CN204079449U - A kind of on line freeze-drying system based on multiple stage freeze dryer and lyophilized formulations manufacturing line - Google Patents

Abstract

The utility model discloses a kind of on line freeze-drying system based on multiple stage freeze dryer and lyophilized formulations manufacturing line.Based on the online freeze-drying system of multiple stage freeze dryer, comprise multiple stage freeze dryer, described freeze dryer bottle inlet mouth, bottle outlet are positioned at the same side and upper and lower layered arrangement, described bottle inlet mouth is equipped with bottle inlet push rod, described bottle outlet is equipped with bottle outlet push rod, described each bottle inlet mouth is connected to same bottle inlet load-transfer device by bottle inlet bridge plate mechanism, and described each bottle outlet is connected to same bottle outlet load-transfer device by bottle outlet bridge plate mechanism.Lyophilized formulations manufacturing line comprises filling and stopper-adding system and roll convering system, described filling and stopper-adding system and roll between convering system and be provided with the above-mentioned on line freeze-drying system based on multiple stage freeze dryer.The utility model has the advantage that structure is simple, production efficiency is high.

Description

A kind of on line freeze-drying system based on multiple stage freeze dryer and lyophilized formulations manufacturing line

Technical field

The utility model relates generally to food, medical packaging mechanical field, refers in particular to the on line freeze-drying system based on multiple stage freeze dryer and lyophilized formulations manufacturing line.

Background technology

In order to improve the degree of automation of freeze dryer, existing freeze dryer is all equipped with bottle inlet push rod and bottle outlet push rod substantially, bottle inlet push rod is used for the flaggy pushed by row by the cillin bottle that medicine is housed that tape transport comes in freeze dryer, and bottle outlet push rod is used for the cillin bottle completing freeze-drying to be pushed out to load-transfer device by row from the flaggy in freeze dryer.In order to improve the output of freeze-drying system, current state-of-the-art scheme is by online for multiple stage freeze dryer use, namely multiple stage freeze dryer completes the operation of turnover bottle with a load-transfer device in turn, this freeze-drying system can significantly improve the output of freeze-drying system really, but still there is following defect: due to only have one used for conveyer belt in bottle inlet and bottle outlet, therefore can not realize allowing another freeze dryer bottle outlet while a freeze dryer bottle inlet, can not realize allowing another freeze dryer bottle inlet while a freeze dryer bottle outlet, this must cause the vacant wait time of freeze dryer longer, make the freeze dryer in freeze-drying system cannot give full play to its output efficiency.

Utility model content

The technical problems to be solved in the utility model is: the deficiency existed for prior art, provides a kind of structure is simple, production efficiency is high the on line freeze-drying system based on multiple stage freeze dryer and lyophilized formulations manufacturing line.

For solving the problems of the technologies described above, the utility model by the following technical solutions:

A kind of online freeze-drying system based on multiple stage freeze dryer, comprise multiple stage freeze dryer, described freeze dryer bottle inlet mouth, bottle outlet are positioned at the same side and upper and lower layered arrangement, described bottle inlet mouth is equipped with bottle inlet push rod, described bottle outlet is equipped with bottle outlet push rod, described each bottle inlet mouth is connected to same bottle inlet load-transfer device by bottle inlet bridge plate mechanism, and described each bottle outlet is connected to same bottle outlet load-transfer device by bottle outlet bridge plate mechanism.

Further improvement as technique scheme:

Shared laminar flow hood is covered with above described bottle inlet load-transfer device and bottle outlet load-transfer device.

Described freeze dryer comprises freeze drying box and cold-trap, and the bottle inlet mouth of described freeze dryer, bottle outlet are located at the side of freeze drying box near bottle inlet load-transfer device and bottle outlet load-transfer device, and described cold-trap is located at the side of freeze drying box away from bottle inlet load-transfer device and bottle outlet load-transfer device.

Described bottle inlet load-transfer device and bottle inlet bridge plate mechanism are positioned at upper strata, and described bottle outlet load-transfer device and bottle outlet bridge plate mechanism are positioned at lower floor.

Described bottle inlet bridge plate mechanism comprises bottle inlet bridge plate and controls the bottle inlet transition apparatus of bottle inlet bridge plate and the clutch of bottle inlet load-transfer device, and described bottle inlet transition apparatus is located between bottle inlet bridge plate and bottle inlet load-transfer device.

