CN116588886B

CN116588886B - Air-drying, filling and sealing all-in-one machine based on veterinary medicine bottle

Info

Publication number: CN116588886B
Application number: CN202310861348.9A
Authority: CN
Inventors: 王广毅; 王利; 侯天鹏; 王峰
Original assignee: Dezhou Jingxin Pharmaceutical Co ltd
Current assignee: Dezhou Jingxin Pharmaceutical Co ltd
Priority date: 2023-07-14
Filing date: 2023-07-14
Publication date: 2023-09-26
Anticipated expiration: 2043-07-14
Also published as: CN116588886A

Abstract

The invention relates to an all-in-one machine for air drying, filling and sealing based on veterinary medicine bottles, and relates to the technical field of filling equipment. The medicine bottle automatic sealing machine comprises a frame, a first conveying belt, an air drying mechanism, a filling mechanism, a sealing mechanism and a second conveying belt, wherein the air drying mechanism is used for drying medicine bottles, the sealing mechanism is used for tightening bottle caps, the first conveying belt and the second conveying belt are all rotationally connected to the frame, and the air drying mechanism, the filling mechanism and the sealing mechanism are all arranged on the frame. The invention improves the production efficiency of the medicine bottle.

Description

Air-drying, filling and sealing all-in-one machine based on veterinary medicine bottle

Technical Field

The invention relates to the technical field of filling equipment, in particular to an all-in-one machine for air drying, filling and sealing based on veterinary medicine bottles.

Background

In the processing of veterinary bottles, it is often necessary to carry out the cleaning, sanitizing, air drying, filling and sealing procedures. As market demands continue to increase, automated production requirements for pharmaceuticals are gradually increasing.

At present, when the existing filling machine is used for filling liquid, the filling head is generally used for directly and vertically filling the liquid into the bottle body from the bottle mouth, and the filling progress is judged by adopting a liquid level sensor or a weighing mode.

According to the technical scheme, a large amount of foam is easily generated after the liquid is contacted with the bottle body, the filling accuracy is influenced, the residual oxygen amount of the medicine is influenced, the medicine is deteriorated, more liquid is remained on the filling head, the conveying device is easily corroded, the medicine bottle in subsequent filling is polluted, and the production efficiency of the medicine bottle is reduced.

Disclosure of Invention

In order to improve the production efficiency of medicine bottles, the invention provides an all-in-one machine for air drying, filling and sealing of veterinary medicine bottles.

The invention provides an all-in-one machine for air drying, filling and sealing based on veterinary medicine bottles, which adopts the following technical scheme:

the utility model provides an all-in-one is used in air-drying, filling, sealing based on animal remedy bottle, includes frame, first conveyer belt, is used for carrying out dry air-drying mechanism, filling mechanism to the medicine bottle, is used for tightening sealing mechanism and the second conveyer belt of bottle lid, first conveyer belt with the second conveyer belt all rotates to be connected in the frame, air-drying mechanism, filling mechanism with sealing mechanism all sets up in the frame;

the filling mechanism comprises a first cylinder, a support, a first relay for detecting liquid level, a filling assembly, a recovery assembly and a conveying assembly for conveying and fixing a medicine bottle, wherein the filling assembly comprises a spring, a filling tube, a filling sleeve, a one-way valve and a liquid storage tank, the first cylinder, the first relay, the conveying assembly, the recovery assembly and the liquid storage tank are all arranged on the support, the first relay is electrically connected with the first cylinder, the support is arranged at the output end of the first cylinder, the filling tube is arranged on the support, one end of the spring is arranged on the support, the filling sleeve is arranged at the other end of the spring, the filling sleeve is sleeved on the outer peripheral surface of the filling tube, the one-way valve is arranged on the inner peripheral surface of one end of the filling sleeve, which is far away from the spring, of the first relay is electrically connected with the liquid storage tank, and the output end of the liquid storage tank is communicated with the input end of the filling tube through a pipeline.

Through the technical proposal, the air-dried medicine bottle enters the conveying assembly under the action of the first conveying belt, the conveying assembly drives the medicine bottle to reach the designated position, the piston rod of the first air cylinder drives the bracket to descend, the bracket drives the spring and the filling tube to descend, the spring drives the filling sleeve and the return tube to descend, the filling sleeve is abutted on the bottle mouth of the medicine bottle, the spring is compressed, the filling tube penetrates through the one-way valve and stretches into the bottom of the medicine bottle, the liquid storage tank fills the medicine liquid through the filling tube, the first relay detects the liquid level and transmits signals to the first air cylinder, the first air cylinder drives the bracket to ascend at a certain speed, the output end of the filling tube is always positioned below the liquid level in the ascending process, the generation of foam in the filling process is reduced, the influence on the detection accuracy of the first relay is reduced, the residual oxygen amount in the medicine is reduced, and the medicine is not easy to deteriorate, when the liquid level reaches the designated height, the first air cylinder drives the bracket to rise, so that the filling pipe rises and leaves the liquid level, the spring is reset, one end of the filling pipe, which is far away from the bracket, returns to the filling sleeve, the one-way valve is closed, the residual liquid medicine outside the filling pipe is stored in the filling sleeve, the recovery component recovers the residual liquid medicine, the liquid medicine can be used for filling again after being treated, the waste of the liquid medicine is reduced, the turntable continues to rotate, the filled medicine bottle enters the sealing mechanism to be sealed, so that the one-way valve enables the residual liquid medicine on the filling pipe to be stored in the filling sleeve, the liquid medicine is not easy to leak, the influence on the telescopic movement of the filling pipe is small, the recovery amount of the liquid medicine is improved, the waste of the liquid medicine is reduced, the liquid medicine residual amount on the filling pipe is reduced, the probability of corrosion to the conveying device is reduced, the liquid medicine is not easy to be condensed on the filling pipe, the probability of polluting the medicine bottle filled later is reduced.

