CN114604478A

CN114604478A - Syringe detects equipment for packing

Info

Publication number: CN114604478A
Application number: CN202210304050.3A
Authority: CN
Inventors: 黄萍
Original assignee: Nanjing Jason Mechanical Equipment Co ltd
Current assignee: Qingdao Central Hospital
Priority date: 2022-03-25
Filing date: 2022-03-25
Publication date: 2022-06-10
Anticipated expiration: 2042-03-25
Also published as: CN114604478B

Abstract

The invention belongs to the technical field of packaging of medical instruments, and particularly relates to syringe detection and packaging equipment which comprises a box body, wherein a funnel is fixedly arranged at the inclined end of the box body, and a packaging part is arranged below the inner part of the box body; the packing part includes two packing groups, and packing group contains and is equipped with two sliding shafts, and the peripheral cover of two sliding shafts is equipped with two and rotates the sleeve, is equipped with two suction chambers between two sliding shafts and two rotation sleeves, and the circumferencial direction that rotates the sleeve slides and is equipped with the flexible heating block of a plurality of, and suction chamber and rotation sleeve external connection are equipped with a plurality of suction channel, are equipped with the wrapping bag between two rotation sleeves. The invention can perform gas disinfection on the interior of the inner injector while performing alignment and gas tightness detection on the injector, performs gas disinfection and gas tightness detection on the packaging bag, and improves the sealing property of the packaging bag.

Description

Syringe detects equipment for packing

Technical Field

The invention belongs to the technical field of packaging of medical instruments, and particularly relates to syringe detection packaging equipment.

Background

Disposable syringes have found widespread use due to their advantages of convenience of use, safety and hygiene. The finished product of the syringe generally consists of a syringe and a needle seat, wherein the syringe comprises a barrel body, an injection rod and a rubber plug, the rubber plug is movably connected in the barrel body, and one end of the rubber plug is sleeved at the end part of the injection rod. The method comprises the following steps that firstly, an injector needs to be placed at the same end when the injector packaging equipment packages the injection, and the interior of the injector needs to be sterilized and subjected to airtight detection and then is subjected to sealed packaging; the existing syringe packaging equipment cannot detect and package the disposable syringe more efficiently.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a syringe detection packaging device which can perform gas disinfection on the inside of an inner syringe while performing alignment and air tightness detection on the syringe, and is beneficial to improving the efficiency of syringe detection packaging.

The purpose of the invention can be realized by the following technical scheme: the syringe detecting and packaging equipment comprises a box body, wherein a funnel is fixedly arranged at the inclined end of the box body, and a packaging part is arranged below the inside of the box body; the packing component includes two packing groups, packing group contains and is equipped with two sliding shafts, the peripheral cover of two sliding shafts is equipped with two and rotates the sleeve, be equipped with two chambeies of breathing in between two sliding shafts and two rotation sleeves, it is equipped with the flexible heating piece of a plurality of to rotate telescopic circumferencial direction slip, the chamber of breathing in is equipped with a plurality of passageway of breathing in with rotation sleeve external connection, two are rotated and are equipped with the wrapping bag between the sleeve, two sliding shafts rotate sliding connection in the inside of box, the inside of box rotates in the centre of two packing groups and is equipped with the pivot, the peripheral cover of pivot has a plurality of packing bag.

Preferably, a detection part is arranged above the packaging part in the box body; the detection component comprises a first motor, the first motor is fixed on one side of the outer part of the box body, a first rotating column is fixedly arranged on the first motor towards the inner direction of the box body, the first rotating column penetrates through the two sides of the box body to be connected in a rotating mode, a first rotating cylinder is sleeved on the outer circumferential surface of the first rotating column, three clamping channels are arranged in the circumferential direction of the first rotating cylinder, a second motor is fixedly arranged on the outer part of the box body below the first motor in a tilting mode, a second rotating column is fixedly arranged on the second motor towards the inner direction of the box body, a second rotating cylinder is sleeved on the outer circumferential surface of the second rotating column, three clamping channels are arranged in the circumferential direction of the second rotating cylinder, a connecting plate is fixedly connected between the first rotating cylinder and the second rotating cylinder, the connecting plate is connected with the first rotating cylinder and the second rotating cylinder in a rotating mode, the connecting plate is fixed in the inner part of the box body, and two packaging sets are positioned in the first rotating cylinder, right below the second rotary cylinder.