The below of described bottle inlet bridge plate is provided with the bottle inlet bridge plate guide rail of slippage of stretching for bottle inlet bridge plate.

Described bottle inlet transition apparatus comprises bottle inlet stationary platen, bottle inlet movable mold and bottle inlet movable mold actuator, described bottle inlet stationary platen side is connected with bottle inlet load-transfer device, described bottle inlet movable mold is located between bottle inlet stationary platen opposite side and bottle inlet bridge plate, described freeze dryer is under bottle inlet state, bottle inlet movable mold actuator drives bottle inlet movable mold to connect bottle inlet stationary platen and bottle inlet bridge plate, described freeze dryer is under non-bottle inlet state, and described bottle inlet movable mold actuator drives bottle inlet movable mold to depart from bottle inlet bridge plate.

Described bottle inlet stationary platen two ends are provided with the first guide plate, described first guide plate offers bottle inlet movable mold chute and bottle inlet movable mold actuator chute, described bottle inlet movable mold two ends are provided with the orienting lug be slidedly arranged in bottle inlet movable mold chute, described bottle inlet movable mold actuator is provided with two pieces and is telescopic drive part, two pieces bottle inlet movable mold actuator is divided into bottle inlet movable mold two ends, each bottle inlet movable mold actuator one end and frame hinged, the end of the other end and bottle inlet movable mold is hinged and be slidedly arranged in bottle inlet movable mold actuator chute.

Described bottle outlet bridge plate mechanism comprises bottle outlet bridge plate and controls the bottle outlet transition apparatus of bottle outlet bridge plate and the clutch of bottle outlet load-transfer device, and described bottle outlet transition apparatus is located between bottle outlet bridge plate and bottle outlet load-transfer device.

The below of described bottle outlet bridge plate is provided with the bottle outlet bridge plate guide rail of slippage of stretching for bottle outlet bridge plate.

Described bottle outlet transition apparatus comprises bottle outlet stationary platen, bottle outlet movable mold and bottle outlet movable mold actuator, described bottle outlet stationary platen side is connected with bottle outlet load-transfer device, described bottle outlet movable mold is located between bottle outlet stationary platen opposite side and bottle outlet bridge plate, described freeze dryer is under bottle outlet state, bottle outlet movable mold actuator drives bottle outlet movable mold to connect bottle outlet stationary platen and bottle outlet bridge plate, described freeze dryer is under non-bottle outlet state, and described bottle outlet movable mold actuator drives bottle outlet movable mold to depart from bottle outlet bridge plate.

Described bottle outlet stationary platen two ends are provided with the second guide plate, described second guide plate offers bottle outlet movable mold chute and bottle outlet movable mold actuator chute, described bottle outlet movable mold two ends are provided with the orienting lug be slidedly arranged in bottle outlet movable mold chute, described bottle outlet movable mold actuator is provided with two pieces and is telescopic drive part, two pieces bottle outlet movable mold actuator is divided into bottle outlet movable mold two ends, each bottle outlet movable mold actuator one end and frame hinged, the end of the other end and bottle outlet movable mold is hinged and be slidedly arranged in bottle outlet movable mold actuator chute.

Described multiple stage freeze dryer is linearly arranged, and described freeze dryer bottle inlet mouth, bottle outlet are towards side.

A kind of lyophilized formulations manufacturing line, comprises filling and stopper-adding system and rolls convering system, described filling and stopper-adding system and roll between convering system and be provided with the above-mentioned on line freeze-drying system based on multiple stage freeze dryer.

Compared with prior art, the utility model has the advantage of:

On line freeze-drying system based on multiple stage freeze dryer of the present utility model, bottle inlet load-transfer device and the upper and lower layered arrangement of bottle outlet load-transfer device, when bottle inlet load-transfer device is coordinating a freeze dryer bottle inlet, bottle outlet load-transfer device can coordinate another freeze dryer bottle outlet, when bottle outlet load-transfer device is coordinating a freeze dryer bottle outlet, bottle inlet load-transfer device also can coordinate another freeze dryer bottle inlet, the vacant wait time of freeze dryer will shorten greatly, enable each freeze dryer give full play to its output efficiency, thus greatly improve the production efficiency of freeze-drying system.Further, because bottle inlet load-transfer device of the present utility model and bottle outlet load-transfer device are arranged on the same side of multiple stage freeze dryer, above bottle inlet load-transfer device and bottle outlet load-transfer device, shared laminar flow hood can be set, do not need when adding a load-transfer device to arrange more laminar flow hood, thus greatly can save equipment cost.Further, cold-trap and the both sides being divided into freeze drying box into and out of bottle load-transfer device of freeze dryer, can reduce freeze-drying system and send taking up room on bottle direction at load-transfer device, reduce the occupation of land demand of this freeze-drying system.Lyophilized formulations manufacturing line of the present utility model, owing to being provided with the above-mentioned on line freeze-drying system based on multiple stage freeze dryer, therefore also possesses corresponding technique effect.

