阅读说明：本技术 一种输液瓶灌装自动封口设备 (Automatic sealing equipment for filling of infusion bottle ) 是由 罗国强 邹祖送 于 2021-09-01 设计创作，主要内容包括：本发明公开了一种输液瓶灌装自动封口设备,涉及医疗器械技术领域,具体为主体设备框和固定滑轨,所述主体设备框前端外部底部设置有连接腔,且连接腔的上端安装有前置框,所述主体设备框后端外部设置有辅助板,所述主体设备框的内部安装有第一拨轮,且第一拨轮外部的一端设置有第一充氮机构,所述第一充氮机构外部的一端安装有第二拨轮。该一种输液瓶灌装自动封口设备,整个设备采用封闭式处理,可在输液瓶灌装封盖之后,利用固定滑轨的设计可对收集箱进行位置的移动,从而通过对收集箱位置的移动可对加工之转送至输送带外部表面的输液瓶进行收集,无需使用者单个加工结束之后的输液瓶单个取出,减少对封口设备内部的污染。(The invention discloses automatic sealing equipment for infusion bottle filling, which relates to the technical field of medical instruments, and particularly relates to a main equipment frame and a fixed slide rail, wherein a connecting cavity is arranged at the bottom outside the front end of the main equipment frame, a front frame is arranged at the upper end of the connecting cavity, an auxiliary plate is arranged outside the rear end of the main equipment frame, a first dial wheel is arranged inside the main equipment frame, a first nitrogen charging mechanism is arranged at one end outside the first dial wheel, and a second dial wheel is arranged at one end outside the first nitrogen charging mechanism. This automatic sealing equipment of infusion bottle filling, whole equipment adopt closed processing, can utilize the design of fixed slide rail to carry out the removal of position to the collecting box after infusion bottle filling closing cap to can transmit the infusion bottle that arrives conveyer belt outside surface to processing to through the removal to the collecting box position and collect, need not that the infusion bottle after the single processing of user finishes is single takes out, reduces the pollution to sealing equipment inside.)

1. An automatic sealing device for infusion bottle filling is characterized by comprising a main body device frame (1) and a fixed slide rail (40), wherein a connecting cavity (4) is arranged at the bottom of the outer portion of the front end of the main body device frame (1), a front frame (3) is arranged at the upper end of the connecting cavity (4), an auxiliary plate (2) is arranged at the outer portion of the rear end of the main body device frame (1), a first dial wheel (7) is arranged inside the main body device frame (1), a first nitrogen filling mechanism (6) is arranged at one end of the outer portion of the first dial wheel (7), a second dial wheel (8) is arranged at one end of the outer portion of the first nitrogen filling mechanism (6), a filling mechanism (10) is arranged at one end of the outer portion of the second dial wheel (8), a limiting frame (11) is arranged inside the filling mechanism (10), and a gland mechanism (12) is arranged at one end of the outer portion of the limiting frame (11), the utility model discloses a capping machine, including capping mechanism (12), the internally mounted of capping mechanism (12) has evacuation mechanism (13), and the outside one end of evacuation mechanism (13) is provided with second nitrogen charging mechanism (14), bottle mechanism (16) are installed to the outside one end of capping mechanism (12), and go out the outside one end of bottle mechanism (16) and be provided with slide rail (17), and send lid mechanism (15) are installed to the outside one end of slide rail (17), the outside one end that is close to main part equipment frame (1) of bottle mechanism (16) is provided with conveyer belt (41), fixed slide rail (40) are located the outside one end of conveyer belt (41), the outside left end of conveyer belt (41) is provided with manipulator (45).

2. The automatic sealing device for filling the infusion bottle according to claim 1, wherein a first electric slide rail (18) is arranged outside the end of the fixed slide rail (40), a first baffle (20) is slidably mounted inside the first electric slide rail (18), a collection box (23) is arranged at one end outside the first baffle (20), a second vacuum pump (19) is mounted at one end outside the collection box (23) close to the first electric slide rail (18), a second electric slide rail (21) is arranged at one end outside the second vacuum pump (19), and a second baffle (22) is slidably mounted inside the second electric slide rail (21).