Optionally, retrieve the subassembly and include the back flow, retrieve jar and first vacuum pump all sets up in the frame, the back flow sets up the filling sleeve is kept away from on the one end of support, the input of back flow with the inside intercommunication of filling sleeve, the output of back flow pass through the pipeline with the input intercommunication of retrieving jar, the input of first vacuum pump with retrieve jar intercommunication.

Through adopting above-mentioned technical scheme, after the liquid level reached appointed height, first cylinder continued to drive the support and rises, make the filling tube rise and leave the liquid level, the spring resets, make the one end that the support was kept away from to the filling tube get back to in the filling sleeve, the one-way valve is sealed, the outside remaining liquid medicine deposit of filling tube is in the filling sleeve this moment, first vacuum pump starts, inhale the recovery jar with remaining liquid medicine through the back flow in, so set up, the liquid medicine residual quantity on the filling tube has been reduced, the probability that causes the corruption to conveyor has been reduced, make the liquid medicine be difficult for condensing on the filling tube, the probability that causes the pollution to the medicine bottle of follow-up filling has been reduced.

Optionally, the filling mechanism further comprises a guide assembly, the guide assembly comprises a guide shaft and a guide seat, the guide seat is arranged on the support, a through hole is formed in the support, one end of the guide shaft is arranged on the frame, and the guide seat is arranged on the outer peripheral surface of the other end of the guide shaft in a sliding mode.

Through adopting above-mentioned technical scheme, after the medicine bottle after the air-drying reached the assigned position, first cylinder piston rod drove the support and descends, and the support drives the guide holder and slides on the guiding axle, and guiding axle and guide holder provide the direction for the reciprocates of support, are favorable to the accurate entering medicine bottle of filling tube, have improved the degree of accuracy of filling, have reduced the waste of medicine.

Optionally, the conveying assembly includes carousel, tray and fixture block, the tray sets up in the frame, the carousel rotates to be connected the frame is close to the one end of tray, set up flutedly on the carousel, fixture block one end sets up in the frame, the fixture block other end is located the carousel with between the tray.

Through adopting above-mentioned technical scheme, the medicine bottle gets into in the recess on the carousel under the effect of first conveyer belt, the bottom butt of medicine bottle is on the tray, the carousel rotates, drive the medicine bottle and reach the assigned position, the carousel plays the effect of carrying and fixed in position to the medicine bottle, be favorable to filling in the accurate entering medicine bottle of filling tube, the degree of accuracy of filling has been improved, the waste of medicine has been reduced, the medicine bottle filling is accomplished the back, the carousel continues to rotate, the medicine bottle gets into sealing mechanism and seals, after the completion of sealing, the carousel continues to rotate, the medicine bottle gets into the second conveyer belt and carries forward under the blocking of fixture block, get into next process.

Optionally, the air drying mechanism includes the air drying subassembly, the air drying subassembly includes second cylinder, connecting pipe, gas blowing pipe, electronic clamping jaw and air heater, the second cylinder with the air heater all sets up the frame is close to the one end of first conveyer belt, the connecting pipe sets up on the output of second cylinder, the gas blowing pipe sets up on the connecting pipe, the gas blowing pipe passes through the connecting pipe with the output intercommunication of air heater, electronic clamping jaw sets up the frame is close to the one end of first conveyer belt.

Through adopting above-mentioned technical scheme, first conveyer belt carries the medicine bottle to the assigned position, electronic clamping jaw presss from both sides the medicine bottle and fixes, the probability that the medicine bottle takes place askew under the effect of air heater or second vacuum pump has been reduced, and then the probability that the machine takes place to block up has been reduced, the second cylinder piston rod stretches out and drives the connecting pipe and descend, the connecting pipe drives the blowing pipe and descends, make the blowing pipe stretch into inside the medicine bottle, the air heater passes through the blowing pipe and blows hot-blast to the medicine bottle inside, make moisture evaporation back escape from bottleneck, after the medicine bottle air-dries, the medicine bottle naturally cooling, the second cylinder piston rod drives the connecting pipe and the blowing pipe rises, electronic clamping jaw releases the medicine bottle, the medicine bottle continues to carry forward under the effect of first conveyer belt, get into filling mechanism.

