CN114604460B

CN114604460B - Freeze-dried bead split charging equipment

Info

Publication number: CN114604460B
Application number: CN202210254690.8A
Authority: CN
Inventors: 郗真超; 潘兴学; 赵多顺
Original assignee: Guangzhou Ascend Precision Machinery Co ltd
Current assignee: Guangzhou Ascend Precision Machinery Co ltd
Priority date: 2022-03-15
Filing date: 2022-03-15
Publication date: 2023-09-01
Anticipated expiration: 2042-03-15
Also published as: CN114604460A

Abstract

The application discloses freeze-dried bead split charging equipment, which comprises a freeze-dried bead distributing device and a split charging container moving device, wherein a storage cup is arranged at the top of a distributing seat, the distributing seat is provided with a first channel, a second channel and a third channel which are sequentially communicated and only used for single freeze-dried beads to pass through, a feeding hole is formed at the top of the first channel of the distributing seat and communicated with an opening, the second channel transversely extends, the first end of the second channel communicated with the first channel is lower than the second end of the second channel communicated with the third channel, and a discharging hole is formed at the bottom of the third channel of the distributing seat; a feeding assembly for feeding the lyophilized beads from the first end of the second channel to the second end of the second channel; the sub-packaging container moving device is used for driving the sub-packaging container to move to the lower part of the discharge hole. The freeze-dried bead split charging equipment of the technical scheme has high split charging efficiency, reduces split charging cost, reduces or avoids the phenomenon that freeze-dried beads are damaged, and is accurate and reliable in split charging.

Description

Freeze-dried bead split charging equipment

Technical Field

The application is used in the technical field of freeze-dried bead split charging, and particularly relates to freeze-dried bead split charging equipment.

Background

In the production process of products such as nucleic acid diagnostic reagent freeze-dried pellets, in-vitro diagnostic reagent freeze-dried pellets, pet in-vitro diagnostic reagent freeze-dried pellets, cosmetic freeze-dried pellets and the like, after the freeze-dried pellets (i.e. freeze-dried beads) are formed, the freeze-dried pellets are required to be packaged into a storage container rapidly for sealing and storage, so that the pellets are prevented from absorbing moisture. At present, the freeze-dried pellets are mainly packaged by manual or vacuum suction. The packaging process has the following defects:

1. the manual sub-packaging generally uses tweezers to clamp the freeze-dried pellets, so that the material separation is realized, the clamped pellets are easy to clamp and hurt, the sub-packaging efficiency is low, and the labor cost is high;

2. because the freeze-dried pellets are loose and fragile, the pellets are not easy to be sucked in low vacuum, and the pellets are easy to be damaged by powder falling, deformation and the like during high vacuum suction.

Disclosure of Invention

The application aims to at least solve one of the technical problems in the prior art, and provides freeze-dried bead split charging equipment which has high split charging efficiency, reduces split charging cost, reduces or avoids the phenomenon that freeze-dried beads are damaged, and is accurate and reliable in split charging.

The technical scheme adopted for solving the technical problems is as follows:

a lyophilized bead dispensing apparatus comprising:

freeze-dried pearl feed divider includes:

the storage cup is provided with an opening;

the material distributing seat is provided with a first channel, a second channel and a third channel which are communicated in sequence and only used for single freeze-dried beads to pass through, a material inlet is formed at the top of the first channel and communicated with the opening, the second channel transversely extends, the first end of the second channel communicated with the first channel is lower than the second end of the second channel communicated with the third channel, and a material outlet is formed at the bottom of the third channel;

a feeding assembly for feeding the lyophilized beads from a first end of the second channel to a second end of the second channel;

and the sub-packaging container moving device is used for driving the sub-packaging container to move to the lower part of the discharge hole.

In combination with the above implementation manner, in some implementations of the present application, the feeding assembly includes an air blowing feeding assembly, the material separating seat is provided with a fourth channel that is communicated with the first end of the second channel, the fourth channel is communicated with the outside of the material separating seat, the air blowing feeding assembly is used for blowing air to the fourth channel, the material separating seat is provided with a telescopic driving assembly, the material separating seat is provided with a material blocking rod on a side edge of the third channel, the telescopic driving assembly is used for driving the material blocking rod to stretch into or withdraw from the third channel, and when the material blocking rod stretches into the third channel, an interception space is formed at the top of the material blocking rod by the material separating seat, and the interception space can accommodate a single freeze-dried bead.