3. The automatic sealing equipment for filling the infusion bottle according to the claim 2, characterized in that the first baffle plate (20) and the second baffle plate (22) are parallel to each other, and the first baffle plate (20) and the second baffle plate (22) are both rectangular.

4. The automatic sealing device for filling the infusion bottle according to claim 1, wherein a second motor (38) is arranged inside the auxiliary plate (2), a connecting shaft (37) is arranged at one end of the outside of the second motor (38), a blade (36) is arranged outside the connecting shaft (37), a separation net (39) is arranged outside the blade (36), the separation net (39) is connected with the auxiliary plate (2) in a clamping manner, and the auxiliary plate (2) is connected with the inside of the rear end of the main body equipment frame (1) in a sliding manner.

5. The automatic sealing equipment for filling the infusion bottle according to claim 1, wherein a first electric rail (30) is arranged inside the front frame (3), a first partition plate (31) is slidably mounted inside the first electric rail (30), a conveyor belt (28) is arranged outside the bottom of the first partition plate (31), placing clamping grooves (29) are equidistantly mounted outside the conveyor belt (28), a second electric rail (32) is arranged outside the bottom of the placing clamping grooves (29), a second partition plate (33) is slidably mounted inside the second electric rail (32), and a third vacuum pump (44) is fixedly mounted at one end, close to the inner wall of the front frame (3), outside the conveyor belt (28).

6. An automatic sealing device for filling infusion bottles as claimed in claim 5, characterised in that the inside of the front frame (3) is of a hollow structure, and the inside of the front frame (3) is perpendicular to the conveyor belt (28).

7. The automatic sealing equipment for filling the infusion bottle according to claim 1, wherein a threaded shaft (34) is arranged inside the connecting cavity (4), a first motor (35) is installed at one end of the outer part of the threaded shaft (34), and a T-shaped structure is arranged between the connecting cavity (4) and the front frame (3).

8. The automatic sealing device for filling the infusion bottle according to claim 1, wherein a second hydraulic air rod (42) is fixedly installed at two ends of the outer portion of the conveying belt (41), a blocking plate (43) is arranged at one end of the outer portion of the second hydraulic air rod (42), and the blocking plate (43) is installed on the outer portion of the conveying belt (41) in a rolling mode.

9. The automatic sealing equipment for filling the infusion bottle according to claim 1, wherein a limiting assembly (24) for limiting the screen body is annularly arranged inside the limiting frame (11), the limiting assembly (24) comprises an internal plate (2401), a connecting block (2402), a hydraulic cylinder (2403) and a positioning plate (2404), the connecting block (2402) is arranged at each of two ends inside the internal plate (2401), the hydraulic cylinder (2403) is arranged at one end outside the connecting block (2402), the two hydraulic cylinders (2403) are symmetrically arranged about the center line of the internal plate (2401), and the positioning plate (2404) is arranged outside the tail end of the hydraulic cylinder (2403).

10. The automatic sealing device for filling the infusion bottle according to claim 9, wherein an electric push rod (25) is arranged at one end of the outer portion of the built-in plate (2401) close to the inner portion of the limiting frame (11), connecting shafts (26) are arranged at two ends of one end of the outer portion of the electric push rod (25), and a fixing rod (27) is arranged at one end of the outer portion of each connecting shaft (26).

Technical Field

The invention relates to the technical field of medical instruments, in particular to automatic sealing equipment for filling of an infusion bottle.

Background

Infusion, also known as drip infusion or drip infusion, is a large dose of injection infused into the body by intravenous drip. The infusion is usually packaged in a glass or plastic infusion bottle, and the infusion set is used for adjusting the dropping speed to continuously and stably enter the vein so as to supplement body fluid, electrolyte or provide nutrient substances.