Preferably, the first rotating column is provided with a sterilizing component in the circumferential direction; the disinfection part includes the ethylene oxide chamber, the ethylene oxide chamber is located the inside of first rotation post, the circumferencial direction of first rotation post is equipped with three disinfection chamber, it has set firmly three air outlet valve to be connected between ethylene oxide chamber and the three disinfection chamber, the inside of first rotation post slides in the both sides in disinfection chamber and is equipped with two ball pieces, the disinfection chamber direction of keeping away from of two ball pieces has set firmly two briquettings, it is equipped with two second interface channel to be connected between two ball piece rear sides and the disinfection chamber, the ethylene oxide chamber is equipped with a plurality of air outlet channel with the external connection of first rotation section of thick bamboo, the inner structure that the post was rotated to the second is the same with the inner structure of first rotation post.

Preferably, a detection component is arranged inside the first rotating cylinder; the detection part comprises a sliding ring, the sliding ring is connected with the inner sliding part of the clamping channel in a sliding manner, two arc-shaped sliding blocks are arranged on two sides of the inner part of the sliding ring in a sliding manner, two sliding blocks are fixedly arranged on two sides of the sliding ring and connected with the first rotating cylinder in a sliding manner, two hydraulic telescopic blocks are fixedly arranged on two sides of the middle of the clamping channel in the first rotating cylinder, and two semicircular blocks are fixedly arranged on the two hydraulic telescopic blocks in the direction of the clamping channel.

Preferably, two sliders have set firmly two hydraulic stretching posts to hydraulic stretching piece direction, the inside of first rotating cylinder is kept away from centre gripping passageway direction at two hydraulic stretching pieces and is equipped with two rotation groups, rotation group is by the fixed cylinder, the axis of rotation, the dwang is constituteed, be connected between the inside of two rotation groups and the inside of two hydraulic stretching posts, the inside of two rotation groups and the internal connection of two hydraulic stretching pieces, the inside slip of two hydraulic stretching pieces is equipped with two sliding plates, the inside of sliding plate has the check valve of two opposite actions, the outside effect of check valve of the inside top of sliding plate, the inside below check valve of sliding plate is internal-acting, it is equipped with two first connecting channel to be connected between the rear side of two sliding plates and the briquetting, the inside of box is at first rotating cylinder, second rotating cylinder both sides have set firmly two recovery barrels.

Preferably, the inside of the box body is provided with an inspection part below the packaging part; the inspection part comprises a third motor, the third motor is located outside the box body, a conveying mechanism is fixedly arranged in the third motor towards the inner direction of the box body, the conveying mechanism is rotatably connected inside the box body, and the conveying mechanism penetrates out of two sides outside the box body and is rotatably provided with two fixing plates.

Preferably, a rotating shaft is rotatably arranged above the conveying mechanism in the box body, a rotating rod is rotatably arranged at the upper end of the outer circumferential surface of the rotating shaft, a fixed shaft is fixedly arranged at the inclined lower end of the rotating rod, a fixed block is fixedly arranged between the rotating shaft and the fixed shaft at the lower end of the rotating rod, and the fixed block is in contact with the upper end of the conveying mechanism.

Has the advantages that:

1. through the cooperation setting of conveying part, detection part, disinfection part, the inside of interior syringe carries out gaseous disinfection effect when putting right and carrying out the gas tightness detection to the syringe, is favorable to improving the efficiency that the syringe detected the packing.

2. Through the cooperation setting of packing part and disinfection part, carry out the detection of gaseous disinfection and gas tightness to the wrapping bag, improve the leakproofness of wrapping bag packing.

3. Through the setting of inspection part, detect sealed syringe, prevent that the packing of gas leakage from conveying out, influence the use.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic isometric view of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic sectional view at a-a in fig. 2.

Fig. 4 is a schematic view of a portion B in fig. 3.

Fig. 5 is a schematic view of a portion C in fig. 3.

Fig. 6 is a schematic view of a portion of fig. 3 at D.