Accompanying drawing explanation

Fig. 1 is the plan structure schematic diagram of the utility model freeze-drying system.

Fig. 2 is the main TV structure schematic diagram of the utility model freeze-drying system non-turnover ampuliform state.

Fig. 3 is the main TV structure schematic diagram of the utility model freeze-drying system bottle inlet state.

Fig. 4 is the main TV structure schematic diagram of the utility model freeze-drying system bottle outlet state.

Fig. 5 is the enlarged drawing at bottle inlet transition apparatus and bottle outlet transition apparatus place in the utility model freeze-drying system.

Fig. 6 is the plan structure schematic diagram of the utility model lyophilized formulations manufacturing line.

Marginal data:

1, freeze dryer; 100, filling and stopper-adding system; 11, bottle inlet push rod; 12, bottle outlet push rod; 13, freeze drying box; 14, cold-trap; 2, bottle inlet bridge plate mechanism; 200, convering system is rolled; 21, bottle inlet bridge plate; 211, bottle inlet bridge plate guide rail; 22, bottle inlet transition apparatus; 221, bottle inlet stationary platen; 222, bottle inlet movable mold; 223, bottle inlet movable mold actuator; 224, the first guide plate; 225, bottle inlet movable mold chute; 226, bottle inlet movable mold actuator chute; 3, bottle inlet load-transfer device; 4, bottle outlet bridge plate mechanism; 41, bottle outlet bridge plate; 411, bottle outlet bridge plate guide rail; 42, bottle outlet transition apparatus; 421, bottle outlet stationary platen; 422, bottle outlet movable mold; 423, bottle outlet movable mold actuator; 424, the second guide plate; 425, bottle outlet movable mold chute; 426, bottle outlet movable mold actuator chute; 5, bottle outlet load-transfer device; 6, laminar flow hood.

Detailed description of the invention

Fig. 1 to Fig. 5 shows the embodiment of a kind of on line freeze-drying system based on multiple stage freeze dryer of the present utility model, comprise multiple stage freeze dryer 1, freeze dryer 1 bottle inlet mouth, bottle outlet are positioned at the same side and upper and lower layered arrangement, bottle inlet mouth is equipped with bottle inlet push rod 11, bottle outlet is equipped with bottle outlet push rod 12, each bottle inlet mouth is connected to same bottle inlet load-transfer device 3 by bottle inlet bridge plate mechanism 2, and each bottle outlet is connected to same bottle outlet load-transfer device 5 by bottle outlet bridge plate mechanism 4.On line freeze-drying system based on multiple stage freeze dryer of the present utility model, freeze dryer 1 bottle inlet mouth, bottle outlet is positioned at the same side and upper and lower layered arrangement, each bottle inlet mouth is connected to same bottle inlet load-transfer device 3 by bottle inlet bridge plate mechanism 2, each bottle outlet is connected to same bottle outlet load-transfer device 5 by bottle outlet bridge plate mechanism 4, when bottle inlet load-transfer device 3 is coordinating freeze dryer 1 bottle inlet, bottle outlet load-transfer device 5 can coordinate another freeze dryer 1 bottle outlet, when bottle outlet load-transfer device 5 is coordinating freeze dryer 1 bottle outlet, bottle inlet load-transfer device 3 also can coordinate another freeze dryer 1 bottle inlet, the vacant wait time of each freeze dryer 1 will shorten greatly, make each freeze dryer 1 can give full play to its output efficiency, thus greatly improve the production efficiency of freeze-drying system.

In the present embodiment, above bottle inlet load-transfer device 3 and bottle outlet load-transfer device 5, be covered with shared laminar flow hood 6, do not need when adding a load-transfer device to arrange more laminar flow hood 6, thus greatly can save equipment cost.

