on the vibration shaft 211. The dismantling motor 205 is started to drive the dismantling gear I206 to rotate, the dismantling gear I206 rotates to drive the dismantling gear II 207 to rotate, the dismantling gear II 207 rotates to drive the upper cam shaft gear 208 to rotate, the dismantling gear II 207 rotates to drive the upper cam shaft 209 to rotate, the upper cam shaft 209 rotates to drive the upper cam 210 to rotate, the upper cam 210 rotates to drive the vibration shaft 211 to slide up and down in a reciprocating mode, and the vibration shaft 211 moves up and down to drive the bag breaking cone 212 to move up and down in a reciprocating mode; the bagged treatment agent enters the medicine package dismantling assembly 2, falls on the bag breaking cone 212 under the action of gravity, the bag breaking cone 212 reciprocates up and down to break the bag, and the treatment agent is poured into the dismantling assembly shell 203.

A lower cam shaft gear 213 is rotatably mounted on the support ring 201, a lower cam 214 is fixedly mounted on the lower cam shaft gear 213, the lower cam shaft gear 213 and a dismounting gear II 207 form a gear fit, a screen 215 is slidably mounted on the dismounting assembly shell 203, the lower surface of the screen 215 is in contact with the lower cam 214, a connecting plate 216 is fixedly mounted on the support ring 201, an adapter port 217 is fixedly mounted on the connecting plate 216, a waste box 218 is fixedly mounted on the support ring 201, an end face gear 219 is fixedly mounted on the dismounting gear I206, a shaft seat 221 is fixedly mounted on the support ring 201, a small bevel gear 220 is rotatably mounted on the shaft seat 221, the small bevel gear 220 and the end face gear 219 form a gear fit, and an input bevel gear I222 is fixedly mounted on the small bevel gear 220; an on-tank cylinder 226 is fixedly mounted on the waste tank 218, an on-tank sliding block 225 is fixedly mounted on a telescopic rod of the on-tank cylinder 226, the on-tank sliding block 225 is slidably mounted on the detachable component shell 203, a fixed rotating shaft 224 is rotatably mounted on the on-tank sliding block 225, an output bevel gear I223 is fixedly mounted on the fixed rotating shaft 224, the output bevel gear I223 and the input bevel gear I222 form a gear fit, a bag breaking hook 227 is fixedly mounted on the fixed rotating shaft 224, a micro motor 228 is fixedly mounted on the waste tank 218, and a bag taking rod 229 is fixedly mounted on an output shaft of the micro motor 228. The dismounting gear II 207 rotates to drive the lower cam shaft gear 213 to rotate, the lower cam shaft gear 213 rotates to drive the lower cam 214 to rotate, and the lower cam 214 rotates to drive the screen 215 to vibrate in a reciprocating manner on the dismounting assembly shell 203; the screen 215 vibrates up and down in a reciprocating manner, the treating agent is screened by vibrating on the screen 215, and the treating agent with small particles falls onto the connecting plate 216, then flows into the adapter 217 from the connecting plate 216, and then enters the medicine proportioning component 3 from the adapter 217. The dismantling gear I206 rotates to drive the end face gear 219 to rotate, the end face gear 219 rotates to drive the small bevel gear 220 to rotate, the small bevel gear 220 rotates to drive the input bevel gear I222 to rotate, the input bevel gear I222 rotates to drive the output bevel gear I223 to rotate, the output bevel gear I223 rotates to drive the fixed rotating shaft 224 to rotate, and the fixed rotating shaft 224 rotates to drive the bag breaking hook 227 to rotate; the upper box cylinder 226 operates to push the upper box slider 225, the upper box slider 225 slides on the detachment assembly housing 203; the micro motor 228 is started to drive the bag taking stick 229 to rotate; when the dismantling motor 205 works, the bag breaking hook 227 rotates to transfer the hooked bag into the waste box 218, and when the box upper air cylinder 226 works, the bag breaking hook 227 is pushed to move forwards to hook the bag; the micro-motor 228 is operated to feed the bag into the waste bin 218 by means of a bag pick-up stick 229 in cooperation with a bag breaking hook 227.