In the figure, a box body 10, a conveying part 11, a detecting part 12, a sterilizing part 13, a packaging part 14, an inspecting part 15, a funnel 16, a first motor 17, a first rotating column 18, a first rotating cylinder 19, a second motor 20, a second rotating column 21, a second rotating cylinder 22, a clamping detecting group 23, a clamping channel 24, a slip ring 25, an arc-shaped slide block 26, a slide block 27, a hydraulic telescopic column 28, a semicircular block 29, a hydraulic telescopic block 30, a slide plate 31, a rotating group 32, a rotating shaft 33, a rotating rod 34, a fixed shaft 35, a fixed block 36, an ethylene oxide cavity 37, a sterilizing cavity 38, an air outlet valve 39, a ball block 40, a pressing block 41, a first connecting channel 42, a second connecting channel 43, an air outlet channel 44, a packaging group 45, a sliding shaft 46, a rotating sleeve 47, a telescopic heating block 48, an air suction cavity 49, an air suction channel 50, a packaging bag 51, a rotating shaft 52, a conveying mechanism 53, a third motor 54, a funnel 16, a funnel 17, a first rotating cylinder 29, a second rotating cylinder 19, a rotating cylinder 29, a rotating shaft, a rotating, A fixing plate 55, a recovery cylinder 56 and a connecting plate 57.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-6, a syringe detecting and packaging device comprises a box body 10, wherein a funnel 16 is fixedly arranged at an inclined end of the box body 10, and a packaging component 14 is arranged below the inside of the box body 10; the packaging component 14 comprises two packaging groups 45, each packaging group 45 comprises two sliding shafts 46, two rotating sleeves 47 are sleeved on the peripheries of the two sliding shafts 46, two air suction cavities 49 are arranged between the two sliding shafts 46 and the two rotating sleeves 47, a plurality of telescopic heating blocks 48 are arranged on the circumferential direction of the rotating sleeves 47 in a sliding mode, a plurality of air suction channels 50 are arranged on the air suction cavities 49 and the rotating sleeves 47 in an external connection mode, packaging bags 51 are arranged between the two rotating sleeves 47, the two sliding shafts 46 are connected inside the box body 10 in a rotating mode, a rotating shaft 52 is arranged in the box body 10 in the middle of the two packaging groups 45 in a rotating mode, and a plurality of packaging bags 51 are sleeved on the periphery of the rotating shaft 52.

Further, with reference to fig. 1-6, the interior of the case 10 is provided with a detecting member 12 above the packing member 14; the detection component 12 comprises a first motor 17, the first motor 17 is fixed on one side of the outer portion of the box 10, the first motor 17 is fixedly provided with a first rotating column 18 towards the inner direction of the box 10, the first rotating column 18 penetrates through two sides of the box 10 to be rotatably connected, a first rotating cylinder 19 is sleeved on the outer circumferential surface of the first rotating column 18, three clamping channels 24 are arranged in the circumferential direction of the first rotating cylinder 19, a second motor 20 is fixedly arranged on the outer portion of the box 10 below the first motor 17 in an inclined manner, a second rotating cylinder 21 is fixedly arranged on the second motor 20 towards the inner direction of the box 10, a second rotating cylinder 22 is sleeved on the outer circumferential surface of the second rotating cylinder 21, three clamping channels 24 are arranged in the circumferential direction of the second rotating cylinder 22, a connecting plate 57 is fixedly connected between the first rotating cylinder 19 and the second rotating cylinder 22, the connecting plate 57 is rotatably connected with the first rotating cylinder 19 and the second rotating cylinder 22, and the connecting plate 57 is fixed in the box 10, two packing groups 45 are located directly below the first rotary cylinder 19 and the second rotary cylinder 22.

Further, with reference to fig. 1 to 6, the first rotating column 18 is provided with a sterilizing member 13 in a circumferential direction; the disinfection component 13 comprises an ethylene oxide cavity 37, the ethylene oxide cavity 37 is located inside the first rotating column 18, three disinfection cavities 38 are arranged in the circumferential direction of the first rotating column 18, three air outlet valves 39 are fixedly connected between the ethylene oxide cavity 37 and the three disinfection cavities 38, two ball blocks 40 are arranged in the first rotating column 18 in a sliding mode on two sides of the disinfection cavities 38, two pressing blocks 41 are fixedly arranged in the two ball blocks 40 in the direction away from the disinfection cavities 38, two second connecting channels 43 are arranged between the rear sides of the two ball blocks 40 and the disinfection cavities 38 in a connecting mode, a plurality of air outlet channels 44 are arranged in the ethylene oxide cavity 37 and the first rotating column 19 in an external connecting mode, and the internal structure of the second rotating column 21 is the same as the internal structure of the first rotating column 18.