In the present embodiment, freeze dryer 1 comprises freeze drying box 13 and cold-trap 14, the bottle inlet mouth of freeze dryer 1, bottle outlet are located at the side of freeze drying box 13 near bottle inlet load-transfer device 3 and bottle outlet load-transfer device 5, cold-trap 14 is located at the side of freeze drying box 13 away from bottle inlet load-transfer device 3 and bottle outlet load-transfer device 5, by the cold-trap 14 of freeze dryer 1 and the both sides being divided into freeze drying box 13 into and out of bottle load-transfer device, freeze-drying system can be reduced and send taking up room on bottle direction at load-transfer device, reduce the occupation of land demand of this freeze-drying system.

In the present embodiment, bottle inlet load-transfer device 3 and bottle inlet bridge plate mechanism 2 are positioned at upper strata, and bottle outlet load-transfer device 5 and bottle outlet bridge plate mechanism 4 are positioned at lower floor, are conducive to preventing the bottle of half tamponade state from being polluted.

In the present embodiment, multiple stage freeze dryer 1 is linearly arranged, the bottle inlet mouth of multiple stage freeze dryer 1, bottle outlet are towards side, and the bottle inlet load-transfer device 3 of the present embodiment and bottle outlet load-transfer device 5 are arranged on the same side of multiple stage freeze dryer 1, can reduce the occupation of land demand of this freeze-drying system further.In other embodiments, when multiple stage freeze dryer 1 is linearly arranged, also multiple stage freeze dryer 1 can be divided into the both sides of bottle inlet load-transfer device 3 and bottle outlet load-transfer device 5.

In the present embodiment, bottle inlet bridge plate mechanism 2 comprises bottle inlet bridge plate 21 and controls the bottle inlet transition apparatus 22 of bottle inlet bridge plate 21 and bottle inlet load-transfer device 3 clutch, bottle inlet transition apparatus 22 is located between bottle inlet bridge plate 21 and bottle inlet load-transfer device 3, the below of bottle inlet bridge plate 21 is provided with the bottle inlet bridge plate guide rail 211 of slippage of stretching for bottle inlet bridge plate 21, convenient mobile and position adjustment.

In the present embodiment, bottle inlet transition apparatus 22 comprises bottle inlet stationary platen 221, bottle inlet movable mold 222 and bottle inlet movable mold actuator 223, bottle inlet stationary platen 221 side is connected with bottle inlet load-transfer device 3, bottle inlet movable mold 222 is located between bottle inlet stationary platen 221 opposite side and bottle inlet bridge plate 21, freeze dryer 1 is under bottle inlet state, bottle inlet movable mold actuator 223 drives bottle inlet movable mold 222 to connect bottle inlet stationary platen 221 and bottle inlet bridge plate 21, freeze dryer 1 is under non-bottle inlet state, bottle inlet movable mold actuator 223 drives bottle inlet movable mold 222 to depart from bottle inlet bridge plate 21.Bottle inlet stationary platen 221 two ends are provided with the first guide plate 224, first guide plate 224 offers bottle inlet movable mold chute 225 and bottle inlet movable mold actuator chute 226, bottle inlet movable mold 222 two ends are provided with the orienting lug be slidedly arranged in bottle inlet movable mold chute 225, bottle inlet movable mold actuator 223 is provided with two pieces and is telescopic drive part, two pieces bottle inlet movable mold actuator 223 is divided into bottle inlet movable mold 222 two ends, each bottle inlet movable mold actuator 223 one end and frame hinged, the end of the other end and bottle inlet movable mold 222 is hinged and be slidedly arranged in bottle inlet movable mold actuator chute 226, bottle inlet movable mold actuator 223 is cylinder, can be electric push rod in other embodiments, the telescopic drive parts such as hydraulic push rod.