Intravenous infusion, as used in modern medicine, is one of the most common forms of infusion. The development of intravenous infusion has been a break in the last 500 years, and a complete system is gradually formed in the 20 th century, becoming one of the most common and most direct effective clinical treatment means. Therefore, it is increasingly widely used in various hospitals.

The existing automatic sealing equipment for filling the seed infusion bottle is easily polluted by the outside in the charging and discharging processes, and has the problems of complex result and inconvenience in collecting the sealed infusion bottle.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic sealing device for filling an infusion bottle, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic sealing device for infusion bottle filling comprises a main body device frame and a fixed slide rail, wherein a connecting cavity is arranged at the bottom of the outer portion of the front end of the main body device frame, a front frame is arranged at the upper end of the connecting cavity, an auxiliary plate is arranged on the outer portion of the rear end of the main body device frame, a first dial wheel is arranged inside the main body device frame, a first nitrogen charging mechanism is arranged at one end of the outer portion of the first dial wheel, a second dial wheel is arranged at one end of the outer portion of the first nitrogen charging mechanism, a filling mechanism is arranged at one end of the outer portion of the second dial wheel, a limiting frame is arranged inside the filling mechanism, a gland mechanism is arranged at one end of the outer portion of the limiting frame, a vacuumizing mechanism is arranged inside the gland mechanism, a second nitrogen charging mechanism is arranged at one end of the outer portion of the vacuumizing mechanism, a bottle discharging mechanism is arranged at one end of the outer portion of the gland mechanism, and a slide rail is arranged at one end of the outer portion of the bottle discharging mechanism, the bottle discharging mechanism is characterized in that a cap conveying mechanism is installed at one end outside the sliding rail, a conveying belt is arranged at one end, close to the main body equipment frame, outside the bottle discharging mechanism, the fixed sliding rail is located at one end outside the conveying belt, and a manipulator is arranged at the left end outside the conveying belt.

Optionally, a first electric slide rail is arranged outside the tail end of the fixed slide rail, a first baffle is slidably mounted inside the first electric slide rail, a collecting box is arranged at one end outside the first baffle, a second vacuum pump is mounted at one end, close to the first electric slide rail, outside the collecting box, a second electric slide rail is arranged at one end outside the second vacuum pump, and a second baffle is slidably mounted inside the second electric slide rail.

Optionally, the first baffle and the second baffle are parallel to each other, and both the first baffle and the second baffle are of rectangular structures.

Optionally, a second motor is arranged inside the auxiliary plate, a connecting shaft is installed at one end of the outside of the second motor, blades are arranged outside the connecting shaft, a separation net is arranged outside the blades, the separation net is connected with the auxiliary plate in a clamping manner, and the auxiliary plate is connected with the inside of the rear end of the main body equipment frame in a sliding manner.

Optionally, the inside of leading frame is provided with first electronic track, and first electronic orbital inside slidable mounting has first baffle, the outside of first baffle bottom is provided with the conveyer belt, and the outside equidistance of conveyer belt installs and places the draw-in groove, the outside of placing the draw-in groove bottom is provided with the electronic track of second, and the electronic orbital inside slidable mounting of second has the second baffle, the conveyer belt outside is close to the one end fixed mounting of leading frame inner wall has the third vacuum pump.

Optionally, the inside of the front frame is a hollow structure, and the inside of the front frame is perpendicular to the conveyor belt.

Optionally, the inside of connecting the chamber is provided with the screw thread axle, and the outside one end of screw thread axle installs first motor, be "T" style of calligraphy structure between connecting chamber and the leading frame.

Optionally, the outside both ends fixed mounting of conveyer belt has the second hydraulic pressure gas pole, and the outside one end of second hydraulic pressure gas pole is provided with the baffler, the baffler rolls and installs the outside at the conveyer belt.

