CN217673315U - High-efficiency discharging isolation and subpackage system - Google Patents

Abstract

The utility model relates to a medicine filling technical field provides a partial shipment system is kept apart in high efficiency ejection of compact, including laminar flow car and isolator, the laminar flow car is used for providing the staving for the isolator, sealed rolling slats door is installed to the isolator, the laminar flow car includes, the automobile body has the opening, be provided with sealed rolling slats door on the automobile body, carry the rod, it has a plurality ofly to carry the rod, a plurality ofly carry the rod and all rotate the setting on the automobile body, and carry the rod to arrange along the horizontal direction in proper order, the staving is located carries the rod, the butt joint adhesive tape sets up on the automobile body, butt joint adhesive tape closed loop sets up, the butt joint adhesive tape encircles outside the opening. Through above-mentioned technical scheme, when having solved among the prior art staving from laminar flow car to isolator transport, owing to carry through artifical manual, carry the problem that the environment is unsealed and lead to bringing the pollution easily for aseptic medicine.

Description

High-efficiency discharging isolation and subpackage system

Technical Field

The utility model relates to a medicine filling technical field, it is specific, relate to a partial shipment system is kept apart in high efficiency ejection of compact.

Background

Aseptic medicine refers to the preparation and the bulk drug that have the sterility test project in the legal drug standard, including aseptic preparation and aseptic bulk drug, and the current operation is mostly that the staving is shifted to the isolator with the manual work after laminar flow car and isolator butt joint finish, and the staving station is operated through personnel to shift and the buckle closure process through the gloves after the staving partial shipment finishes, brings the pollution hidden danger for aseptic medicine easily.

SUMMERY OF THE UTILITY MODEL

The utility model provides a partial shipment system is kept apart in high efficiency ejection of compact has solved among the prior art when the staving is carried from laminar flow car to isolator, owing to carry through artifical manual, carries the unsealed problem that leads to bringing the pollution easily for aseptic medicine of environment.

The technical scheme of the utility model as follows:

a high-efficiency discharging, isolating and subpackaging system comprises a laminar flow vehicle and an isolator, wherein the laminar flow vehicle is used for providing a barrel body for the isolator, the isolator is provided with a sealing rolling door, the laminar flow vehicle comprises,

the vehicle body is provided with an opening, a sealing rolling door is arranged on the vehicle body,

a plurality of conveying rollers are arranged on the vehicle body in a rotating manner and are arranged in sequence along the horizontal direction, the barrel body is positioned on the conveying rollers,

and the butt joint rubber strip is arranged on the vehicle body and is arranged in a closed loop, and the butt joint rubber strip surrounds the opening.

As a further technical scheme, the butt joint rubber strip is provided with an annular groove, an opening of the annular groove faces the isolator, the butt joint rubber strip is further provided with a hole and a sealing plug, the hole is communicated with the annular groove, and the sealing plug is positioned on the hole.

As a further technical scheme, a plurality of driving rollers are sequentially and rotatably arranged on the isolator, and the driving rollers sequentially comprise a butt joint station, a filling station, an upper cover station and a packaging station along the direction from the position close to the isolator to the position far away from the isolator body.

As a further technical scheme, the lifting platform is arranged on the isolator in a vertically sliding manner, the lifting platform is located on the docking station, the lifting platform comprises two support plates, the two support plates are arranged in the isolator in a vertically sliding manner, and part of the driving rollers are located between the two support plates.

As a further technical proposal, the powder mixing tank is arranged on the isolator,

the oscillating pipe is arranged in the isolator and communicated with the powder mixing tank, and a discharge hole of the oscillating pipe is positioned above the filling station.

As a further technical scheme, the mechanical arm is arranged in the isolator, the mechanical arm is positioned on the upper cover station, and the mechanical arm is used for placing the barrel cover on the barrel body.

As a further technical scheme, the capping machine is arranged in the isolator, the capping machine is positioned on the packaging station, and the capping machine is used for sealing the barrel cover on the barrel body.