Optionally, the air drying mechanism further comprises an air extraction assembly, the air extraction assembly comprises a three-way electromagnetic valve and a second vacuum pump, the second vacuum pump is arranged on the frame, the input end of the second vacuum pump is communicated with the connecting pipe through the three-way electromagnetic valve, and the air heater is communicated with the connecting pipe through the three-way electromagnetic valve.

Through adopting above-mentioned technical scheme, first conveyer belt carries the medicine bottle to the assigned position, electronic clamping jaw presss from both sides the medicine bottle and fixes, the second cylinder piston rod stretches out and drives the connecting pipe and descend, the connecting pipe drives the gas-blowing pipe and descends, make the gas-blowing pipe stretch into inside the medicine bottle, three way solenoid valve intercommunication connecting pipe and the output of air heater, the air heater blows hot-blast to the bottom and the lateral wall of medicine bottle through the through-hole on the gas-blowing pipe, make moisture evaporation back escape from bottleneck department, after a period of time, three way solenoid valve intercommunication connecting pipe and the input of second vacuum pump, the second vacuum pump is taken away residual moisture and vapor through the through-hole on the gas-blowing pipe, make medicine bottle natural cooling simultaneously, after the one end time, repeat above-mentioned operation, the medicine bottle air-dries the back of accomplishing, second cylinder piston rod drives connecting pipe and gas-blowing pipe ascend, the medicine bottle is released to the electronic clamping jaw, the medicine bottle continues forward transport under the effect of first conveyer belt, get into filling mechanism, so set up, adopt the hot-blast mode of blowing with the water alternate, be favorable to shorten the time of medicine bottle air-drying under lower heating temperature, medicine bottle air-drying, medicine bottle residual moisture in the medicine bottle is reduced, and medicine bottle air drying efficiency has been improved.

Optionally, the sealing mechanism includes motor, third cylinder, guide sleeve, floating joint, gland bush, send the lid subassembly and be used for discernment body's detection component, the motor sets up in the frame, the third cylinder sets up on the motor, the one end setting of floating joint is in the output of third cylinder, the gland bush sets up the other end of floating joint, guide sleeve sets up on the motor and the cover is established on the gland bush's the outer peripheral face, send the lid subassembly and the detection component sets up in the frame.

Through adopting above-mentioned technical scheme, the medicine bottle after the filling reaches the assigned position under the effect of carousel, when the medicine bottle is discerned to the detection component, send the bottle lid after the lid subassembly output reason, the bottle lid is set up on the medicine bottle bottleneck, the carousel continues to rotate, the medicine bottle reaches the assigned position, the third cylinder drives floating joint and gland sleeve and pushes down the bottle lid, the motor drives third cylinder and direction sleeve rotation, and then drive floating joint and gland sleeve rotation, make bottle lid spiral decline and screw on the bottleneck, when there is certain dislocation in the in-process bottle lid of pushing down and gland sleeve, the gland sleeve takes place to rock and warp easily, floating joint plays the effect of buffering and reduction error, be favorable to the vertical lift of third cylinder piston rod, third cylinder drives floating joint and gland sleeve to rise, the carousel continues to rotate, the medicine bottle gets into the second conveyer belt and carries forward under the blocking of fixture block, get into next process, so set up, floating joint plays the effect of buffering, the vertical lift to third cylinder piston and cylinder wear to sealing equipment has been improved.

Optionally, send the lid subassembly to include reason charging tray and reason material guide rail, reason charging tray sets up in the frame, reason charging tray's output pass through reason material guide rail with recess intercommunication on the carousel.

Through adopting above-mentioned technical scheme, the medicine bottle after the filling reaches the assigned position under the effect of carousel, and reason charging tray is right the bottle lid, and when detecting the subassembly discernment to the medicine bottle, the bottle lid after the reason is right is exported through reason material guide rail, makes the bottle lid set up on the bottleneck, so sets up, and reason charging tray is with the bottle lid arrangement for the opening downwards, has improved the work efficiency of reason lid, has saved the human cost, and then has improved the production efficiency of medicine bottle.

Optionally, the detection component includes fourth cylinder, blend stop and is used for detecting the second relay of body, the fourth cylinder sets up the frame is close to on the one end of reason material guide rail, the blend stop sets up on the output of fourth cylinder, the second relay with fourth cylinder electrical signal connection.

Through adopting above-mentioned technical scheme, the medicine bottle after the filling reaches the assigned position under the effect of carousel, reason charging tray is right the bottle lid, the bottle lid after reason is through reason material guide rail output, when the medicine bottle is not discerned to the second relay, fourth cylinder piston rod keeps stretching out the state, the blend stop makes the bottle lid stay on reason material guide rail, when the medicine bottle is discerned to the second relay, the second relay is given the fourth cylinder with signal transmission, fourth cylinder piston rod drives the blend stop and withdraws, the bottle lid leaves reason material guide rail and sets up on the medicine bottle bottleneck, so set up, the probability that the bottle lid falls to subaerial has been reduced, and then the probability that the bottle lid received the pollution has been reduced, the waste of bottle lid has been reduced, production cost has been reduced, and then the production efficiency of medicine bottle has been improved.