Optionally, the inside annular of spacing frame is installed and is used for carrying out spacing subassembly to the screen body, and spacing subassembly includes built-in board, connecting block, hydraulic cylinder, locating plate, the inside both ends of built-in board all are provided with the connecting block, and the outside one end of connecting block installs hydraulic cylinder, hydraulic cylinder is equipped with two about the central line symmetry of built-in board, and the terminal outside of hydraulic cylinder is provided with the locating plate.

Optionally, an electric push rod is arranged at one end, close to the inside of the limiting frame, of the outside of the built-in plate, connecting shafts are arranged at two ends of one end of the outside of the electric push rod, and a fixing rod is arranged at one end of the outside of the connecting shafts.

The invention provides an automatic sealing device for filling of an infusion bottle, which has the following beneficial effects:

can carry out automatic transport and pile up neatly to the bottle body when carrying out the filling to the infusion bottle and receive the case and handle, be in a comparatively confined state in carrying the filling course of working to the bottle body, effectively avoid processing environment when carrying out the filling to the infusion bottle to receive the pollution, and when carrying out the bottling collection to article, can be required according to bottling speed, can be detained the infusion bottle after the filling closing cap finishes, avoid filling out when receiving the case, it is nimble to use, can dredge the heat of production in its course of working in the long-time course of working of whole closure equipment simultaneously, can prolong the life of equipment to a certain extent.

1. According to the automatic sealing equipment for filling the infusion bottle, the whole equipment adopts closed treatment, and the position of the collecting box can be moved by utilizing the design of the fixed sliding rail after the infusion bottle is filled and sealed, so that the infusion bottle processed and transferred to the outer surface of the conveying belt can be collected by moving the position of the collecting box, a user does not need to take out the infusion bottle after the single processing is finished, and the pollution to the interior of the sealing equipment is reduced;

2. the automatic sealing equipment for infusion bottle filling can drive the baffle plate to move up and down by utilizing the design of the second hydraulic air rod when the sealing speed is high, the infusion bottle conveyed to the outer surface of the conveying belt can be retained by moving the position of the baffle plate, the problem that the infusion bottle cannot be matched with a collecting box after being replaced due to the operation of the conveying belt is avoided, and the problem that the collecting box is too full of infusion bottles is avoided simultaneously, the automatic sealing equipment is simple in structure and convenient to use by a user, when the collecting box is replaced, the first baffle plate can firstly slide to the bottom of the first electric sliding rail to separate an encapsulation structure area of the infusion bottle from a replacing area of the collecting box, then the collecting box after the collection is taken out for replacement, then a new collecting box is placed between the first baffle plate and the second baffle plate, and then the two baffle plates can be vacuumized by utilizing the design of the second vacuum pump, after the vacuumizing is finished, the first baffle is opened, so that the problem of pollution to the interior of the sealing equipment when the collecting box is replaced is effectively solved;

3. the automatic sealing equipment for filling the infusion bottle can drive the connecting shaft and the separation net to rotate by utilizing the design of the second motor in the long-time working process of the sealing equipment, and the four corners of the separation net are elastically connected with the auxiliary plate, so that external foreign matters can be separated by utilizing the design of the separation net, and the force applied by the separation net can be buffered when the external force is applied, the damage of local pressure to the objects in the auxiliary plate is reduced, the ventilation and heat dissipation effects of the separation net are not influenced, and the whole auxiliary plate can be pulled outwards to separate the auxiliary plate from a main equipment frame when a power assembly in the main equipment frame is overhauled and maintained, so that the automatic sealing equipment is simple in structure and convenient for a user to operate quickly;