As a further technical scheme, the plurality of isolation plates are arranged in the isolator in a sliding mode along the vertical direction, and are respectively located between the butt joint station and the filling station, between the filling station and the upper cover station, between the upper cover station and the sealing station, and at the outlet of the isolator.

The utility model discloses a theory of operation and beneficial effect do:

in order to solve the problem that the conveying environment is not sealed and the aseptic drugs are easily polluted because the barrel body is conveyed from the laminar flow vehicle to the isolator in the prior art and the conveying environment is not sealed by manual conveying, the utility model is specially provided with a high-efficiency discharging, isolating and subpackaging system which comprises the laminar flow vehicle and the isolator, the laminar flow vehicle and the isolator in the scheme are both provided with a sealing rolling door at the butt joint end, wherein the laminar flow vehicle comprises a vehicle body, a conveying roller and a butt joint adhesive tape, the vehicle body is provided with an opening, the barrel body can be moved out through the opening, meanwhile, the opening is provided with the sealing rolling door, when the laminar flow vehicle is not butted with the isolator, the vehicle body is sealed through the sealing rolling door, the conveying roller is arranged in the vehicle body, the barrel body is placed on the conveying roller, when laminar flow car and isolator dock, can provide power for the removal of staving through carrying the rod, wherein for the delivery capacity that increases the laminar flow car, can be provided with two lines or multirow along the vertical with carrying the rod, in order to guarantee the leakproofness between laminar flow car and the isolator, be provided with the butt joint adhesive tape specially, wherein the butt joint adhesive tape has certain flexibility, when laminar flow car and isolator hug closely, guarantee the leakproofness to the extrusion of butt joint adhesive tape between accessible laminar flow car and the isolator, carry the staving to inside the isolator through the transport rod on the laminar flow car simultaneously, through the setting of above-mentioned spare part, can guarantee the leakproofness of staving when getting into the isolator from the laminar flow car, owing to reduced artifical contact simultaneously, the problem of transport environment to aseptic medicine pollution has been avoided.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the overall three-dimensional structure of the present invention;

fig. 3 is a schematic sectional view of the laminar flow vehicle of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the butt joint rubber strip of the present invention;

FIG. 5 is a schematic view of the structure A of FIG. 4 according to the present invention;

FIG. 6 is a schematic cross-sectional view of the joint strip of the present invention;

FIG. 7 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 8 is a schematic cross-sectional view of the powder mixing tank and the filling station of the present invention;

in the figure: 1. laminar flow car, 2, isolator, 3, bucket body, 4, sealed rolling door, 5, car body, 6, opening, 7, conveying roller, 8, butt joint adhesive tape, 9, ring channel, 10, trompil, 11, drive roller, 12, butt joint station, 13, packing station, 14, upper cover station, 15, encapsulation station, 16, lifting platform, 17, support plate, 18, powder mixing tank, 19, oscillating pipe, 20, mechanical arm, 21, capping machine, 22, division plate, 23, outlet, 24, sealing plug, 25 and barrel cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work, are related to the scope of the present invention.

As shown in fig. 1 to fig. 8, this embodiment provides a high-efficiency discharging isolation and sub-packaging system, which includes a laminar flow vehicle 1 and an isolator 2, where the laminar flow vehicle 1 is configured to provide a barrel 3 for the isolator 2, the isolator 2 is installed with a sealing rolling door 4, the laminar flow vehicle 1 includes,

a vehicle body 5, wherein the vehicle body 5 is provided with an opening 6, the vehicle body 5 is provided with a sealing rolling door 4,

the conveying rollers 7 are provided with a plurality of conveying rollers 7, the plurality of conveying rollers 7 are all rotatably arranged on the vehicle body 5, the conveying rollers 7 are sequentially arranged along the horizontal direction, the barrel body 3 is positioned on the conveying rollers 7,

the butt joint rubber strip 8 is arranged on the vehicle body 5, the butt joint rubber strip 8 is arranged in a closed loop mode, and the butt joint rubber strip 8 surrounds the opening 6.

