CN214139044U

CN214139044U - Synchronous feeding hard capsule inner sealing device

Info

Publication number: CN214139044U
Application number: CN202022692896.8U
Authority: CN
Inventors: 段洪斌; 张剑; 张本艳; 石文中; 吴方翔; 杨晓攀; 刘佳; 汪庆; 陈烨
Original assignee: Wuhan Intelligent Equipment Industrial Institute Co ltd
Current assignee: Wuhan Intelligent Equipment Industrial Institute Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-09-07
Anticipated expiration: 2030-11-18

Abstract

The utility model belongs to the capsule sealing field and discloses a synchronous feeding hard capsule inner sealing device, which comprises a sealing mechanism, a synchronous feeding mechanism and a drying mechanism, wherein the sealing mechanism comprises a rotating base which can rotate around a self horizontal axis and a plurality of sealing units which are uniformly distributed on the rotating base, each sealing unit comprises a carrier component and a pushing component, the carrier component is arranged in the rotating base, a capsule baffle plate is arranged above the carrier component, and the pushing component is arranged below the carrier component; the synchronous feeding mechanism is positioned above the sealing mechanism and can synchronously rotate with the rotating base; the drying mechanism is located beside the sealing mechanism for drying the sealed capsules ejected from the carrier assembly. The utility model discloses can realize the multistation sealing operation of capsule, have advantages such as simple structure, sealed efficient, convenient operation.

Description

Synchronous feeding hard capsule inner sealing device

Technical Field

The utility model belongs to the capsule sealing field, more specifically relates to a synchronous material loading's interior sealing device of ebonite bag.

Background

The hard capsule is one of important dosage forms for oral administration, and if the capsule is not sealed after being filled, the capsule has the problems of capsule content change, excessive moisture, leakage and the like in the processes of packaging, storage, transportation, sale and application, thereby seriously affecting the quality of the capsule. Meanwhile, a certain amount of capsules which are not sealed exist in the existing market to counterfeit and shoddy products, so that the hard capsule sealing technology has attracted extensive attention.

At present, some technical solutions for sealing hard capsules exist, for example, patent cn200480007489.x discloses an apparatus and a method for sealing capsules, which realize clamping and sealing of capsules by designing a sealing fixture, but the sealing apparatus cannot simultaneously realize sealing of a plurality of capsules, cannot realize multi-station sealing, and has low sealing efficiency. Therefore, there is a need in the art to redesign and study the sealing means of the capsule to obtain a device with higher sealing efficiency.

SUMMERY OF THE UTILITY MODEL

To the above defect of prior art or improve the demand, the utility model provides a synchronous material loading's ebonite bag inner seal device, it can realize the sealed operation of multistation of capsule through the design to key subassembly like sealing mechanism, feed mechanism and dry mechanism, has advantages such as simple structure, sealed efficient, convenient operation.

In order to achieve the above object, the utility model provides a synchronous material loading's ebonite bag inner sealing device, it includes sealing mechanism, synchronous formula feed mechanism and dry mechanism, wherein:

the sealing mechanism is used for sealing capsules to be sealed and comprises a rotating base capable of rotating around a horizontal axis of the sealing mechanism and a plurality of sealing units uniformly distributed on the rotating base, each sealing unit comprises a carrier assembly and a pushing assembly, the carrier assembly is mounted in the rotating base, a capsule baffle is arranged above the carrier assembly, the pushing assembly is arranged below the carrier assembly, and the pushing assembly is used for discharging the sealed capsules to the drying mechanism;

the synchronous feeding mechanism is positioned above the sealing mechanism and can synchronously rotate with the rotating base so as to convey a plurality of capsules to be sealed into the carrier assembly of a single sealing unit when the rotating base rotates;

the drying mechanism is located beside the sealing mechanism for drying the sealed capsules ejected from the carrier assembly.

As a further preferred, the carrier assembly includes a carrier seat, the carrier seat is provided with a plurality of vertical holes for accommodating the capsule to be sealed, and the side surface of the carrier seat located in the vertical holes is further provided with a sealing liquid micro-spout and a sealing liquid removing opening.

More preferably, the diameter of the sealing liquid micro-nozzle is 0.1mm to 0.3mm, and the diameter of the sealing liquid removing opening is 0.5mm to 0.8 mm.

As a further preferred, the synchronous feeding mechanism comprises a storage hopper, an orienting structure and a rotating mechanism, the storage hopper is mounted above the orienting structure and used for conveying the stored capsules to be sealed into the orienting structure, the orienting structure is used for conveying the capsules to be sealed into the carrier assembly, and the orienting structure can be driven by the rotating mechanism to perform synchronous rotating action with the rotating base.