The medicine proportioning component 3 comprises a proportioning component box body 301, the proportioning component box body 301 is fixedly arranged on a support ring 201, a cylinder seat 302 is fixedly arranged on the proportioning component box body 301, a liquid treating agent barrel 303 is fixedly arranged on the support ring 201, a water barrel 304 is fixedly arranged on the support ring 201, a water pump 305 is fixedly arranged on the liquid treating agent barrel 303, a water pump 305 is fixedly arranged on the water barrel 304, a motor moving cylinder 306 is fixedly arranged on the water pump 305, a proportioning motor 307 is fixedly arranged on a telescopic rod of the motor moving cylinder 306, a central bevel gear 308 is fixedly arranged on an output shaft of the proportioning motor 307, a bevel gear shaft seat I309 is fixedly arranged on the proportioning component box body 301, a stirring bevel gear 310 is rotatably arranged on the bevel gear shaft seat I309, the central bevel gear 308 and the stirring bevel gear 310 form gear fit, and a pinion 311 is fixedly arranged on the stirring bevel gear 310; the proportioning component box body 301 is fixedly provided with a liquid outflow barrel 313, the liquid outflow barrel 313 is rotatably provided with a central stirring shaft 314, the central stirring shaft 314 is fixedly provided with an upper end face gear 312, the upper end face gear 312 and a pinion 311 form gear fit, the central stirring shaft 314 is slidably provided with a cylinder shaft 315, the proportioning component box body 301 is fixedly provided with a lifting cylinder 316, the cylinder shaft 315 is fixedly connected with a telescopic rod of the lifting cylinder 316, and the cylinder shaft 315 is fixedly provided with a blocking plate 317. When the solid treating agent enters the medicine proportioning component 3, the water pump 305 pumps enough water and liquid treating agent from the liquid treating agent barrel 303 and the water barrel 304 to enter the liquid outflow barrel 313, the solid treating agent also enters the proportioning component box 301, the liquid treating agent in the liquid outflow barrel 313 flows out to the proportioning component box 301, the motor moving cylinder 306 works to push the proportioning motor 307 to drive the proportioning motor 307 and the central bevel gear 308 to translate, the central bevel gear 308 respectively cooperates with the stirring bevel gear 310 or the rotating bevel gear I318 when moving towards two sides, when the central bevel gear 308 contacts with the stirring bevel gear 310, the proportioning motor 307 starts to drive the central bevel gear 308 to rotate, the central bevel gear 308 rotates to drive the stirring bevel gear 310 to rotate, the stirring bevel gear 310 rotates to drive the pinion 311 to rotate, the pinion 311 rotates to drive the upper face gear 312 to rotate, the upper face gear 312 rotates to drive the central shaft 314 to rotate, the central stirring shaft 314 rotates to mix and stir the treating agents to achieve the proportioning effect; the lifting cylinder 316 is started to drive the cylinder shaft 315 to contract in the central stirring shaft 314, the cylinder shaft 315 moves up and down to drive the blocking plate 317 to move up and down, the blocking plate 317 moves down to close the opening and moves up to open the opening, and the treating agent flows out of the discharge pipe 328.

A bevel gear shaft seat II 319 is fixedly arranged on the proportioning component box body 301, a rotary bevel gear I318 is rotatably arranged on the bevel gear shaft seat II 319, the rotary bevel gear I318 and a central bevel gear 308 form a gear fit, a rotary bevel gear II 320 is fixedly arranged on the rotary bevel gear I318, a transmission shaft seat 322 is fixedly arranged on the proportioning component box body 301, a transmission bevel gear I321 is rotatably arranged on the transmission shaft seat 322, the transmission bevel gear I321 and the rotary bevel gear II 320 form a gear fit, a transmission bevel gear II 323 is fixedly arranged on the transmission bevel gear I321, an electric heating rod slide bar 325 is fixedly arranged on the proportioning component box body 301, a transmission bevel gear III 324 is rotatably arranged on the electric heating rod slide bar 325, the transmission bevel gear III 324 and the transmission bevel gear II 323 form a gear fit, a lower gear 326 is fixedly arranged on the transmission bevel gear III 324, and an outer ring support 329 is rotatably arranged on the proportioning component box body 301, a discharge pipe 328 is fixedly installed on the outer ring support 329, a lower end face gear 327 is fixedly installed on the discharge pipe 328, and the lower end face gear 327 and the lower gear 326 form gear fit. The central bevel gear 308 rotates to drive the rotating bevel gear I318 to rotate, the rotating bevel gear I318 rotates to drive the rotating bevel gear II 320 to rotate, the rotating bevel gear II 320 rotates to drive the transmission bevel gear I321 to rotate, the transmission bevel gear I321 rotates to drive the transmission bevel gear II 323 to rotate, the transmission bevel gear II 323 rotates to drive the transmission bevel gear III 324 to rotate, the transmission bevel gear III 324 rotates to drive the lower gear 326 to rotate, the lower gear 326 rotates to drive the lower end face gear 327 to rotate, and the lower end face gear 327 rotates to drive the discharge pipe 328 to rotate. The discharge pipe 328 rotates to adjust the outlet position, thereby improving the applicability.