Further, with reference to fig. 1 to 6, the first rotary cylinder 19 is provided with a detecting member 12 inside; the detection part 12 comprises a sliding ring 25, the sliding ring 25 is connected with the inside of the clamping channel 24 in a sliding manner, two arc-shaped sliding blocks 26 are arranged on two sides of the inside of the sliding ring 25 in a sliding manner, two sliding blocks 27 are fixedly arranged on two sides of the sliding ring 25, the two sliding blocks 27 are connected with the inside of the first rotating cylinder 19 in a sliding manner, two hydraulic telescopic blocks 30 are fixedly arranged on two sides of the middle of the clamping channel 24 in the inside of the first rotating cylinder 19, and two semicircular blocks 29 are fixedly arranged on the two hydraulic telescopic blocks 30 in the direction towards the clamping channel 24.

Further, referring to fig. 1-6, two hydraulic telescopic columns 28 are fixedly arranged on the two sliding blocks 27 in the direction of the hydraulic telescopic blocks 30, two rotating groups 32 are arranged in the first rotating cylinder 19 in the direction of the two hydraulic telescopic blocks 30 away from the clamping channel 24, each rotating group 32 is composed of a fixed cylinder, a rotating shaft and a rotating rod, the interiors of the two rotating groups 32 are connected with the interiors of the two hydraulic telescopic columns 28, the interiors of the two rotating groups 32 are connected with the interiors of the two hydraulic telescopic blocks 30, two sliding plates 31 are slidably arranged in the interiors of the two hydraulic telescopic blocks 30, two check valves with opposite actions are arranged in the sliding plates 31, the check valve above the interior of the sliding plate 31 is outwards acted, the check valve below the interior of the sliding plate 31 is inwards acted, two first connecting channels 42 are arranged between the rear sides of the two sliding plates 31 and the pressing block 41, and two first connecting channels 42 are arranged in the first rotating cylinder 19, in the box 10, Two recycling cylinders 56 are fixedly arranged at two sides of the second rotary cylinder 22.

Further, with reference to fig. 1 to 6, an inspection part 15 is provided inside the casing 10 below the packing part 14; the inspection part 15 comprises a third motor 54, the third motor 54 is located outside the box 10, a transmission mechanism 53 is fixedly arranged on the third motor 54 towards the inner direction of the box 10, the transmission mechanism 53 is rotatably connected inside the box 10, and two fixing plates 55 are rotatably arranged on the transmission mechanism 53 penetrating through two sides of the outer side of the box 10.

Further, referring to fig. 1 to 6, a rotating shaft 33 is rotatably provided above the conveying mechanism 53 in the case 10, a rotating rod 34 is rotatably provided at an upper end of an outer circumferential surface of the rotating shaft 33, a fixed shaft 35 is fixedly provided at an inclined lower end of the rotating rod 34, a fixed block 36 is fixedly provided at a lower end of the rotating rod 34 between the rotating shaft 33 and the fixed shaft 35, and the fixed block 36 is in contact with an upper end of the conveying mechanism 53.