In combination with the above implementation manner, in some implementations of the present application, the apparatus further includes a shaking device, where the shaking device is used to drive the freeze-dried bead distributing device to shake up and down.

In combination with the above implementation manner, in some implementation manners of the present application, the material shaking device includes a motor, a base and an eccentric shaft, the motor is in transmission connection with the eccentric shaft, the base is provided with a vertical guide rail, the vertical guide rail is slidably provided with a connecting seat, the freeze-dried bead material separating device is connected with the connecting seat through the material separating seat, the connecting seat is transversely provided with a sliding groove, and the eccentric shaft extends into the sliding groove and is matched with the sliding groove.

In combination with the above implementation manner, in some implementation manners of the present application, the connection seat is in an L-shaped configuration, the connection seat includes a first connection seat and a second connection seat disposed at a top of the first connection seat, the material distributing seat is mounted at a top of the first connection seat, a blanking hole is disposed at a position of the first connection seat corresponding to the material outlet vertically, and the base is located at a side of the second connection seat facing away from the material distributing seat.

In combination with the above implementation manner, in some implementations of the present application, the packaging device further includes a housing and a supporting frame, the supporting frame is disposed at the top of the housing, the supporting frame is provided with an avoidance hole that communicates along an up-down direction, a cavity that communicates with the avoidance hole is formed between the supporting frame and the housing, the motor and the base are both mounted at the top of the supporting frame, the connection seat corresponds to the avoidance hole along the up-down direction, the packaging container moving device includes a packaging container mounting structure and a driving device, the packaging container mounting structure is used for mounting a plurality of packaging containers, the driving device is disposed in the housing, the packaging container mounting structure is movably mounted in the cavity, and the driving device is used for driving the packaging container mounting structure to move along an X direction or a Y direction so that the packaging container moves to a position below the discharge port.

In combination with the above implementation manner, in some implementation manners of the present application, the connection seat is provided with a plurality of freeze-dried bead distributing devices.

In combination with the above implementation manner, in some implementations of the present application, the housing is provided with an opening that communicates with the cavity, the driving device includes a first mounting seat, a second mounting seat, an X-direction driving device and a Y-direction driving device, both the X-direction driving device and the first mounting seat are mounted in the housing, the first mounting seat is provided with an X-direction guide rail, the X-direction driving device is used for driving the second mounting seat to reciprocate along the X-direction, the Y-direction driving device is mounted on the second mounting seat, the second mounting seat is provided with a Y-direction guide rail, the packaging container mounting structure is slidably mounted on the Y-direction guide rail and extends into the cavity through the opening, and the Y-direction driving device is used for driving the packaging container mounting structure to reciprocate along the Y-direction guide rail.

In combination with the above implementation manner, in some implementations of the present application, a protection cover is disposed at the top of the support frame, the freeze-dried bead distributing device and the shaking device are both located in the protection cover, and an electrostatic eliminator is disposed inside the protection cover.

In combination with the above implementation, in some implementations of the present application, the housing is provided with a touch screen and a switch button.

One of the above technical solutions has at least one of the following advantages or beneficial effects: according to the technical scheme, the freeze-dried bead split charging equipment is provided with the first channel, the second channel and the third channel, so that the same time that only a single freeze-dried bead passes through from the same position of the channel is ensured, the freeze-dried beads are matched and fed through the inclined arrangement of the second channel and the feeding assembly, the automatic charging requirement on a split charging container can be met, the freeze-dried beads in the storage cup can be accurately split-charged into the split charging container according to the requirement on the split charging quantity, the split charging efficiency is high, the split charging is accurate, and the split charging cost is reduced. And this technical scheme mainly utilizes the gravity effect of freeze-dried pearl self to accomplish the transport at first passageway and third passageway to utilize feeding assembly to accomplish the removal work of freeze-dried pearl in the second passageway, avoided the freeze-dried pearl damage phenomenon that leads to because of directly adopting tweezers to press from both sides to get or high vacuum to absorb, the partial shipment work is more reliable.