The central stirring shaft 314 is rotatably provided with a movable stirring rod 330. The rotation of the movable stirring rod 330 on the central stirring shaft 314 improves the flexibility of the stirring movement and avoids the device from being damaged when hard foreign matters are encountered.

Claims (3)

1. The utility model provides an automatic system of maring of drilling fluid medicine, includes that the medicine packing demolishs subassembly (2), medicine ratio subassembly (3), and medicine ratio subassembly (3) fixed mounting is on the medicine packing demolishs subassembly (2), its characterized in that: the medicine package dismantling assembly (2) is used for automatically processing the packaging bag and avoids manual processing, and the medicine package dismantling assembly (2) comprises a support ring (201); the medicine proportioning component (3) comprises a proportioning component box body (301), the proportioning component box body (301) is fixedly installed on a support ring (201), a cylinder seat (302) is fixedly installed on the proportioning component box body (301), a liquid treating agent barrel (303) is fixedly installed on the support ring (201), a water barrel (304) is fixedly installed on the support ring (201), a water pump (305) is fixedly installed on the liquid treating agent barrel (303), a water pump (305) is fixedly installed on the water barrel (304), a motor moving cylinder (306) is fixedly installed on the water pump (305), a proportioning motor (307) is fixedly installed on a telescopic rod of the motor moving cylinder (306), a central bevel gear (308) is fixedly installed on an output shaft of the proportioning motor (307), a bevel gear shaft seat I (309) is fixedly installed on the proportioning component box body (301), and a stirring bevel gear (310) is rotatably installed on the bevel gear shaft seat I (309), the central bevel gear (308) is in gear fit with the stirring bevel gear (310), and a pinion (311) is fixedly mounted on the stirring bevel gear (310); a liquid outflow barrel (313) is fixedly arranged on the proportioning component box body (301), a central stirring shaft (314) is rotatably arranged on the liquid outflow barrel (313), an upper end face gear (312) is fixedly arranged on the central stirring shaft (314), and the upper end face gear (312) and a pinion (311) form gear matching; a bevel gear shaft seat II (319) is fixedly installed on the proportioning component box body (301), a rotating bevel gear I (318) is installed on the bevel gear shaft seat II (319) in a rotating mode, the rotating bevel gear I (318) forms gear fit with the central bevel gear (308), a rotating bevel gear II (320) is fixedly installed on the rotating bevel gear I (318), a transmission shaft seat (322) is fixedly installed on the proportioning component box body (301), a transmission bevel gear I (321) is installed on the transmission shaft seat (322) in a rotating mode, the transmission bevel gear I (321) forms gear fit with the rotating bevel gear II (320), a transmission bevel gear II (323) is fixedly installed on the transmission bevel gear I (321), an electric heating rod sliding rod (325) is fixedly installed on the proportioning component box body (301), a transmission bevel gear III (324) is installed on the electric heating rod sliding rod (325) in a rotating mode, and the transmission bevel gear III (324) forms gear fit with the transmission bevel gear II (323), a lower gear (326) is fixedly installed on the transmission bevel gear III (324), an outer ring support (329) is rotatably installed on the proportioning component box body (301), a discharge pipe (328) is fixedly installed on the outer ring support (329), a lower end face gear (327) is fixedly installed on the discharge pipe (328), and the lower end face gear (327) and the lower gear (326) form gear fit;