Principle of operation

A worker puts a produced syringe into the box body 10 through the funnel 16, the first motor 17 is started to drive the first rotating column 18 to rotate, the first rotating column 18 rotates to drive the first rotating cylinder 19 to rotate, the first rotating cylinder 19 rotates to drive the clamping channel 24 to rotate to correspond to the inclined lower part of the funnel 16, the syringe sequentially and obliquely enters the three clamping channels 24, the syringe with the injection end entering the disinfection cavity 38 extrudes and slides towards two sides through the two ball blocks 40, the two ball blocks 40 slide to drive the two pressing blocks 41 to slide and extrude towards two sides in the two first connecting channels 42 to extrude solution in the two first connecting channels 42 to push the two sliding plates 31 to slide in the two hydraulic telescopic blocks 30, the two sliding plates 31 slide in the two hydraulic telescopic blocks 30 to enable the inward acting check valves in the two sliding plates 31 to be connected with the inside of the two rotating groups 32, two rotating shafts in two rotating groups 32 are driven to rotate by an induction motor, the rotating shafts rotate to drive the rotating rods to be matched with the rotating cylinders to fix so that the solution in the rotating cylinders enters two hydraulic telescopic blocks 30, the two hydraulic telescopic blocks 30 stretch and push two semicircular blocks 29 to clamp the syringe, the solution in the two rotating groups 32 which is discharged out of two cavities is connected with the two rotating groups 32 through two hydraulic telescopic columns 28, the solution in the two hydraulic telescopic columns 28 enters the two rotating groups 32 to supplement the solution in one cavity, the two rotating groups 32 are internally provided with a cavity and three solution cavities, the two hydraulic telescopic columns 28 shrink to drive two sliding blocks 27 to slide towards a disinfection cavity 38 in the first rotating cylinder 19, the two arc-shaped sliding blocks 26 slide towards the middle direction in the sliding ring 25 to clamp the piston rod, and the rotating rods are driven to rotate through the rotating shafts to enable the solution in the solution cavities to enter the two hydraulic telescopic columns 28, the two hydraulic telescopic columns 28 extend out to drive the two sliding blocks 27 to slide outwards in the first rotating cylinder 19, the two sliding blocks 27 slide to drive the sliding ring 25 to slide, the sliding ring 25 is in sliding fit with the two arc-shaped sliding blocks 26 to clamp the piston rod to drive the piston rod to slide outwards, the piston rod slides outwards to drive the injector to suck air into the injection end, ethylene oxide in the ethylene oxide cavity 37 is discharged through the air outlet valve 39 and enters the injector, and the airtightness of the injector is detected by wrapping the semicircular blocks 29 outside the injector.

The first motor 17 is started anticlockwise to drive the first rotating column 18 to rotate, the first rotating column 18 rotates anticlockwise to drive the first rotating cylinder 19 to rotate, the first rotating cylinder 19 rotates anticlockwise to drive the clamping channel 24 to rotate to drive the connecting plate 57, the first motor 17 stops, the injector with the outward injection end enters the sliding ring 25 in the second rotating cylinder 22 through the connecting plate 57 to clamp the tightness of the injector, if the injector leaks air, the two semicircular blocks 29 contract through the two hydraulic telescopic blocks 30 to release the injector, the first motor 17 is started clockwise to drive the first rotating column 18 to rotate, the first rotating column 18 rotates clockwise to drive the first rotating cylinder 19 to rotate, the first rotating cylinder 19 rotates clockwise to drive the clamping channel 24 to rotate to drive the recovery cylinder 56 to incline upwards, the first motor 17 stops, the leaked air injector in the clamping channel 24 inclines downwards to enter the recovery cylinder 56 to be recovered, the second motor 20 is started to drive the second rotating column 21 to rotate, the second rotating column 21 rotates to drive the second rotating cylinder 22 to rotate, the second rotating cylinder 22 rotates to drive the clamping channel 24 in the second rotating cylinder 22 to rotate to the inclined upper part of the recovery cylinder 56, and the air leakage injector in the clamping channel 24 in the second rotating cylinder 22 inclines and slides downwards to enter the recovery cylinder 56 for recovery.

The rotating shafts in the two rotating groups 32 rotate to suck the solution in the two hydraulic telescopic columns 28 into the two rotating groups 32, the two hydraulic telescopic columns 28 contract to drive the two sliding blocks 27 to slide in the two first rotating cylinders 19, the two sliding blocks 27 slide to drive the sliding ring 25 to slide inwards, the sliding ring 25 slides inwards to drive the piston rod to extrude the ethylene oxide in the injector into the injector through the two arc-shaped sliding blocks 26, the ethylene oxide in the injector is sprayed out to enter the rear sides of the two ball blocks 40 through the two second connecting channels 43 to extrude and slide out the two ball blocks 40, the two ball blocks 40 slide towards the middle to drive the two pressing blocks 41 to slide towards the middle, the two pressing blocks 41 slide towards the middle to pump back the solution in the two first connecting channels 42, the two sliding plates 31 slide in the two hydraulic telescopic blocks 30 to connect the outward one-way valves on the two sliding plates 31 with the inner parts of the two rotating groups 32, and the solution in the two hydraulic telescopic blocks 30 enters the two rotating groups 32 to supplement four rotating groups 32 In the solution cavity, the two arc-shaped sliding blocks 26 slide towards two sides in the sliding ring 25, the solution in the two rotating groups 32 enters the two hydraulic telescopic columns 28, the two hydraulic telescopic columns 28 stretch and drive the two sliding blocks 27 to slide in the first rotating cylinder 19, the two sliding blocks 27 slide and drive the two sliding rings 25 to slide outwards, and the two hydraulic telescopic blocks 30 contract and drive the two semicircular blocks 29 to move to loosen the injector.