4. the automatic sealing equipment for filling the infusion bottle can drive the positioning plate to move in position by utilizing the design of the hydraulic cylinder in the process of transferring the infusion bottle, so that the infusion bottle can be clamped and positioned, the infusion bottle is prevented from sliding in the process of processing and transferring for many times, the processing of the infusion bottle is prevented from being influenced, the interior of a real main body equipment frame can be vacuumized by utilizing the design of the first vacuum pump according to use requirements in the process of processing the infusion bottle, the purity degree of the interior of the main body equipment frame is ensured, and the possibility that the infusion bottle body is polluted is reduced;

5. this automatic sealing equipment of infusion bottle filling, can at first slide to the second baffle inside the electronic track of second when carrying out the material loading to article, can make second baffle and connect between the chamber apart, then can open first baffle, the user can place the infusion bottle that needs carry out the filling inside the draw-in groove of placing of conveyer belt inside, the usable first baffle of closing after placing the end then utilizes the design of third vacuum pump to carry out the evacuation processing, open the second baffle after that, thereby the design of usable conveyer belt makes the infusion bottle transmit to and connects intracavity portion, the design of usable threaded spindle and first motor carries out single material loading processing to the infusion bottle, avoid producing and block up.

Drawings

FIG. 1 is a front view of the external structure of the present invention;

FIG. 2 is a schematic top view of a partial internal structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the limiting frame according to the present invention;

FIG. 4 is a schematic view of a connection portion of the build-up board according to the present invention;

FIG. 5 is a schematic view of the internal structure of the lead frame and the connection chamber of the present invention;

FIG. 6 is a schematic view of the internal structure of the auxiliary plate of the present invention.

In the figure: 1. a main body apparatus frame; 2. an auxiliary plate; 3. a front frame; 4. a connecting cavity; 5. a first vacuum pump; 6. a first nitrogen charging mechanism; 7. a first thumb wheel; 8. a second thumb wheel; 9. a third thumb wheel; 10. a filling mechanism; 11. a limiting frame; 12. a capping mechanism; 13. a vacuum pumping mechanism; 14. a second nitrogen charging mechanism; 15. a cap feeding mechanism; 16. a bottle discharging mechanism; 17. a slide rail; 18. a first electric slide rail; 19. a second vacuum pump; 20. a first baffle plate; 21. a second electric slide rail; 22. a second baffle; 23. a collection box; 24. a limiting component; 2401. a built-in plate; 2402. connecting blocks; 2403. a hydraulic cylinder; 2404. positioning a plate; 25. an electric push rod; 26. a connecting shaft; 27. fixing the rod; 28. a conveyor belt; 29. placing a clamping groove; 30. a first motorized track; 31. a first separator; 32. a second motorized track; 33. a second separator; 34. a threaded shaft; 35. a first motor; 36. a blade; 37. a connecting shaft; 38. a second motor; 39. separating the net; 40. fixing the slide rail; 41. a conveyor belt; 42. a second hydraulic gas lever; 43. a barrier plate; 44. a third vacuum pump; 45. a robot arm.