the conveying device is characterized by further comprising a solid bag conveying assembly (1), the solid bag conveying assembly (1) comprises a conveying assembly lower support (101), a conveying assembly upper support (102) is fixedly installed on the conveying assembly lower support (101), a conveying motor (103) is fixedly installed on the conveying assembly upper support (102), a conveying gear I (104) is fixedly installed on an output shaft of the conveying motor (103), a conveying shaft (106) is rotatably installed on the conveying assembly upper support (102), a conveying gear II (105) is fixedly installed on the conveying shaft (106), the conveying gear II (105) is in gear fit with the conveying gear I (104), a conveying gear III (107) is fixedly installed on the conveying shaft (106), a polishing rod (110) is fixedly installed on the conveying assembly lower support (101), a lead screw (109) is rotatably installed on the conveying assembly lower support (101), and a conveying gear IV (108) is fixedly installed on the lead screw (109), the conveying gear IV (108) and the conveying gear III (107) form gear fit, a conveying plate (111) is slidably mounted on the feed bar (110), and the conveying plate (111) and the lead screw (109) form thread fit;

a conveying cylinder (112) is fixedly arranged on the upper bracket (102) of the conveying assembly, and a conveying push plate (113) is fixedly arranged on a telescopic rod of the conveying cylinder (112);

the support ring (201) is fixedly connected with the lower support (101) of the conveying assembly, a support bottom column (202) playing a supporting role is fixedly installed on the support ring (201), a dismantling assembly shell (203) is fixedly installed on the support ring (201), a gear set shell (204) is fixedly installed on the dismantling assembly shell (203), a dismantling motor (205) is fixedly installed on the gear set shell (204), a dismantling gear I (206) is fixedly installed on an output shaft of the dismantling motor (205), an upper cam shaft (209) is rotatably installed on the support ring (201), a dismantling gear II (207) is fixedly installed on the upper cam shaft (209), the dismantling gear II (207) forms gear fit with the dismantling gear I (206), an upper cam shaft gear (208) is rotatably installed on the support ring (201), the upper cam shaft gear (208) forms gear fit with the dismantling gear II (207), an upper cam (210) is fixedly installed on the upper cam shaft (209), a vibration shaft (211) is slidably mounted on the support ring (201), the lower end face of the vibration shaft (211) is in contact with the upper cam (210), and a bag breaking cone (212) is fixedly mounted on the vibration shaft (211);

a lower cam shaft gear (213) is rotatably mounted on the support ring (201), a lower cam (214) is fixedly mounted on the lower cam shaft gear (213), the lower cam shaft gear (213) forms gear fit with a dismantling gear II (207), a screen (215) is slidably mounted on the dismantling assembly shell (203), the lower surface of the screen (215) is in contact with the lower cam (214), a connecting plate (216) is fixedly mounted on the support ring (201), a switching port (217) is fixedly mounted on the connecting plate (216), a waste box (218) is fixedly mounted on the support ring (201), an end gear (219) is fixedly mounted on the dismantling gear I (206), a shaft seat (221) is fixedly mounted on the support ring (201), a small bevel gear (220) is rotatably mounted on the shaft seat (221), the small bevel gear (220) forms gear fit with the end gear (219), and an input bevel gear I (222) is fixedly mounted on the small bevel gear (220); fixed mounting has cylinder (226) on the case on abandonment case (218), fixed mounting has slider on the case (225) on the telescopic link of cylinder (226) on the case, slider on the case (225) slidable mounting is on demolising subassembly shell (203), it installs fixed rotating shaft (224) to rotate on slider on the case (225), fixed mounting has output bevel gear I (223) on fixed rotating shaft (224), output bevel gear I (223) forms gear cooperation with input bevel gear I (222), fixed mounting has broken bag hook (227) on fixed rotating shaft (224), fixed mounting has micro motor (228) on abandonment case (218), fixed mounting has bag stick (229) of getting on the output shaft of micro motor (228).

2. The automatic filling system of drilling fluid medicines as claimed in claim 1, characterized in that: an air cylinder shaft (315) is slidably mounted on the central stirring shaft (314), a lifting air cylinder (316) is fixedly mounted on the proportioning component box body (301), the air cylinder shaft (315) is fixedly connected with a telescopic rod of the lifting air cylinder (316), and a blocking plate (317) is fixedly mounted on the air cylinder shaft (315).

3. The automatic filling system of drilling fluid medicines as claimed in claim 2, characterized in that: the central stirring shaft (314) is rotatably provided with a movable stirring rod (330).

Images