Aseptic medicine refers to the preparation and the bulk drug that have the sterility test project in the legal drug standard, including aseptic preparation and aseptic bulk drug, and the current operation is mostly that laminar flow car 1 finishes with isolator 2 butt joint back, and the manual work shifts staving 3 to isolator 2 in, use gloves to operate staving 3 station transfer and buckle closure processes through the personnel after staving 3 partial shipment finishes, bring the pollution hidden danger for aseptic medicine easily.

In the embodiment, in order to solve the problem that when the barrel body 3 is conveyed from the laminar flow vehicle 1 to the isolator 2, the conveying environment is not sealed due to manual conveying, so that the aseptic drugs are easily polluted, a high-efficiency discharging, isolating and subpackaging system is specially arranged, wherein the high-efficiency discharging, isolating and subpackaging system comprises the laminar flow vehicle 1 and the isolator 2, the laminar flow vehicle 1 and the isolator 2 in the scheme are both provided with sealing rolling doors 4 at the butt joint ends, the laminar flow vehicle 1 comprises a vehicle body 5, a conveying roller 7 and a butt joint rubber strip 8, the vehicle body 5 is provided with an opening 6, the barrel body 3 can be moved out through the opening 6, the opening 6 is provided with the sealing rolling door 4, when the laminar flow vehicle 1 is not in butt joint with the isolator 2, the vehicle body 5 is sealed through the sealing rolling door 4, the conveying roller 7 is arranged inside the vehicle body 5, and the barrel body 3 is placed on the conveying roller 7, when laminar flow car 1 docks with isolator 2, can provide power for the removal of staving 3 through carrying rod 7, wherein for the delivery capacity that increases laminar flow car 1, can be provided with two lines or multirow along the vertical with carrying rod 7, in order to guarantee the leakproofness between laminar flow car 1 and isolator 2, be provided with butt joint adhesive tape 8 specially, wherein butt joint adhesive tape 8 has certain flexibility, when laminar flow car 1 and isolator 2 hug closely, the leakproofness is guaranteed to butt joint adhesive tape 8's extrusion between accessible laminar flow car 1 and the isolator 2, carry staving 3 to isolator 2 inside through carrying rod 7 on laminar flow car 1 simultaneously, through the setting of above-mentioned spare part, can guarantee the leakproofness of staving 3 when getting into isolator 2 from laminar flow car 1, owing to reduced artifical contact simultaneously, the problem of transport environment to aseptic medicine pollution has been avoided.

Further, the joint strip 8 has an annular groove 9, the annular groove 9 opens to the isolator 2, the joint strip 8 further has a hole 10 and a sealing plug 24, the hole 10 is communicated with the annular groove 9, and the sealing plug 24 is located on the hole 10.

In this embodiment, in order to further increase the sealing performance of the joint rubber strip 8 when the laminar flow vehicle 1 and the isolator 2 are in butt joint, the joint rubber strip 8 is specially arranged in a closed loop manner, and meanwhile, an annular groove 9 is further formed in the joint rubber strip 8, when the laminar flow vehicle 1 is close to the isolator 2 in use, so that the joint rubber strip 8 is in contact with the isolator 2, and meanwhile, the joint rubber strip 8 is extruded along with the laminar flow vehicle 1 continuing to be close to the isolator 2, air in the annular groove 9 is discharged, at this time, due to the action of atmospheric pressure, when the laminar flow vehicle 1 leaves the isolator 2, a negative pressure can be formed in the annular groove 9, so that separation between the laminar flow vehicle 1 and the isolator 2 is prevented, sealing between the laminar flow vehicle 1 and the isolator 2 is ensured, when the laminar flow vehicle 1 and the isolator 2 are required to be separated, an opening 10 and a sealing plug 24 are specially arranged on the joint rubber strip 8, at this time, only the sealing plug 24 needs to be pulled out, the joint rubber strip 8 can realize communication between the annular groove 9 and external air through the opening 10, thereby ensuring that the inside and the outside of the joint rubber strip 8 are equal, and the inside and outside, and outside of the laminar flow vehicle can be separated between the laminar flow vehicle 1 and the isolator 2.