Bottle inlet transition apparatus 22 working process:

The cylinder that bottle inlet movable mold actuator 223 is stretched out by bottle inlet movable mold 222 two ends promotes the former bottle inlet movable mold 222 being placed in bottle inlet stationary platen 221 bottom to freeze dryer 1 bottle inlet mouth, bottle outlet direction is moved, bottle inlet movable mold 222 is subject to the constraint of bottle inlet stationary platen 221 both sides first guide plate 224 simultaneously in reach, can only along the bottle inlet movable mold chute 225 of the first guide plate 224 and the direction action of bottle inlet movable mold actuator chute 226, several hook bar is provided with bottom bottle inlet movable mold 222, toply freeze dryer 1 bottle inlet mouth is positioned over when bottle inlet movable mold 222 moves forward, during bottle inlet bridge plate 21 in bottle outlet, the slotted eye that bottle bridge plate 21 lower front end stretches out lived in by hook hook strips bottom bottle inlet movable mold 222, now, bottle inlet movable mold 222 promotes bottle inlet bridge plate 21 and continues reach, stop mobile when bottle inlet bridge plate 21 top freeze-drying plate layer, wait for that medicine bottle passes through from plate face, medicine bottle above bottle inlet load-transfer device 3 is released on the plate face of bottle inlet stationary platen 221 and bottle inlet movable mold 222 by bottle inlet push rod 11 by row that be placed in bottle inlet load-transfer device 3 other, treat that medicine bottle is accumulated to predetermined quantity, accumulation medicine bottle is pushed on freeze-drying plate layer by the plate face of bottle inlet stationary platen 221, bottle inlet movable mold 222 and bottle inlet bridge plate 21 by bottle inlet push rod 11.Bottle inlet is complete, bottle inlet push rod 11 exits, bottle inlet movable mold actuator 223 starts to return, drive bottle inlet movable mold 222, bottle inlet bridge plate 21 depart from freeze-drying plate layer, under the bottle inlet movable mold chute 225 and the guiding of bottle inlet movable mold actuator chute 226 of the first guide plate 224, bottle inlet movable mold 222 and bottle inlet bridge plate 21 break off relations, and bottle inlet movable mold 222 continues to be back to bottle inlet stationary platen 221 bottom, and bottle inlet movable mold actuator 223 stops action.

In the present embodiment, bottle outlet bridge plate mechanism 4 comprises bottle outlet bridge plate 41 and controls the bottle outlet transition apparatus 42 of bottle outlet bridge plate 41 and bottle outlet load-transfer device 5 clutch, bottle outlet transition apparatus 42 is located between bottle outlet bridge plate 41 and bottle outlet load-transfer device 5, the below of bottle outlet bridge plate 41 is provided with the bottle outlet bridge plate guide rail 411 of slippage of stretching for bottle outlet bridge plate 41, convenient mobile and position adjustment.

In the present embodiment, bottle outlet transition apparatus 42 comprises bottle outlet stationary platen 421, bottle outlet movable mold 422 and bottle outlet movable mold actuator 423, bottle outlet stationary platen 421 side is connected with bottle outlet load-transfer device 5, bottle outlet movable mold 422 is located between bottle outlet stationary platen 421 opposite side and bottle outlet bridge plate 41, freeze dryer 1 is under bottle outlet state, bottle outlet movable mold actuator 423 drives bottle outlet movable mold 422 to connect bottle outlet stationary platen 421 and bottle outlet bridge plate 41, freeze dryer 1 is under non-bottle outlet state, bottle outlet movable mold actuator 423 drives bottle outlet movable mold 422 to depart from bottle outlet bridge plate 41.Bottle outlet stationary platen 421 two ends are provided with the second guide plate 424, second guide plate 424 offers bottle outlet movable mold chute 425 and bottle outlet movable mold actuator chute 426, bottle outlet movable mold 422 two ends are provided with the orienting lug be slidedly arranged in bottle outlet movable mold chute 425, bottle outlet movable mold actuator 423 is provided with two pieces and is telescopic drive part, two pieces bottle outlet movable mold actuator 423 is divided into bottle outlet movable mold 422 two ends, each bottle outlet movable mold actuator 423 one end and frame hinged, the end of the other end and bottle outlet movable mold 422 is hinged and be slidedly arranged in bottle outlet movable mold actuator chute 426, bottle outlet movable mold actuator 423 is cylinder, can be electric push rod in other embodiments, the telescopic drive parts such as hydraulic push rod.