In summary, the present invention includes at least one of the following beneficial technical effects:

1. through the setting of filling mechanism, reduced the liquid medicine residual quantity on the filling tube, reduced the probability that causes the corruption to conveyor, make the liquid medicine be difficult for condensing on the filling tube, reduced the probability that causes the pollution to the medicine bottle of follow-up filling, improved the recovery volume of liquid medicine, reduced the waste of liquid medicine.

2. Through the setting of one-way valve, the remaining liquid medicine on the filling tube can deposit inside the filling sleeve, makes the liquid medicine be difficult for leaking, and is less to the influence of filling tube concertina movement, has improved the recovery volume of liquid medicine, has reduced the waste of liquid medicine.

3. Through the setting of air-drying mechanism, adopt and blow hot-blast and draw water the alternate air-drying mode of vapour, be favorable to shortening the air-dried time of medicine bottle fast under lower heating temperature, reduced the moisture residual quantity in the medicine bottle, improved the air-drying efficiency of medicine bottle, and then improved the production efficiency of medicine bottle.

4. Through the setting of sealing mechanism, when there is certain dislocation when pressing down the in-process bottle lid and gland sleeve, the gland sleeve takes place to rock and warp easily, and the floating joint plays the cushioning effect, is favorable to the vertical lift of third cylinder piston rod, has reduced the wearing and tearing to third cylinder piston and cylinder body, has improved sealing equipment's durability.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present invention;

FIG. 2 is a front view of an embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 1;

FIG. 4 is an enlarged view of portion C of FIG. 3;

FIG. 5 is a cross-sectional view taken along the direction B-B in FIG. 1;

FIG. 6 is an enlarged view of portion D of FIG. 5;

FIG. 7 is a schematic diagram of another view of an embodiment of the present invention;

FIG. 8 is an enlarged view of portion E of FIG. 7;

FIG. 9 is a rear view of an embodiment of the present invention;

fig. 10 is an enlarged view of a portion F in fig. 9;

FIG. 11 is a schematic view of a part of the structure of the filling mechanism;

FIG. 12 is a schematic illustration of one-way valve deployment;

fig. 13 is a schematic view of a one-way valve closure.

Reference numerals illustrate: 100. a frame; 200. a first conveyor belt; 300. an air drying mechanism; 310. air-drying the assembly; 311. a second cylinder; 312. a connecting pipe; 313. an air blowing pipe; 314. an electric clamping jaw; 315. an air heater; 320. an air extraction assembly; 321. a three-way electromagnetic valve; 322. a second vacuum pump; 400. a filling mechanism; 410. a first cylinder; 420. a bracket; 430. a first relay; 440. a filling assembly; 441. a spring; 442. filling tubes; 443. filling a sleeve; 444. a one-way valve; 445. a liquid storage tank; 450. a recovery assembly; 451. a return pipe; 452. a recovery tank; 453. a first vacuum pump; 460. a guide assembly; 461. a guide shaft; 462. a guide seat; 470. a transport assembly; 471. a turntable; 472. a tray; 473. a clamping block; 500. a sealing mechanism; 510. a motor; 520. a third cylinder; 530. a guide sleeve; 540. a floating joint; 550. a gland sleeve; 560. a cap feeding assembly; 561. a material arranging disc; 562. a material arranging guide rail; 570. a detection assembly; 571. a fourth cylinder; 572. a barrier strip; 573. a second relay; 600. and a second conveyor belt.

Detailed Description

The invention is described in further detail below in connection with fig. 1-13.

The embodiment of the invention discloses an all-in-one machine for air drying, filling and sealing of veterinary medicine bottles, which comprises a frame 100, a first conveying belt 200, an air drying mechanism 300 for drying the medicine bottles, a filling mechanism 400, a sealing mechanism 500 for screwing up bottle caps and a second conveying belt 600, wherein the first conveying belt 200 and the second conveying belt 600 are rotatably connected to the frame 100, and the air drying mechanism 300, the filling mechanism 400 and the sealing mechanism 500 are all arranged on the frame 100.

Referring to fig. 1-3, the air drying mechanism 300 includes an air drying assembly 310 and an air extraction assembly 320, the air drying assembly 310 includes a second air cylinder 311, a connecting pipe 312, an air blowing pipe 313, an electric clamping jaw 314 and an air heater 315, and the air extraction assembly 320 includes a three-way electromagnetic valve 321 and a second vacuum pump 322; the second cylinder 311, the air heater 315, the second vacuum pump 322 and the electric clamping jaw 314 are all fixedly connected to one end of the frame 100, which is close to the first conveying belt 200, through bolts, the connecting pipe 312 is fixedly connected to the output end of the second cylinder 311, the air blowing pipe 313 is adhered to the connecting pipe 312 and is communicated with the connecting pipe 312, a through hole is formed in the air blowing pipe 313, the input end of the second vacuum pump 322 is communicated with the connecting pipe 312 through the three-way electromagnetic valve 321, the output end of the air heater 315 is communicated with the connecting pipe 312 through the three-way electromagnetic valve 321, and an inverted slope is formed in the electric clamping jaw 314.