Further, a plurality of driving rollers 11 are sequentially and rotatably arranged on the isolator 2, and the plurality of driving rollers 11 are sequentially provided with a butt joint station 12, a filling station 13, an upper cover station 14 and a packaging station 15 along the direction from the close to the far away from the vehicle body 5.

In order to complete the process of packing and packaging the barrel body 3, a plurality of driving rollers 11 are specially arranged inside the isolator 2, the driving rollers 11 can realize the function of driving the barrel body 3 inside the isolator 2 to move, a docking station 12 is sequentially formed on the driving rollers 11, a packing station 13, an upper cover station 14 and a packaging station 15, wherein the docking station 12 can realize docking between the laminar flow vehicle 1 and the laminar flow device, the packing station 13 can realize the function of packing the barrel body 3, the upper cover station 14 can realize the function of covering the barrel body 3 with the barrel cover 25, and the packaging station 15 can realize the function of sealing the barrel cover 25 and the barrel body 3.

Further, a lifting platform 16 is vertically slidably disposed on the isolator 2, the lifting platform 16 is located on the docking station 12, the lifting platform 16 includes two support plates 17, the two support plates 17 are vertically slidably disposed in the isolator 2, and a part of the driving roller 11 is located between the two support plates 17.

In this embodiment, in order to realize the docking between the laminar flow vehicle 1 and the isolator 2, a lifting platform 16 is specially provided, wherein the lifting platform 16 is provided with two support plates 17, the support plates 17 are vertically slidably disposed inside the isolator 2, the driving rods 11 are disposed between the support plates 17, the support plates 17 and the driving rods 11 disposed on the support plates 17 jointly form the lifting platform 16, and the lifting platform 16 moves vertically to dock the barrel bodies 3 of the laminar flow vehicle 1 at different heights.

Further, a powder mixing tank 18 is provided on the separator 2,

the oscillating pipe 19 is arranged in the isolator 2, the oscillating pipe 19 is communicated with the powder mixing tank 18, and a discharge hole of the oscillating pipe 19 is positioned above the filling station 13.

In order to realize the function of filling in this embodiment, be provided with specially and mix powder jar 18, mix powder jar 18 and set up on isolator 2, its inside has aseptic medicine, still is provided with oscillating tube 19, and oscillating tube 19 controls the ejection of compact of aseptic medicine through its own vibrations to the export 23 of oscillating tube 19 is located the top of filling station 13, and after staving 3 moved to filling station 13, oscillating tube 19 filled aseptic medicine to staving 3.

Further, a mechanical arm 20 is arranged in the isolator 2, the mechanical arm 20 is located on the upper cover station 14, and the mechanical arm 20 is used for placing the cover 25 on the barrel body 3.

In order to realize the capping process for the barrel body 3, a mechanical arm 20 is specially provided in the embodiment, the mechanical arm 20 is disposed in the isolator 2, and the barrel cover 25 inside the moving member isolator 2 of the mechanical arm 20 covers the barrel body 3.

Further, a capping machine 21 is disposed in the isolator 2, the capping machine 21 is located at the encapsulation station 15, and the capping machine 21 is configured to seal the barrel cover 25 on the barrel 3.

In order to realize the sealing between the barrel cover 25 and the barrel body 3, a capping machine 21 is specially arranged in the embodiment, wherein the capping machine 21 is arranged in the isolator 2, the capping machine 21 adopted in the scheme is a high-precision aluminum barrel rapid capping machine 21, and the barrel cover 25 is subjected to necking operation along the barrel cover by adopting an extrusion mode, so that the sealing function can be realized, and the capping efficiency is greatly improved compared with that of a traditional rotary capping machine.

Further, a plurality of isolation plates 22 are provided, a plurality of isolation plates 22 are vertically and slidably arranged in the isolator 2, and the isolation plates 22 are respectively located between the docking station 12 and the filling station 13, between the filling station 13 and the upper cover station 14, between the upper cover station 14 and the packaging station 15, and at an outlet 23 of the isolator 2.