Bottle outlet transition apparatus 42 working process:

While bottle outlet movable mold actuator 423 promotes bottle outlet movable mold 422 is moved by the cylinder that bottle outlet movable mold 422 two ends are stretched out, under second guide plate 424 at bottle outlet stationary platen 421 two ends guides, bottle outlet movable mold 422 rotates clockwise angle until level and hook the slotted eye that bottle outlet bridge plate 41 lower front end stretches out, now bottle outlet movable mold 422 connects with bottle outlet bridge plate 41 level, and the cylinder that bottle outlet movable mold 422 is stretched out has entered the groove of bottle outlet movable mold actuator 423 head being placed in two ends bottom bottle outlet stationary platen 421; Bottle outlet movable mold actuator 423 piston is released, and bottle outlet movable mold 422 and bottle outlet bridge plate 41 are pushed into freeze-drying plate layer near being connected, now, bottle outlet stationary platen 421, bottle outlet movable mold 422 and bottle outlet bridge plate 41 form bottle outlet table top; The medicine bottle be shelved on flaggy is pushed out on bottle outlet load-transfer device 5 from rear portion in freeze dryer 1 by bottle outlet push rod 12, is transported to Cover-rolling machine completes and roll cap seal mouth by bottle outlet load-transfer device 5.

Fig. 6 shows a kind of lyophilized formulations manufacturing line embodiment of the present utility model, this lyophilized formulations manufacturing line comprises filling and stopper-adding system 100 and rolls convering system 200, filling and stopper-adding system 100 and roll the on line freeze-drying system based on multiple stage freeze dryer being provided with above-described embodiment between convering system 200.Lyophilized formulations manufacturing line of the present utility model, owing to being provided with the on line freeze-drying system based on multiple stage freeze dryer of the present utility model, therefore also possesses corresponding technique effect.

Below be only preferred implementation of the present utility model, protection domain of the present utility model be not only confined to above-described embodiment, all technical schemes belonged under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, not departing from the some improvements and modifications under the utility model principle prerequisite, protection domain of the present utility model should be considered as.

Claims (14)

1. the on line freeze-drying system based on multiple stage freeze dryer, comprise multiple stage freeze dryer (1), it is characterized in that: described freeze dryer (1) bottle inlet mouth, bottle outlet are positioned at the same side and upper and lower layered arrangement, described bottle inlet mouth is equipped with bottle inlet push rod (11), described bottle outlet is equipped with bottle outlet push rod (12), described each bottle inlet mouth is connected to same bottle inlet load-transfer device (3) by bottle inlet bridge plate mechanism (2), and described each bottle outlet is connected to same bottle outlet load-transfer device (5) by bottle outlet bridge plate mechanism (4).

2. the on line freeze-drying system based on multiple stage freeze dryer according to claim 1, is characterized in that: described bottle inlet load-transfer device (3) and bottle outlet load-transfer device (5) top are covered with shared laminar flow hood (6).

3. the on line freeze-drying system based on multiple stage freeze dryer according to claim 1, it is characterized in that: described freeze dryer (1) comprises freeze drying box (13) and cold-trap (14), the bottle inlet mouth of described freeze dryer (1), bottle outlet are located at the side of freeze drying box (13) near bottle inlet load-transfer device (3) and bottle outlet load-transfer device (5), and described cold-trap (14) is located at the side of freeze drying box (13) away from bottle inlet load-transfer device (3) and bottle outlet load-transfer device (5).

4. the on line freeze-drying system based on multiple stage freeze dryer according to claim 1, is characterized in that: described bottle inlet load-transfer device (3) and bottle inlet bridge plate mechanism (2) are positioned at upper strata, and described bottle outlet load-transfer device (5) and bottle outlet bridge plate mechanism (4) are positioned at lower floor.

5. the on line freeze-drying system based on multiple stage freeze dryer according to claim 1, is characterized in that: described multiple stage freeze dryer (1) is linearly arranged, and described freeze dryer (1) bottle inlet mouth, bottle outlet are towards side.

6. the on line freeze-drying system based on multiple stage freeze dryer according to any one of claim 1 to 5, it is characterized in that: described bottle inlet bridge plate mechanism (2) comprises bottle inlet bridge plate (21) and controls the bottle inlet transition apparatus (22) of bottle inlet bridge plate (21) and bottle inlet load-transfer device (3) clutch, and described bottle inlet transition apparatus (22) is located between bottle inlet bridge plate (21) and bottle inlet load-transfer device (3).

7. the on line freeze-drying system based on multiple stage freeze dryer according to claim 6, is characterized in that: the below of described bottle inlet bridge plate (21) is provided with the bottle inlet bridge plate guide rail (211) for the flexible slippage of bottle inlet bridge plate (21).