Drawings

The application is further described below with reference to the accompanying drawings:

FIG. 1 is an isometric schematic of an embodiment of the application;

FIG. 2 is a schematic front view of one embodiment shown in FIG. 1;

FIG. 3 is a schematic diagram illustrating a connection between the shaking device and the freeze-dried bead distribution device at a first view angle according to the embodiment shown in FIG. 1;

FIG. 4 is a schematic diagram illustrating a connection between the shaking device and the freeze-dried bead distribution device according to the embodiment shown in FIG. 1 at a second view angle;

FIG. 5 is a schematic view showing the internal structure of a freeze-dried bead dispensing apparatus according to one embodiment shown in FIG. 1;

FIG. 6 is a schematic view showing the internal structure of the freeze-dried bead distribution device of the embodiment shown in FIG. 1 in an operating state;

fig. 7 is a schematic view of the structure of the inside of the housing of the embodiment shown in fig. 1.

Detailed Description

Reference will now be made in detail to the present embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present application, but not to limit the scope of the present application.

In the present application, if directions (up, down, left, right, front and rear) are described, they are merely for convenience of description of the technical solution of the present application, and do not indicate or imply that the technical features must be in a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the present application, "a plurality of" means one or more, and "a plurality of" means two or more, and "greater than", "less than", "exceeding", etc. are understood to not include the present number; "above", "below", "within" and the like are understood to include this number. In the description of the present application, the description of "first" and "second" if any is used solely for the purpose of distinguishing between technical features and not necessarily for the purpose of indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the present application, unless clearly defined otherwise, terms such as "disposed," "mounted," "connected," and the like should be construed broadly and may be connected directly or indirectly through an intermediate medium, for example; the connecting device can be fixedly connected, detachably connected and integrally formed; can be mechanically connected, electrically connected or capable of communicating with each other; may be a communication between two elements or an interaction between two elements. The specific meaning of the words in the application can be reasonably determined by a person skilled in the art in combination with the specific content of the technical solution.

Referring to fig. 1, 5 and 6, an embodiment of the present application provides a freeze-dried bead dispensing apparatus, which includes a freeze-dried bead dispensing device 1 and a dispensing container moving device. Wherein, freeze-dried pearl feed divider 1 includes storage cup 11, divides material seat 2 and feeding component, and storage cup 11 is used for storing freeze-dried pearl 3, and the bottom of storage cup 11 is equipped with the opening (not shown in the figure), and the top of dividing material seat 2 is located to storage cup 11. The material separating seat 2 is provided with a first channel 221, a second channel 222 and a third channel 223 which are communicated in sequence and only used for the single freeze-dried beads 3 to pass through, namely, the first channel 221, the second channel 222 and the third channel 223 can only accommodate the single freeze-dried beads 3 to pass through at any cross section position. The material distributing seat 2 is formed with a feeding port at the top of the first channel 221 and is communicated with the opening.

Specifically, the second channel 222 extends in the transverse direction, and a first end of the second channel 222 communicating with the first channel 221 is lower than a second end of the second channel 222 communicating with the third channel 223, and the material distributing seat 2 is formed with a material outlet 23 at the bottom of the third channel 223. The feeding assembly is used for feeding the freeze-dried beads 3 from the first end of the second channel 222 to the second end of the second channel 222. The sub-packaging container moving device is used for driving the sub-packaging container 4 to move to the lower part of the discharge hole 23, so that the sub-packaging container 4 such as an eight-connecting tube and the like can be used for receiving the freeze-dried beads 3 falling from the discharge hole 23.

When in use, the freeze-dried beads 3 in the storage cup 11 enter the material distributing seat 2 through the opening and enter the first end of the second channel 222 through the first channel 221 under the action of gravity, and the freeze-dried beads 3 cannot directly move to the second end through the first end because the second end of the second channel 222 is lower than the first end of the second channel 222. At this time, the single freeze-dried beads 3 falling into the first end of the second channel 222 are sent to the second end of the second channel 222 by the feeding assembly, so that the single freeze-dried beads 3 can be ensured to flow into the third channel 223, finally flow out from the discharge hole 23 and fall into the sub-packaging container 4. After the lyophilized beads 3 at the first end of the second channel 222 are sent to the second end by the feeding assembly, the lyophilized beads 3 in the first channel 221 continue to be replenished at the first end of the second channel 222 under the action of gravity, and the feeding assembly continues to send the lyophilized beads 3 at the first end of the second channel 222 to the second end, so that the circulation is performed until the requirement of the filling quantity of the sub-packaging container 4 is met.