In order to achieve that all stations are not interfered with each other, the partition plates 22 are specially arranged in the embodiment, a plurality of partition plates 22 are arranged, the partition plates 22 are arranged between adjacent stations, and when the barrel 3 needs to move, the corresponding partition plates 22 are lifted to be opened, so that the barrel 3 passes through, and after the passing, the partition plates 22 are descended and closed, wherein in order to ensure that the reprocessed barrel 3 smoothly leaves the isolator 2, an outlet 23 is specially arranged on the barrel 3, the partition plates 22 are also arranged at the outlet 23, and the partition plates 22 have the function of communicating or closing the packaging station 15 with the outside.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the present invention.

Claims (8)

1. A high-efficiency discharging isolation and sub-packaging system comprises a laminar flow vehicle (1) and an isolator (2), wherein the laminar flow vehicle (1) is used for providing a barrel body (3) for the isolator (2), the high-efficiency discharging isolation and sub-packaging system is characterized in that a sealing rolling door (4) is installed on the isolator (2), the laminar flow vehicle (1) comprises,

the vehicle body (5), the vehicle body (5) is provided with an opening (6), the vehicle body (5) is provided with a sealing rolling door (4),

the conveying rollers (7) are provided with a plurality of conveying rollers (7), the conveying rollers (7) are all rotatably arranged on the vehicle body (5), the conveying rollers (7) are sequentially arranged along the horizontal direction, the barrel body (3) is positioned on the conveying rollers (7),

the butt joint rubber strip (8), the butt joint rubber strip (8) set up on automobile body (5), butt joint rubber strip (8) closed loop sets up, butt joint rubber strip (8) encircle be in outside opening (6).

2. A high efficiency outfeed isolated racking system as claimed in claim 1 wherein said docking gel strip (8) has an annular groove (9), said annular groove (9) opening into said isolator (2), said docking gel strip (8) further having an opening (10) and a sealing plug (24), said opening (10) communicating with said annular groove (9), said sealing plug (24) being located on said opening (10).

3. A high efficiency discharging isolated split charging system according to claim 1, wherein the isolator (2) is provided with a plurality of driving rollers (11) in turn, and the plurality of driving rollers (11) are provided with a butt joint station (12), a filling station (13), an upper cover station (14) and a packaging station (15) in turn along the direction from the close to the far away from the vehicle body (5).

4. A high efficiency outfeed isolated racking system as claimed in claim 3 further comprising a lift platform (16), said lift platform (16) being vertically slidably disposed on said isolator (2), said lift platform (16) being located at said docking station (12), said lift platform (16) comprising two support plates (17), said two support plates (17) being vertically slidably disposed within said isolator (2), a portion of said drive roller (11) being located between said two support plates (17).

5. A high efficiency outfeed isolated racking system as claimed in claim 3 further comprising,

a powder mixing tank (18), the powder mixing tank (18) being arranged on the isolator (2),

the oscillating pipe (19) is arranged in the isolator (2), the oscillating pipe (19) is communicated with the powder mixing tank (18), and a discharge hole of the oscillating pipe (19) is positioned above the filling station (13).

6. A high efficiency tapping isolation racking system as claimed in claim 3 further comprising a robotic arm (20), said robotic arm (20) being disposed within said isolator (2), said robotic arm (20) being located at said capping station (14), said robotic arm (20) being adapted to place a lid (25) onto the drum (3).

7. A high efficiency outfeed isolated racking system as claimed in claim 6 further comprising a capping machine (21), said capping machine (21) being disposed within said isolator (2), said capping machine (21) being located at said packaging station (15), said capping machine (21) being adapted to seal a lid (25) to said drum (3).

8. A high efficiency discharging isolated racking system according to claim 3 further comprising a plurality of isolation plates (22), said isolation plates (22) being vertically slidably disposed within said isolator (2), said isolation plates (22) being located between said docking station (12) and said filling station (13), between said filling station (13) and said capping station (14), between said capping station (14) and said packaging station (15), and at said isolator (2) outlet (23), respectively.

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