Detailed Description

Referring to fig. 1 to 6, the present invention provides a technical solution: an infusion bottle filling automatic sealing device comprises a main body device frame 1, an auxiliary plate 2, a front frame 3, a connecting cavity 4, a first vacuum pump 5, a first nitrogen filling mechanism 6, a first thumb wheel 7, a second thumb wheel 8, a third thumb wheel 9, a filling mechanism 10, a limiting frame 11, a gland pressing mechanism 12, a vacuumizing mechanism 13, a second nitrogen filling mechanism 14, a cap conveying mechanism 15, a bottle discharging mechanism 16, a sliding rail 17, a first electric sliding rail 18, a second vacuum pump 19, a first baffle plate 20, a second electric sliding rail 21, a second baffle plate 22, a collecting box 23, a limiting component 24, a built-in plate 2401, a connecting block 2402, a hydraulic cylinder 2403, a positioning plate 2404, an electric push rod 25, a connecting shaft 26, a fixing rod 27, a conveying belt 28, a placing clamping groove 29, a first electric rail 30, a first partition plate 31, a second electric rail 32, a second partition plate 33, a threaded shaft 34, a first motor 35, blades 36, a connecting shaft 37, A second motor 38, a separation net 39, a fixed slide rail 40, a conveying belt 41, a second hydraulic air rod 42, a separation plate 43 and a third vacuum pump 44, wherein the bottom of the outer part of the front end of the main body equipment frame 1 is provided with a connecting cavity 4, the upper end of the connecting cavity 4 is provided with a front frame 3, the outer part of the rear end of the main body equipment frame 1 is provided with an auxiliary plate 2, the inner part of the main body equipment frame 1 is provided with a first shifting wheel 7, one end of the outer part of the first shifting wheel 7 is provided with a first nitrogen filling mechanism 6, one end of the outer part of the first nitrogen filling mechanism 6 is provided with a second shifting wheel 8, one end of the outer part of the second shifting wheel 8 is provided with a filling mechanism 10, the inner part of the filling mechanism 10 is provided with a limiting frame 11, one end of the outer part of the limiting frame 11 is provided with a capping mechanism 12, the inner part of the capping mechanism 12 is provided with a vacuumizing mechanism 13, one end of the outer part of the vacuumizing mechanism 13 is provided with a second nitrogen filling mechanism 14, one end of the capping mechanism 12 is provided with a bottle discharging mechanism 16, a slide rail 17 is arranged at one end outside the bottle discharging mechanism 16, a cap feeding mechanism 15 is arranged at one end outside the slide rail 17, a conveyor belt 41 is arranged at one end outside the bottle discharging mechanism 16 close to the main body equipment frame 1, a second hydraulic air rod 42 is fixedly arranged at two ends outside the conveyor belt 41, a blocking plate 43 is arranged at one end outside the second hydraulic air rod 42, the blocking plate 43 is arranged outside the conveyor belt 41 in a rolling manner, a fixed slide rail 40 is arranged at one end outside the conveyor belt 41, a first electric slide rail 18 is arranged outside the tail end of the fixed slide rail 40, a first baffle plate 20 is slidably arranged inside the first electric slide rail 18, the first baffle plate 20 and the second baffle plate 22 are parallel to each other, the first baffle plate 20 and the second baffle plate 22 are both rectangular structures, a collecting box 23 is arranged at one end outside the first baffle plate 20, and a second vacuum pump 19 is arranged at one end outside the collecting box 23 close to the first electric slide rail 18, a second electric slide rail 21 is arranged at one end outside the second vacuum pump 19, a second baffle 22 is slidably mounted inside the second electric slide rail 21, and a manipulator 45 is arranged at the left end outside the conveying belt 41;

the operation is concretely as follows, the whole equipment adopts closed processing, after the infusion bottle is filled and sealed, the position of the collecting box 23 can be moved by utilizing the design of the fixed slide rail 40, so that the processed infusion bottle transferred to the outer surface of the conveying belt 41 can be collected by moving the position of the collecting box 23, the infusion bottle after the single processing is not needed to be taken out by a user, the pollution to the inside of the sealing equipment is reduced, when the sealing speed is higher, the barrier plate 43 can be driven to move up and down by utilizing the design of the second hydraulic air rod 42, the infusion bottle transferred to the outer surface of the conveying belt 41 can be retained by moving the position of the barrier plate 43, the situation that the infusion bottle cannot be matched with the collecting box 23 after replacement due to the operation of the conveying belt 41 is avoided, and the problem that the collecting box 23 is filled with infusion bottles is avoided, simple structure, convenient to use person's use, and when changing collecting box 23, can slide to the bottom of first electronic slide rail 18 to first baffle 20 at first, regional and the collecting box 23 change region of infusion bottle packaging structure carries out the separation, then take out collecting box 23 after the collection is ended and change, then place new collecting box 23 between first baffle 20 and second baffle 22, then usable second vacuum pump 19's design is to carrying out evacuation processing between above-mentioned two baffles 22, open first baffle 20 after the evacuation is ended, effectively avoid when changing collecting box 23 and bring the problem of pollution to sealing equipment inside.