The first conveyer belt 200 carries the medicine bottle to the assigned position, electronic clamping jaw 314 presss from both sides the medicine bottle and fixes, the probability that the medicine bottle takes place crookedly under the effect of air heater 315 or second vacuum pump 322 has been reduced, and then the probability that the machine takes place to block up has been reduced, the chamfer that sets up on the electronic clamping jaw 314 makes the medicine bottle easily get into electronic clamping jaw 314, the second cylinder 311 piston rod stretches out and drives connecting pipe 312 and descend, connecting pipe 312 drives the gas-blowing pipe 313 and descends, make gas-blowing pipe 313 stretch into inside the medicine bottle, three-way solenoid valve 321 intercommunication connecting pipe 312 and the output of air heater 315, air heater 315 blows hot-blast to the bottom and the lateral wall of medicine bottle through the through-hole on gas-blowing pipe 313, make moisture evaporate back follow bottleneck department escape, after a period, the three-way solenoid valve 321 intercommunication connecting pipe 312 and the input of second vacuum pump 322, the residual moisture and vapor pump away of medicine bottle inner wall through the through-hole on the gas-blowing pipe 313, make the medicine bottle naturally cool down simultaneously, after the one end time, after the medicine bottle air-drying is accomplished repeatedly, second cylinder 311 drives 312 and gas-blowing pipe 313 and air-blowing pipe 313 rise, make, the medicine bottle 314 is flattened, the exhibition, the medicine bottle is continued to be carried down to the effect of the medicine bottle is improved, the air-drying efficiency is improved, the air-drying device is improved, the air-drying efficiency is improved, the air-drying bottle is improved, the air-drying device is compared with the medicine bottle has been carried the effect under the effect to the bottle, and the bottle has been continued under the effect to the bottle to be carried under the condition to the bottle to roll, and has been carried 200 to the air, and has been compared with the air.

Referring to fig. 4-13, the filling mechanism 400 includes a first cylinder 410, a bracket 420, a first relay 430, a filling assembly 440, a recovery assembly 450, a delivery assembly 470, and a guide assembly 460, the filling assembly 440 includes a spring 441, a filling tube 442, a filling sleeve 443, a one-way valve 444, and a liquid tank 445, the recovery assembly 450 includes a return tube 451, a recovery tank 452, and a first vacuum pump 453, the guide assembly 460 includes a guide shaft 461 and a guide seat 462, and the delivery assembly 470 includes a turntable 471, a tray 472, and a fixture block 473; the tray 472 is fixedly connected to the frame 100 through bolts, the turntable 471 is rotatably connected to one end of the frame 100 close to the tray 472, the turntable 471 is provided with a groove, one end of the clamping block 473 is fixedly connected to the frame 100 through bolts, the other end of the clamping block 473 is positioned between the turntable 471 and the tray 472, the first cylinder 410, the first relay 430, the liquid storage tank 445, the recovery tank 452 and the first vacuum pump 453 are fixedly connected to the frame 100 through bolts, the first relay 430 is electrically connected to the first cylinder 410 and the liquid storage tank 445, the bracket 420 is fixedly connected to the output end of the first cylinder 410 through bolts, the bracket 420 is provided with a through hole, the guide seat 462 is fixedly connected to the bracket 420 through bolts, one end of the guide shaft 461 is fixedly connected to the frame 100 through a bolt, the guide seat 462 is slidably disposed on the outer circumferential surface of the other end of the guide shaft 461, one end of the spring 441 is connected to the bracket 420, the filling sleeve 443 is connected to the other end of the spring 441 and slidably disposed on the outer circumferential surface of the filling tube 442, the one-way valve 444 is adhered to the inner circumferential surface of the end of the filling sleeve 443 away from the spring 441, the one-way valve 444 is made of an elastic material, the output end of the liquid storage tank 445 is communicated with the input end of the filling tube 442 through a pipeline, the return pipe 451 is fixedly connected to the end of the filling sleeve 443 away from the bracket 420 through a bolt, the input end of the return pipe 451 is communicated with the inside of the filling sleeve 443, the output end of the return pipe 451 is communicated with the input end of the recovery tank 452 through a pipeline, the input end of the first vacuum pump 453 communicates with the recovery tank 452.