8. the on line freeze-drying system based on multiple stage freeze dryer according to claim 7, it is characterized in that: described bottle inlet transition apparatus (22) comprises bottle inlet stationary platen (221), bottle inlet movable mold (222) and bottle inlet movable mold actuator (223), described bottle inlet stationary platen (221) side is connected with bottle inlet load-transfer device (3), described bottle inlet movable mold (222) is located between bottle inlet stationary platen (221) opposite side and bottle inlet bridge plate (21), described freeze dryer (1) is under bottle inlet state, bottle inlet movable mold actuator (223) drives bottle inlet movable mold (222) to connect bottle inlet stationary platen (221) and bottle inlet bridge plate (21), described freeze dryer (1) is under non-bottle inlet state, described bottle inlet movable mold actuator (223) drives bottle inlet movable mold (222) to depart from bottle inlet bridge plate (21).

9. the on line freeze-drying system based on multiple stage freeze dryer according to claim 8, it is characterized in that: described bottle inlet stationary platen (221) two ends are provided with the first guide plate (224), described first guide plate (224) offers bottle inlet movable mold chute (225) and bottle inlet movable mold actuator chute (226), described bottle inlet movable mold (222) two ends are provided with the orienting lug be slidedly arranged in bottle inlet movable mold chute (225), described bottle inlet movable mold actuator (223) is provided with two pieces and is telescopic drive part, two pieces bottle inlet movable mold actuator (223) is divided into bottle inlet movable mold (222) two ends, each bottle inlet movable mold actuator (223) one end and frame hinged, the end of the other end and bottle inlet movable mold (222) is hinged and be slidedly arranged in bottle inlet movable mold actuator chute (226).

10. the on line freeze-drying system based on multiple stage freeze dryer according to any one of claim 1 to 5, it is characterized in that: described bottle outlet bridge plate mechanism (4) comprises bottle outlet bridge plate (41) and controls the bottle outlet transition apparatus (42) of bottle outlet bridge plate (41) and bottle outlet load-transfer device (5) clutch, and described bottle outlet transition apparatus (42) is located between bottle outlet bridge plate (41) and bottle outlet load-transfer device (5).

The 11. on line freeze-drying systems based on multiple stage freeze dryer according to claim 10, is characterized in that: the below of described bottle outlet bridge plate (41) is provided with the bottle outlet bridge plate guide rail (411) for the flexible slippage of bottle outlet bridge plate (41).

The 12. on line freeze-drying systems based on multiple stage freeze dryer according to claim 11, it is characterized in that: described bottle outlet transition apparatus (42) comprises bottle outlet stationary platen (421), bottle outlet movable mold (422) and bottle outlet movable mold actuator (423), described bottle outlet stationary platen (421) side is connected with bottle outlet load-transfer device (5), described bottle outlet movable mold (422) is located between bottle outlet stationary platen (421) opposite side and bottle outlet bridge plate (41), described freeze dryer (1) is under bottle outlet state, bottle outlet movable mold actuator (423) drives bottle outlet movable mold (422) to connect bottle outlet stationary platen (421) and bottle outlet bridge plate (41), described freeze dryer (1) is under non-bottle outlet state, described bottle outlet movable mold actuator (423) drives bottle outlet movable mold (422) to depart from bottle outlet bridge plate (41).

The 13. on line freeze-drying systems based on multiple stage freeze dryer according to claim 12, it is characterized in that: described bottle outlet stationary platen (421) two ends are provided with the second guide plate (424), described second guide plate (424) offers bottle outlet movable mold chute (425) and bottle outlet movable mold actuator chute (426), described bottle outlet movable mold (422) two ends are provided with the orienting lug be slidedly arranged in bottle outlet movable mold chute (425), described bottle outlet movable mold actuator (423) is provided with two pieces and is telescopic drive part, two pieces bottle outlet movable mold actuator (423) is divided into bottle outlet movable mold (422) two ends, each bottle outlet movable mold actuator (423) one end and frame hinged, the end of the other end and bottle outlet movable mold (422) is hinged and be slidedly arranged in bottle outlet movable mold actuator chute (426).

14. 1 kinds of lyophilized formulations manufacturing lines, comprise filling and stopper-adding system (100) and roll convering system (200), it is characterized in that: described filling and stopper-adding system (100) and roll the on line freeze-drying system based on multiple stage freeze dryer be provided with between convering system (200) according to any one of claim 1 to 13.