The sliding shafts 46 slide in the box body 10 to drive the rotating sleeves 47 to move to drive one side of the rotating shaft 52, the air suction cavity 49 pulls the packaging bags 51 off the rotating shaft 52 through the air suction channel 50, the two sliding shafts 46 are in sliding fit with the air suction cavity 49 in the box body 10 to suck and open the packaging bags 51 through the air suction channel 50, ethylene oxide in the ethylene oxide cavity 37 enters the packaging bags 51 in the packaging groups 45 through the air outlet channel 44 to sterilize the packaging bags 51 and drive the two rotating sleeves 47 to extrude towards the middle through the two sliding shafts 46 to detect the air tightness of the packaging bags 51, the packaging bags 51 with good air tightness are left, the first motor 17 and the second motor 20 are started to drive the syringes in the first rotating barrel 19 and the second rotating barrel 22 to fall into the packaging bags 51 with good air tightness in the two packaging groups 45, the two sliding shafts 46 slide in the box body 10 to drive the two rotating sleeves 47 to slide towards the middle to extrude the two ends of the packaging bags 51 together, the two sliding shafts 46 rotate to drive the two rotating sleeves 47 to rotate, and the telescopic heating block 48 telescopically heats and seals the upper end of the packaging bag 51.

The packed syringe falls to the upper end of transport mechanism 53, third motor 54 starts to drive transport mechanism 53 and rotates the syringe that is packed and conveys, the syringe that is packed makes fixed axle 35 rotate around pivot 33 and opens the contact of fixed block 36 with transport mechanism 53 through squeezing fixed axle 35, the syringe that will pack conveys out of box 10, syringe packing mouth does not have sealed good gas leakage, transport mechanism 53 rotates and drives the syringe conveying, the syringe touches fixed axle 35, because the height that fixed axle 35 rotated around pivot 33 with the wrapping bag gas leakage and makes fixed block 36 lift up can not make the syringe repack through the direction both sides.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The injector detecting and packaging equipment comprises a box body (10), and is characterized in that a funnel (16) is fixedly arranged at the inclined end of the box body (10), and a packaging component (14) is arranged below the inside of the box body (10); the packaging component (14) comprises two packaging groups (45), the packaging groups (45) comprise two sliding shafts (46), two rotating sleeves (47) are sleeved on the peripheries of the two sliding shafts (46), two air suction cavities (49) are arranged between the two sliding shafts (46) and the two rotating sleeves (47), a plurality of telescopic heating blocks (48) are arranged in the circumferential direction of the rotating sleeve (47) in a sliding way, the air suction cavity (49) and the outer part of the rotating sleeve (47) are connected and provided with a plurality of air suction channels (50), a packaging bag (51) is arranged between the two rotating sleeves (47), the two sliding shafts (46) are connected in a rotating and sliding manner in the box body (10), a rotating shaft (52) is rotatably arranged in the box body (10) between the two packaging groups (45), and a plurality of packaging bags (51) are sleeved on the periphery of the rotating shaft (52).

2. The syringe testing and packaging apparatus of claim 1, wherein: a detection part (12) is arranged above the packaging part (14) in the box body (10); the detection part (12) comprises a first motor (17), the first motor (17) is fixed on one side of the outside of the box body (10), the first motor (17) is fixedly provided with a first rotating column (18) towards the inside direction of the box body (10), the first rotating column (18) penetrates out of the two sides of the box body (10) to be rotatably connected, a first rotating cylinder (19) is sleeved on the outer circumferential surface of the first rotating column (18), three clamping channels (24) are arranged in the circumferential direction of the first rotating cylinder (19), a second motor (20) is fixedly arranged below the inclination of the first motor (17) outside the box body (10), a second rotating cylinder (21) is fixedly arranged in the inside direction of the box body (10) by the second motor (20), a second rotating cylinder (22) is sleeved on the outer circumferential surface of the second rotating cylinder (21), and three clamping channels (24) are arranged in the circumferential direction of the second rotating cylinder (22), the packaging box is characterized in that a connecting plate (57) is fixedly connected between the first rotating cylinder (19) and the second rotating cylinder (22), the connecting plate (57) is rotatably connected with the first rotating cylinder (19) and the second rotating cylinder (22), the connecting plate (57) is fixed inside the box body (10), and the two packaging groups (45) are located under the first rotating cylinder (19) and the second rotating cylinder (22).