The medicine bottle enters the groove on the rotary table 471 under the action of the first conveying belt 200, the bottom of the medicine bottle is abutted on the tray 472, the rotary table 471 rotates to drive the medicine bottle to reach the designated position, the rotary table 471 plays the roles of conveying and fixing the medicine bottle, the medicine bottle is filled in the medicine bottle accurately, the filling accuracy is improved, the waste of medicines is reduced, after the medicine bottle reaches the designated position, the piston rod of the first cylinder 410 drives the bracket 420 to descend, the bracket 420 drives the guide seat 462 to slide on the guide shaft 461, the guide shaft 461 and the guide seat 462 provide guide for the up-and-down movement of the bracket 420, the medicine bottle is filled accurately, the filling accuracy is improved, the medicine waste is reduced, the bracket 420 drives the spring 441 and the filling tube 442 to descend, the spring 441 drives the filling sleeve 443 and the return pipe 451 to descend, the filling sleeve 443 is abutted on the bottle mouth of the medicine bottle, the spring 441 is compressed, the filling tube 442 passes through the one-way valve 444 to extend into the bottom of the medicine bottle, the liquid storage tank 445 is filled with medicine liquid through the filling tube 442, the first relay 430 detects the liquid level and transmits signals to the first cylinder 410, the first cylinder 410 drives the bracket 420 to rise at a certain speed, the output end of the filling tube 442 is positioned below the liquid level in the rising process, the generation of foam in the filling process is reduced, the residual oxygen in the medicine is reduced, the medicine is not easy to deteriorate, when the liquid level reaches a specified height, the first cylinder 410 drives the bracket 420 to rise, the filling tube 442 rises and leaves the liquid level, the spring 441 is reset, one end of the filling tube 442 far away from the bracket 420 returns into the filling sleeve 443, the one-way valve 444 is closed, the medicine liquid remained outside the filling tube 442 is stored in the filling sleeve 443 by the one-way valve 444 at the moment, the first vacuum pump 453 is started, the residual liquid medicine is sucked into the recovery tank 452 through the return pipe 451, the liquid medicine in the recovery tank 452 can be used for filling again after being treated, the turntable 471 continues to rotate, so that the filled medicine bottle enters the sealing mechanism 500 for sealing, after the sealing is finished, the turntable 471 continues to rotate, the medicine bottle enters the second conveying belt 600 for forward conveying under the blocking of the clamping block 473, the next procedure is carried out, the one-way valve 444 enables the residual liquid medicine on the filling pipe 442 to be accumulated in the filling sleeve 443, the liquid medicine is not easy to leak, the influence on the telescopic movement of the filling pipe 442 is small, the recovery amount of the liquid medicine is improved, the waste of the liquid medicine is reduced, the residual amount of the liquid medicine on the filling pipe 442 is reduced, the probability of corrosion to a conveying device is reduced, the liquid medicine is not easy to agglomerate on the filling pipe 442, and the probability of pollution to the medicine bottle filled later is reduced.

Referring to fig. 5-8, the sealing mechanism 500 includes a motor 510, a third cylinder 520, a guide sleeve 530, a floating joint 540, a capping sleeve 550, a cap feeding assembly 560, and a detecting assembly 570, wherein the cap feeding assembly 560 includes a tray 561 and a rail 562, and the detecting assembly 570 includes a fourth cylinder 571, a barrier strip 572, and a second relay 573 for detecting a body; the material arranging disc 561 is fixedly connected to the frame 100 through bolts, the output end of the material arranging disc 561 is communicated with a groove on the rotary disc 471 through the material arranging guide rail 562, the fourth cylinder 571 is fixedly connected to one end of the frame 100, which is close to the material arranging guide rail 562, through bolts, the barrier strip 572 is fixedly connected to the output end of the fourth cylinder 571 through bolts, the second relay 573 is electrically connected with the fourth cylinder 571, the motor 510 is fixedly connected to the frame 100 through bolts, the third cylinder 520 is fixedly connected to the motor 510 through bolts, one end of the floating joint 540 is fixedly connected to the output end of the third cylinder 520 through bolts, the gland sleeve 550 is fixedly connected to the other end of the floating joint 540 through bolts, an inverted inclined surface is arranged at one end of the gland sleeve 550, which is far away from the floating joint 540, and the guide sleeve 530 is fixedly connected to the motor 510 through bolts and sleeved on the outer peripheral surface of the gland sleeve 550.

The filled medicine bottle reaches the designated position under the action of the turntable 471, the bottle cap is straightened by the bottle straightening disc 561, the straightened bottle cap is output through the bottle straightening guide rail 562, when the second relay 573 does not recognize the medicine bottle, the piston rod of the fourth cylinder 571 keeps the extending state, the barrier strip 572 keeps the bottle cap on the bottle straightening guide rail 562, when the second relay 573 recognizes the medicine bottle, the second relay 573 transmits a signal to the fourth cylinder 571, the piston rod of the fourth cylinder 571 drives the barrier strip 572 to retract, the bottle cap leaves the bottle straightening guide rail 562 and is erected on the bottle mouth of the medicine bottle, the turntable 471 continues to rotate, the medicine bottle reaches the designated position, the third cylinder 520 drives the floating joint 540 and the gland sleeve 550 to press the bottle cap down, the bottle cap easily enters the gland sleeve 550 due to the inverted inclined surface arranged on the gland sleeve 550, the probability of the bottle mouth leaking or damaging the bottle cap due to misplacement is reduced, the motor 510 drives the third cylinder 520 and the guide sleeve 530 to rotate, and then drives the floating joint 540 and the gland sleeve 550 to rotate, so that the bottle cap is spirally lowered and screwed on the bottle mouth, when a certain dislocation exists between the bottle cap and the gland sleeve 550 in the process of pressing down, the gland sleeve 550 is easy to shake and deform, the floating joint 540 plays a role in buffering and reducing errors, the vertical lifting of the piston rod of the third cylinder 520 is facilitated, the abrasion to the piston and the cylinder body of the third cylinder 520 is reduced, the third cylinder 520 drives the floating joint 540 and the gland sleeve 550 to lift, the turntable 471 continues to rotate, the medicine bottle enters the second conveyer belt 600 to be conveyed forwards under the blocking of the clamping block 473, and enters the next procedure, so that the floating joint 540 plays a role in buffering, the vertical lifting of the piston rod of the third cylinder 520 is facilitated, the abrasion to the piston and the cylinder body of the third cylinder 520 is reduced, the durability of the sealing device is improved.