According to the freeze-dried bead split charging equipment, the first channel 221, the second channel 222 and the third channel 223 are arranged, so that the same time that only a single freeze-dried bead 3 passes through from the same position of the channel is ensured, the freeze-dried bead 3 is matched with the feeding through the inclined arrangement of the second channel 222 and the feeding assembly, the automatic charging requirement on the split charging container 4 can be met, the freeze-dried bead 3 in the storage cup 11 can be accurately split-charged into the split charging container 4 according to the requirement of split charging quantity, the split charging efficiency is high, the split charging is accurate, and the split charging cost is reduced. And this technical scheme mainly utilizes the gravity effect of freeze-dried pearl 3 self to accomplish the transport in first passageway 221 and third passageway 223 to utilize the pay-off subassembly to accomplish the removal work of freeze-dried pearl 3 in second passageway 222, reduced or avoided the freeze-dried pearl 3 damage phenomenon that leads to because of directly adopting tweezers to press from both sides to get or high vacuum to draw, the partial shipment work is more reliable.

It can be understood that the feeding component can directly push the freeze-dried beads 3 from the side by adopting a push rod for feeding, and can also adopt a blowing mode for feeding. Further, referring to fig. 5, the feeding assembly includes a blowing feeding assembly 5, the distributing seat 2 is provided with a fourth channel 24 communicating with the first end of the second channel 222, the fourth channel 24 communicates with the outside of the distributing seat 2, and the blowing feeding assembly 5 is used for blowing air to the fourth channel 24. The air flow passes through the fourth channel 24 and is blown into the second channel 222 to blow the freeze-dried beads 3 falling at the first end of the second channel 222 toward the second end of the second channel 222, completing the transportation work of the freeze-dried beads 3 in the second channel 222. The freeze-dried beads 3 are carried and split-packed in an air flow blowing mode, so that the freeze-dried beads 3 are prevented from being in direct contact with other objects, and the phenomena of powder falling or deformation and the like of the freeze-dried beads 3 are avoided.

The material separating seat 2 is provided with a telescopic driving component (not shown in the figure), the material separating seat 2 is provided with a material blocking rod 25 at the side edge of the third channel 223, and the telescopic driving component is used for driving the material blocking rod 25 to stretch into or withdraw from the third channel 223. When the material blocking rod 25 stretches into the third channel 223, the material distributing seat 2 is provided with an interception space 26 at the top of the material blocking rod 25, and the interception space 26 can accommodate the single freeze-dried beads 3. When the blowing feeding assembly 5 blows, the material blocking rod 25 is in a state of extending into the third channel 223, so as to ensure that the blown freeze-dried beads 3 can be placed in the interception space 26. Because the interception space 26 can only hold the single freeze-dried beads 3, and the second channel 222 is obliquely arranged, when the blowing feeding component 5 stops blowing and the telescopic driving component drives the blocking rod 25 to exit the third channel 223, only the freeze-dried beads 3 at the interception space 26 in the material separating seat 2 can flow out through the third channel 223, so that the discharge hole 23 can only convey the single freeze-dried beads 3 at the same time, and the accuracy of the split charging quantity is ensured.

Further, referring to fig. 2 to 4, the freeze-dried bead split charging device further comprises a shaking device, wherein the shaking device is used for driving the freeze-dried bead 3 split charging device to shake up and down, so that the freeze-dried beads 3 in the storage cup 11 can be ensured to smoothly fall into the split charging seat 2.

Still further, referring to fig. 3 and 4, the shaking device includes a motor 61, a base 62 and an eccentric shaft 63, the motor 61 is in driving connection with the eccentric shaft 63, the base 62 is provided with a vertical guide rail 64, the vertical guide rail 64 is slidably provided with a connecting seat 65, and the freeze-dried bead 3 distributing device is connected with the connecting seat 65 through the distributing seat 2, so that the freeze-dried bead distributing device 1 can slide relative to the base 62 along the up-down direction. The connecting seat 65 is provided with a sliding groove 651 in the transverse direction, i.e. the extending direction of the sliding groove 651 is perpendicular to the extending direction of the vertical guide rail 64, and the eccentric shaft 63 extends into the sliding groove 651 and cooperates with the sliding groove 651. The vertical direction is understood as the up-down direction, the transverse direction is understood as the direction perpendicular to the up-down direction, and the X direction and the Y direction both belong to the transverse direction.

The motor 61 drives the eccentric shaft 63 to rotate, and the eccentric shaft 63 reciprocates along the sliding groove 651 while having upward or downward force on the connecting seat 65, so as to drive the connecting seat 65 to reciprocate up and down, that is, drive the freeze-dried bead distributing device 1 to reciprocate up and down, so as to shake out the freeze-dried beads 3 in the storage cup 11, and ensure smooth discharging. The shaking device can directly drive the freeze-dried bead distributing device 1 to lift by adopting an air cylinder or an oil cylinder and the like so as to realize up-and-down shaking, and the shaking device is not particularly limited.