As shown in fig. 1, 2 and 6, a second motor 38 is arranged inside the auxiliary plate 2, a connecting shaft 37 is arranged at one end of the outside of the second motor 38, a blade 36 is arranged outside the connecting shaft 37, a separation net 39 is arranged outside the blade 36, the separation net 39 is connected with the auxiliary plate 2 in a clamping manner, and the auxiliary plate 2 is connected with the inside of the rear end of the main body equipment frame 1 in a sliding manner;

can be in the long-time course of operation of sealing equipment, usable second motor 38's design drives linking up axle 37 and separate the net 39 and rotates, and separate net 39 four corners and accessory plate 2 elastic connection together, thereby can utilize the design that separates net 39 to carry out the separation to outside foreign matter and simultaneously can utilize the net 39 to cushion the power that receives when receiving the effect of external force, reduce the damage of local pressure to accessory plate 2 inside article and do not influence the ventilation cooling effect that separates net 39 simultaneously, and can overhaul when maintaining main body equipment frame 1 inside power component, can pull whole accessory plate 2 outside and can make it separate with main body equipment frame 1, moreover, the steam generator is simple in structure, and convenient to use person operates fast.

As shown in fig. 2, a first electric rail 30 is arranged inside the front frame 3, a first partition plate 31 is slidably mounted inside the first electric rail 30, a conveyor belt 28 is arranged outside the bottom of the first partition plate 31, placing clamping grooves 29 are equidistantly mounted outside the conveyor belt 28, a second electric rail 32 is arranged outside the bottom of the placing clamping groove 29, a second partition plate 33 is slidably mounted inside the second electric rail 32, a third vacuum pump 44 is fixedly mounted at one end, close to the inner wall of the front frame 3, outside the conveyor belt 28, the inside of the front frame 3 is of a hollow structure, the inside of the front frame 3 is perpendicular to the conveyor belt 28, a threaded shaft 34 is arranged inside the connection cavity 4, a first motor 35 is mounted at one end, outside the threaded shaft 34, and a T-shaped structure is formed between the connection cavity 4 and the front frame 3;

when the article is loaded, the second partition plate 33 can be firstly slid into the second electric rail 32, the second partition plate 33 and the connecting cavity 4 can be separated, then the first partition plate 31 can be opened, a user can place an infusion bottle to be filled into the placing clamping groove 29 in the conveyor belt 28, after the placing is finished, the first partition plate 31 can be closed, then the vacuum pumping treatment can be carried out by using the design of the third vacuum pump 44, then the second partition plate 33 is opened, so that the infusion bottle can be transferred into the connecting cavity 4 by using the design of the conveyor belt 28, the infusion bottle can be loaded by using the design of the threaded shaft 34 and the first motor 35, and the congestion can be avoided.

As shown in fig. 2 and 3, a limiting assembly 24 for limiting the screen body is annularly installed inside the limiting frame 11, the limiting assembly 24 includes a built-in plate 2401, a connecting block 2402, a hydraulic cylinder 2403 and a positioning plate 2404, the two ends inside the built-in plate 2401 are both provided with the connecting block 2402, one end outside the connecting block 2402 is provided with the hydraulic cylinder 2403, the two hydraulic cylinders 2403 are symmetrically arranged about the center line of the built-in plate 2401, the positioning plate 2404 is arranged outside the tail end of the hydraulic cylinder 2403, one end outside the built-in plate 2401, which is close to the inside of the limiting frame 11, is provided with an electric push rod 25, two ends of one end outside the electric push rod 25 are both provided with a connecting shaft 26, and one end outside the connecting shaft 26 is provided with a fixing rod 27;

can drive the locating plate 2404 in the design of the usable hydraulic cylinder 2403 of transfer process to the infusion bottle and carry out the removal of position, thereby can carry out the centre gripping location to the infusion bottle of conveying, avoid handling many times and transfer in-process infusion bottle production slip, avoid influencing the processing to the infusion bottle, and can utilize the design of first vacuum pump 5 to carry out evacuation processing to the inside of true main part equipment frame 1 according to the use needs in carrying out the course of working to the infusion bottle, guarantee the inside pure degree of main part equipment frame 1, reduce the infusion bottle and receive the possibility of pollution.