The embodiment of the invention relates to an implementation principle of an all-in-one machine for air drying, filling and sealing of veterinary medicine bottles, which comprises the following steps:

the first conveyor belt 200 conveys the medicine bottles to a specified position, the electric clamping jaw 314 clamps the medicine bottles to fix, the piston rod of the second cylinder 311 stretches out to drive the connecting pipe 312 to descend, the connecting pipe 312 drives the air blowing pipe 313 to descend to enable the air blowing pipe 313 to stretch into the medicine bottles, the three-way electromagnetic valve 321 is communicated with the output ends of the connecting pipe 312 and the air heater 315, the air heater 315 blows hot air to the bottoms and the side walls of the medicine bottles through the through holes on the air blowing pipe 313, after a period of time, the three-way electromagnetic valve 321 is communicated with the input ends of the connecting pipe 312 and the second vacuum pump 322, the second vacuum pump 322 pumps away residual water and water vapor on the inner walls of the medicine bottles through the through holes on the air blowing pipe 313, and naturally cools the medicine bottles, after a period of time, the operation is repeated, the piston rod of the second cylinder 311 drives the connecting pipe 312 and the air blowing pipe 313 to ascend, the electric clamping jaw 314 releases the medicine bottles to continue to convey forwards under the action of the first conveyor belt 200, the medicine bottle enters a groove on a turntable 471, the bottom of the medicine bottle is abutted on a tray 472, the turntable 471 rotates to drive the medicine bottle to reach a designated position, a piston rod of a first cylinder 410 drives a bracket 420 to descend, the bracket 420 drives a guide seat 462 to slide on a guide shaft 461, the guide shaft 461 and the guide seat 462 provide guide for the upward and downward movement of the bracket 420, the bracket 420 drives a spring 441 and a filling tube 442 to descend, the spring 441 drives a filling sleeve 443 and a return tube 451 to descend, the filling sleeve 443 is abutted on a bottle opening of the medicine bottle, the spring 441 compresses, the filling tube 442 penetrates through a one-way valve 444 to extend into the bottom of the medicine bottle, the liquid storage tank 445 fills the medicine through the filling tube 442, a first relay 430 detects the liquid level and transmits a signal to the first cylinder 410, the first cylinder 410 drives the bracket 420 to ascend at a certain speed, and the output end of the filling tube 442 is always located below the liquid level in the ascending process, when the liquid level reaches the designated height, the first cylinder 410 drives the bracket 420 to rise, so that the filling tube 442 rises and leaves the liquid level, the spring 441 resets, so that one end of the filling tube 442, which is far away from the bracket 420, returns to the filling sleeve 443, the one-way valve 444 is closed, at this time, the one-way valve 444 stores the residual liquid medicine outside the filling tube 442 in the filling sleeve 443, the first vacuum pump 453 is started, the residual liquid medicine is sucked into the recovery tank 452 through the return pipe 451, the turntable 471 continues to rotate, the filled medicine bottle reaches the designated position under the action of the turntable 471, the bottle cap is straightened by the material sorting disc 561, the straightened bottle cap is output through the material sorting guide rail 562, when the second relay 573 does not recognize the medicine bottle, the piston rod of the fourth cylinder 571 keeps the extending state, the barrier strip 572 keeps the bottle cap on the material sorting guide rail 562, when the second relay 573 recognizes the medicine bottle, the second relay 573 transmits a signal to the fourth cylinder 571, the piston rod of the fourth cylinder 571 drives the barrier strip 572 to retract, the bottle cap leaves the material arranging guide rail 562 and is erected on the bottle mouth of the medicine bottle, the turntable 471 continues to rotate, the medicine bottle reaches a designated position, the third cylinder 520 drives the floating joint 540 and the gland sleeve 550 to press the bottle cap, the motor 510 drives the third cylinder 520 and the guide sleeve 530 to rotate, and then drives the floating joint 540 and the gland sleeve 550 to rotate, so that the bottle cap is spirally lowered and screwed on the bottle mouth, the third cylinder 520 drives the floating joint 540 and the gland sleeve 550 to ascend, the turntable 471 continues to rotate, and the medicine bottle enters the second conveying belt 600 to be conveyed forwards under the blocking of the clamping block 473 and enters the next procedure.