3. The syringe testing and packaging apparatus of claim 2, wherein: a disinfection component (13) is arranged in the circumferential direction of the first rotating column (18); the sterilizing part (13) comprises an ethylene oxide chamber (37), the ethylene oxide chamber (37) is positioned inside the first rotating column (18), three disinfection cavities (38) are arranged in the circumferential direction of the first rotating column (18), three air outlet valves (39) are fixedly connected between the ethylene oxide cavity (37) and the three disinfection cavities (38), two ball blocks (40) are arranged inside the first rotating column (18) in a sliding way at two sides of the disinfection cavity (38), two pressing blocks (41) are fixedly arranged on the two ball blocks (40) in the direction away from the disinfection cavity (38), two second connecting channels (43) are connected between the rear sides of the two ball blocks (40) and the disinfection cavity (38), a plurality of air outlet channels (44) are connected and arranged between the ethylene oxide cavity (37) and the outside of the first rotating cylinder (19), the internal structure of the second rotary column (21) is the same as that of the first rotary column (18).

4. A syringe testing and packaging apparatus according to claim 3, wherein: a detection component (12) is arranged in the first rotating cylinder (19); the detection part (12) comprises a sliding ring (25), the sliding ring (25) is connected with the inside of the clamping channel (24) in a sliding mode, two arc-shaped sliding blocks (26) are arranged on two sides of the inside of the sliding ring (25) in a sliding mode, two sliding blocks (27) are fixedly arranged on two sides of the sliding ring (25), the two sliding blocks (27) are connected with the first rotating cylinder (19) in a sliding mode, two hydraulic telescopic blocks (30) are fixedly arranged on two sides of the middle of the clamping channel (24) inside the first rotating cylinder (19), and two semicircular blocks (29) are fixedly arranged on the two hydraulic telescopic blocks (30) in the direction towards the clamping channel (24).

5. The syringe testing and packaging apparatus of claim 4, wherein: the two sliding blocks (27) are fixedly provided with two hydraulic telescopic columns (28) towards a hydraulic telescopic block (30), two rotating groups (32) are arranged in the first rotating cylinder (19) in the direction that the two hydraulic telescopic blocks (30) are far away from the clamping channel (24), each rotating group (32) consists of a fixed cylinder, a rotating shaft and a rotating rod, the interiors of the two rotating groups (32) are connected with the interiors of the two hydraulic telescopic columns (28), the interiors of the two rotating groups (32) are connected with the interiors of the two hydraulic telescopic blocks (30), two sliding plates (31) are arranged in the two hydraulic telescopic blocks (30) in a sliding mode, two check valves with opposite effects are arranged in the sliding plates (31), the check valves above the interiors of the sliding plates (31) act outwards, and the check valves below the interiors of the sliding plates (31) act inwards, two first connecting channels (42) are connected between the rear sides of the two sliding plates (31) and the pressing block (41), and two recovery cylinders (56) are fixedly arranged in the box body (10) at two sides of the first rotating cylinder (19) and the second rotating cylinder (22).

6. The syringe testing and packaging apparatus of claim 1, wherein: an inspection part (15) is arranged below the packaging part (14) in the box body (10); the inspection part (15) comprises a third motor (54), the third motor (54) is located outside the box body (10), a conveying mechanism (53) is fixedly arranged in the third motor (54) towards the inner direction of the box body (10), the conveying mechanism (53) is rotatably connected inside the box body (10), and the conveying mechanism (53) penetrates through two sides of the outer portion of the box body (10) and is rotatably provided with two fixing plates (55).

7. The syringe testing and packaging apparatus of claim 6, wherein: the inside of box (10) is rotated in the top of transport mechanism (53) and is equipped with pivot (33), the outer periphery upper end of pivot (33) is rotated and is equipped with dwang (34), the slope lower extreme of dwang (34) has set firmly fixed axle (35), the lower extreme of dwang (34) has set firmly fixed block (36) between pivot (33) and fixed axle (35), the upper end contact of fixed block (36) and transport mechanism (53).