Still further, referring to fig. 3, the connecting seat 65 is in an L-shaped configuration, the connecting seat 65 includes a first connecting seat 651 and a second connecting seat 652 disposed at a top of the first connecting seat 651, the material distributing seat 2 is mounted at the top of the first connecting seat 651, and blanking holes (not shown in the drawing) are disposed at positions corresponding to the upper and lower positions of the discharge port 23 on the first connecting seat 651, so as to ensure that the freeze-dried beads 3 fall into the sub-packaging containers 4 through the blanking holes after passing through the discharge port 23. The base 62 is located at a side of the second connection seat 652 facing away from the dispensing seat 2, so as to optimize the spatial layout and avoid interference between the base 62 and the freeze-dried bead dispensing device 1.

Referring to fig. 1 to 3, in some embodiments, the freeze-dried bead dispensing apparatus further includes a housing 71 and a support frame 72, the support frame 72 is disposed at the top of the housing 71, the support frame 72 is provided with a avoidance hole 721 communicating in an up-down direction, and a cavity 73 communicating with the avoidance hole 721 is formed between the support frame 72 and the housing 71. The motor 61 and the base 62 are both installed at the top of the support frame 72, and the connection base 65 corresponds to the avoidance hole 721 along the up-down direction, so that interference with the support frame 72 during up-down movement of the connection base 65 is avoided.

The sub-container moving device includes a sub-container mounting structure 81 and a driving device, the sub-container mounting structure 81 being used for mounting a plurality of sub-containers 4. The driving device is arranged in the shell 71, the split charging container mounting structure 81 is movably arranged in the cavity 73, and the driving device is used for driving the split charging container mounting structure 81 to move along the X direction or the Y direction so as to enable the split charging containers 4 to move to the lower part of the discharge hole 23, and ensure that each split charging container 4 can receive the freeze-dried beads 3. Wherein, the sub-packaging container 4 can be arranged into eight-joint pipes or storage bottles according to actual demands, and the sub-packaging container mounting structure 81 is provided with a plurality of placing holes or clamps according to the structural forms of the sub-packaging container 4.

Further, referring to fig. 1 to 3, the connecting seat 65 is provided with a plurality of freeze-dried bead dispensing devices 1, so that a plurality of dispensing containers 4 can be simultaneously dispensed to the freeze-dried beads 3, and the dispensing efficiency is improved. It is to be understood that the freeze-dried bead distributing device 1 may be sequentially arranged along the X-direction and/or the Y-direction, or may be reasonably arranged in a ring shape or an M-shape according to the arrangement position of the sub-packaging container 4, which is not particularly limited herein.

Further, referring to fig. 1, 2 and 7, the housing 71 is provided with an opening (not shown) communicating with the cavity 73, the driving device includes a first mount 91, a second mount 92, an X-direction driving device 93 and a Y-direction driving device 94, the X-direction driving device 93 and the first mount 91 are all mounted in the housing 71, the first mount 91 is provided with an X-direction guide rail 95, and the X-direction driving device 93 is used for driving the second mount 92 to reciprocate in the X-direction. The Y-direction driving device 94 is mounted on the second mounting seat 92, the second mounting seat 92 is provided with a Y-direction guide rail 96, the sub-container mounting structure 81 is slidably mounted on the Y-direction guide rail 96 and extends into the cavity 73 through the opening, and the Y-direction driving device 94 is used for driving the sub-container mounting structure 81 to reciprocate along the Y-direction guide rail 96, so that the sub-container mounting structure 81 is driven to move along the X-direction and the Y-direction. It is to be understood that the X-direction driving device 93 and the Y-direction driving device 94 may be driven by belt transmission, chain transmission, or gear transmission, and the like, which is not particularly limited herein.

Further, the casing 71 is provided with a touch screen 711 and a switch button 712, the switch button 712 is used for controlling the split charging start and stop of the device, the touch screen 711 can be used for controlling the split charging quantity of the single split charging container 4, the interval time of the blanking of the single freeze-dried beads 3, the blowing time, the air pressure and the like of the blowing feeding assembly 5, so as to reasonably set the split charging requirement.