The above embodiments are not intended to limit the scope of the present invention, so: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims

1. Air-dries, filling, seal and use all-in-one based on animal remedy bottle, its characterized in that: the device comprises a frame (100), a first conveying belt (200), an air drying mechanism (300) for drying medicine bottles, a filling mechanism (400), a sealing mechanism (500) for tightening bottle caps and a second conveying belt (600), wherein the first conveying belt (200) and the second conveying belt (600) are both rotationally connected to the frame (100), and the air drying mechanism (300), the filling mechanism (400) and the sealing mechanism (500) are all arranged on the frame (100);

the filling mechanism (400) comprises a first cylinder (410), a bracket (420), a first relay (430) for detecting liquid level, a filling assembly (440), a recovery assembly (450) and a conveying assembly (470) for conveying and fixing medicine bottles, the filling assembly (440) comprises a spring (441), a filling tube (442), a filling sleeve (443), a one-way valve (444) and a liquid storage tank (445), the first cylinder (410), the first relay (430), the conveying assembly (470), the recovery assembly (450) and the liquid storage tank (445) are all arranged on the frame (100), the first relay (430) is electrically connected with the first cylinder (410), the bracket (420) is arranged at the output end of the first cylinder (410), the filling tube (442) is arranged on the bracket (420), one end of the spring (441) is arranged on the bracket (420), the filling sleeve (443) is arranged at the other end of the spring (441), the one-way sleeve (443) is arranged on the outer circumferential surface of the filling tube (443) away from the one end of the filling sleeve (443), the first relay (430) is in electrical signal connection with the liquid storage tank (445), and the output end of the liquid storage tank (445) is communicated with the input end of the filling pipe (442) through a pipeline;

the recovery assembly (450) comprises a return pipe (451), a recovery tank (452) and a first vacuum pump (453), wherein the recovery tank (452) and the first vacuum pump (453) are arranged on the frame (100), the return pipe (451) is arranged at one end, far away from the bracket (420), of the filling sleeve (443), the input end of the return pipe (451) is communicated with the interior of the filling sleeve (443), the output end of the return pipe (451) is communicated with the input end of the recovery tank (452) through a pipeline, and the input end of the first vacuum pump (453) is communicated with the recovery tank (452);

the filling mechanism (400) further comprises a guide assembly (460), the guide assembly (460) comprises a guide shaft (461) and a guide seat (462), the guide seat (462) is arranged on the support (420), a through hole is formed in the support (420), one end of the guide shaft (461) is arranged on the frame (100), and the guide seat (462) is slidably arranged on the outer peripheral surface of the other end of the guide shaft (461);

the conveying assembly (470) comprises a turntable (471), a tray (472) and a clamping block (473), wherein the tray (472) is arranged on the frame (100), the turntable (471) is rotationally connected to one end of the frame (100) close to the tray (472), the turntable (471) is provided with a groove, one end of the clamping block (473) is arranged on the frame (100), and the other end of the clamping block (473) is positioned between the turntable (471) and the tray (472);

the air drying mechanism (300) comprises an air drying assembly (310), the air drying assembly (310) comprises a second air cylinder (311), a connecting pipe (312), an air blowing pipe (313), an electric clamping jaw (314) and an air heater (315), the second air cylinder (311) and the air heater (315) are both arranged at one end of the frame (100) close to the first conveying belt (200), the connecting pipe (312) is arranged at the output end of the second air cylinder (311), the air blowing pipe (313) is arranged at the connecting pipe (312), the air blowing pipe (313) is communicated with the output end of the air heater (315) through the connecting pipe (312), and the electric clamping jaw (314) is arranged at one end of the frame (100) close to the first conveying belt (200);

the air drying mechanism (300) further comprises an air extraction assembly (320), the air extraction assembly (320) comprises a three-way electromagnetic valve (321) and a second vacuum pump (322), the second vacuum pump (322) is arranged on the frame (100), the input end of the second vacuum pump (322) is communicated with the connecting pipe (312) through the three-way electromagnetic valve (321), and the air heater (315) is communicated with the connecting pipe (312) through the three-way electromagnetic valve (321);

sealing mechanism (500) are including motor (510), third cylinder (520), guide sleeve (530), floating joint (540), gland bush (550), send lid subassembly (560) and be used for discernment body detection component (570), motor (510) set up on frame (100), third cylinder (520) set up on motor (510), the one end setting of floating joint (540) is in the output of third cylinder (520), gland bush (550) set up the other end of floating joint (540), guide sleeve (530) set up on motor (510) and the cover is established on the outer peripheral face of gland bush (550), send lid subassembly (560) and detection component (570) set up on frame (100).

2. The veterinary drug bottle-based air-drying, filling and sealing integrated machine according to claim 1, wherein: the cover conveying assembly (560) comprises a material arranging disc (561) and a material arranging guide rail (562), wherein the material arranging disc (561) is arranged on the frame (100), and the output end of the material arranging disc (561) is communicated with the groove on the rotary disc (471) through the material arranging guide rail (562).

3. The veterinary drug bottle-based air-drying, filling and sealing integrated machine according to claim 2, wherein: the detection assembly (570) comprises a fourth cylinder (571), a barrier strip (572) and a second relay (573) for detecting a bottle body, wherein the fourth cylinder (571) is arranged at one end, close to the material arranging guide rail (562), of the frame (100), the barrier strip (572) is arranged at the output end of the fourth cylinder (571), and the second relay (573) is electrically connected with the fourth cylinder (571).