In conclusion, when the automatic sealing device for filling the infusion bottle is used, firstly, the second partition plate 33 can be slid into the second electric track 32 when the articles are fed, so that the second partition plate 33 and the connecting cavity 4 are separated, then the first partition plate 31 can be opened, a user can place the infusion bottle to be filled in the placing clamping groove 29 in the conveyor belt 28, after the placing is finished, the first partition plate 31 can be closed, then the vacuum pumping treatment can be carried out by utilizing the design of the third vacuum pump 44, then the second partition plate 33 is opened, so that the infusion bottle can be transferred to the connecting cavity 4 by utilizing the design of the conveyor belt 28, the single feeding treatment can be carried out on the infusion bottle by utilizing the design of the threaded shaft 34 and the first motor 35, the congestion is avoided, then, the nitrogen filling of the infusion bottle to be filled is realized by the first nitrogen filling mechanism 6, and the filling of the infusion bottle after the nitrogen filling is realized by the filling mechanism 10, secondly, the vacuumizing mechanism 13 and the second nitrogen filling mechanism 14 are matched with the capping mechanism 12 to realize the capping of the filled infusion bottle under the protection of nitrogen, finally, the automatic output of the capped infusion bottle is realized through the bottle discharging mechanism 16, when the output infusion bottle is collected, the position of the collecting box 23 can be moved by utilizing the design of the fixed slide rail 40 after the infusion bottle is filled and capped, so that the processed infusion bottle transferred to the outer surface of the conveying belt 41 can be collected through the movement of the position of the collecting box 23, a user does not need to take out the processed infusion bottle singly after the processing is finished, the pollution to the inside of the sealing equipment is reduced, the design of the second hydraulic air rod 42 can be utilized to drive the barrier plate 43 to move up and down, and the infusion bottle transferred to the outer surface of the conveying belt 41 can be retained through the movement of the position of the barrier plate 43, the operation of the conveying belt 41 is avoided, so that the infusion bottle cannot be matched with the collection box 23 after replacement, and the problem that the collection box 23 is full of collected infusion bottles is avoided, the structure is simple, the use by a user is convenient, when the collection box 23 is replaced, the first baffle plate 20 can be firstly slid to the bottom of the first electric slide rail 18 to separate the encapsulation structure area of the infusion bottle from the replacement area of the collection box 23, then the collection box 23 after collection is taken out for replacement, a new collection box 23 is placed between the first baffle plate 20 and the second baffle plate 22, then the two baffle plates 22 can be vacuumized by using the design of the second vacuum pump 19, the first baffle plate 20 is opened after the vacuumization is finished, the problem that the interior of the sealing equipment is polluted when the collection box 23 is replaced is effectively avoided, and finally the sealing equipment can work for a long time, the design of usable second motor 38 drives linking shaft 37 and separates the net 39 and rotate, and separates net 39 four corners and auxiliary plate 2 elastic connection together, thereby can utilize the design that separates net 39 to carry out the separation to outside foreign matter and simultaneously can utilize to separate net 39 and cushion the power that receives when receiving the effect of external force, reduce the damage of local pressure to the inside article of auxiliary plate 2 and do not influence the ventilation radiating effect that separates net 39 simultaneously, and can overhaul when maintaining main body equipment frame 1 inside power component, can pull whole auxiliary plate 2 outside and can make it separate with main body equipment frame 1.