Still further, referring to fig. 1 and 2, a protective cover 74 is provided on top of the supporting frame 72, and the freeze-dried bead distributing device 1 and the shaking device are both located in the protective cover 74, so as to play a protective role. The inside of the protective cover 74 is provided with a static eliminator 75, so that the freeze-dried beads 3 are prevented from adhering to the connecting seat 65 or other parts due to static electricity, and the smooth performance of the sub-packaging work is ensured.

In the description of the present specification, reference to the terms "example," "embodiment," or "some embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The present application is, of course, not limited to the above-described embodiments, and one skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the application, and these equivalent modifications or substitutions are intended to be included in the scope of the present application as defined in the appended claims.

Claims

1. A lyophilized pellet dispensing apparatus comprising:

freeze-dried pearl feed divider includes:

the bottom of the storage cup is provided with an opening;

the feeding assembly is used for conveying the freeze-dried beads from the first end of the second channel to the second end of the second channel, the feeding assembly comprises an air blowing feeding assembly, the material separating seat is provided with a fourth channel communicated with the first end of the second channel, the fourth channel is communicated with the outside of the material separating seat, the air blowing feeding assembly is used for blowing air to the fourth channel, the material separating seat is provided with a telescopic driving assembly, the material separating seat is provided with a material blocking rod at the side edge of the third channel, the telescopic driving assembly is used for driving the material blocking rod to stretch into or withdraw from the third channel, and when the material blocking rod stretches into the third channel, an interception space is formed at the top of the material blocking rod, and the interception space can accommodate a single freeze-dried bead;

2. The lyophilized bead dispensing apparatus of claim 1, further comprising a shaking device for driving the lyophilized bead dispensing device to shake up and down.

3. The freeze-dried bead split charging equipment according to claim 2, wherein the material shaking device comprises a motor, a base and an eccentric shaft, the motor is in transmission connection with the eccentric shaft, the base is provided with a vertical guide rail, the vertical guide rail is slidably provided with a connecting seat, the freeze-dried bead material separating device is connected with the connecting seat through the material separating seat, the connecting seat is transversely provided with a sliding groove, and the eccentric shaft extends into the sliding groove and is matched with the sliding groove.

4. The freeze-dried bead partial shipment equipment of claim 3, wherein, the connecting seat is L type setting, the connecting seat includes first connecting seat and locates the second connecting seat at the top of first connecting seat, divide the material seat install in the top of first connecting seat, first connecting seat in with the position that corresponds from top to bottom of discharge gate is equipped with blanking hole, the base is located the second connecting seat deviates from the one side of dividing the material seat.

5. The freeze-dried bead packaging equipment according to claim 3, further comprising a shell and a support frame, wherein the support frame is arranged at the top of the shell, the support frame is provided with an avoidance hole communicated in the vertical direction, a cavity communicated with the avoidance hole is formed between the support frame and the shell, the motor and the base are both arranged at the top of the support frame, the connecting seat corresponds to the avoidance hole in the vertical direction, the packaging container moving device comprises a packaging container mounting structure and a driving device, the packaging container mounting structure is used for mounting a plurality of packaging containers, the driving device is arranged in the shell, the packaging container mounting structure is movably mounted in the cavity, and the driving device is used for driving the packaging container mounting structure to move in the X direction or the Y direction so that the packaging containers can move to the lower part of the discharge hole.

6. The apparatus according to claim 5, wherein the connection base is provided with a plurality of the freeze-dried bead dispensing devices.

7. The apparatus according to claim 5, wherein the housing is provided with an opening communicating with the cavity, the driving means comprises a first mount, a second mount, an X-direction driving means and a Y-direction driving means, both of which are mounted in the housing, the first mount is provided with an X-direction guide rail, the X-direction driving means is configured to drive the second mount to reciprocate in the X-direction, the Y-direction driving means is mounted in the second mount, the second mount is provided with a Y-direction guide rail, the dispensing container mounting structure is slidably mounted in the Y-direction guide rail and extends into the cavity through the opening, and the Y-direction driving means is configured to drive the dispensing container mounting structure to reciprocate along the Y-direction guide rail.

8. The freeze-dried bead packing apparatus according to claim 5, wherein a protective cover is arranged at the top of the support frame, the freeze-dried bead distributing device and the shaking device are both positioned in the protective cover, and a static eliminator is arranged in the protective cover.

9. The lyophilized pellet dispensing apparatus of claim 5, wherein the housing is provided with a touch screen and a switch button.