As a further preference, the drying mechanism comprises a transfer channel and a helical drum, the transfer channel is positioned between the carrier assembly and the helical drum and is used for transferring the sealed capsules pushed out by the pushing assembly into the helical drum for drying.

Preferably, the wall surface of the spiral drum is provided with a hole for hot air to pass through, and a spiral plate is arranged in the spiral drum.

As a further preference, the pusher assembly comprises a plurality of movable push rods, the number of which is maintained in correspondence with the number of capsules to be sealed in a single sealing unit.

Generally, through the utility model above technical scheme who thinks compares with prior art, mainly possesses following technical advantage:

1. the utility model discloses a sealing mechanism's structural design cooperation synchronous formula feed mechanism can realize the multistation and seal the operation simultaneously, and guarantees that the many capsules of simplex position handle simultaneously, can improve capsule treatment effeciency greatly.

2. The utility model discloses a structural design of carrier subassembly can realize the effective holding of pending capsule to realize effective, the reliable spraying of sealed liquid and the smooth of unnecessary sealed liquid getting rid of.

3. The utility model discloses a but design synchronous revolution's feed mechanism can provide required capsule for a plurality of sealed stations, provides the guarantee for sealing device's the sealed operation of multistation.

4. The utility model discloses a drying mechanism's structural design can realize drying process to sealed capsule, reduces air humidity and oxygen in storage, transportation, use to the influence of medicine in the capsule, and medicine produces degradation or rotten in avoiding the capsule, avoids the capsule to be counterfeited.

Drawings

Fig. 1 is a schematic structural view of a hard capsule inner sealing device for synchronous feeding provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a sealing mechanism provided in an embodiment of the present invention;

fig. 3 is a schematic view of the assembly of a capsule in a carrier assembly provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a drying mechanism provided in an embodiment of the present invention;

fig. 5 is a schematic view of the operation of the hard capsule inner sealing device with synchronous loading according to the embodiment of the present invention, wherein a is before the start of the operation, B and C are the capsule loading process, and D is the capsule sealing process.

The same reference numbers will be used throughout the drawings to refer to the same or like elements or structures, wherein:

the device comprises a synchronous feeding mechanism, a sealing mechanism, a drying mechanism, a capsule, a rotating base, a carrier component, a capsule baffle, a pushing component, a carrier seat, a sealing liquid micro-nozzle, a sealing liquid removing port, a spiral roller and a transfer channel, wherein the synchronous feeding mechanism comprises a synchronous feeding mechanism 1, a sealing mechanism 2, a drying mechanism 3, a capsule 4, the rotating base 2.1, the carrier component 2.2, the capsule baffle 2.3, the pushing component 2.4, the carrier seat 2.2.1, the sealing liquid micro-nozzle, the sealing liquid removing port 2.2.3, the spiral roller 3.1 and the transfer channel 3.2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the embodiment of the utility model provides a synchronous feeding's sealing device in ebonite bag, it includes synchronous formula feed mechanism 1, sealing mechanism 2 and dry mechanism 3, wherein synchronous formula feed mechanism 1 and sealing mechanism synchronous revolution, a capsule for treating sealed arranges the range in order, and seal in will arranging the capsule orientation transport to sealing mechanism 2, sealing mechanism 2 is used for treating sealed capsule and seals, it can be rotatory around the axis of self, dry mechanism is used for carrying out the drying to sealed capsule, be convenient for subsequent transportation and storage. Through the cooperation of above-mentioned each mechanism, can realize the sealed operation of multistation of capsule, guarantee simultaneously sealed when a plurality of capsules in the single-station, have sealed efficient, operate advantages such as convenient.

The above mechanisms will be described in detail one by one.

With reference to fig. 1, a synchronous feed mechanism 1 is located above the sealing mechanism 2, which can rotate synchronously with the sealing mechanism 2, to achieve that a plurality of capsules to be sealed are transported into the carrier assembly 2.2 of a single sealing unit while the sealing mechanism 2 is rotating, while a plurality of sealing units can be fed with capsules to be sealed by this one feed mechanism.

Specifically, the synchronous feeding mechanism 1 includes a storage hopper (not shown in the figure), an oriented arrangement structure and a rotating mechanism (not shown in the figure), wherein the storage hopper is installed above the oriented arrangement structure, and is used for storing the capsules to be sealed and conveying the stored capsules to be sealed into the oriented arrangement structure, the oriented arrangement structure is used for arranging and arranging the capsules to be sealed, and then conveying the capsules to the carrier assembly 2.2 in an oriented manner, and the whole body formed by the oriented arrangement structure and the storage hopper can be driven by the rotating mechanism to rotate synchronously with the rotating base 2.1, so that the feeding of the capsules is realized in the rotating process of the rotating base 2.1, that is, the capsules are conveyed into the carrier assembly 2.2. The specific rotating mechanism is not limited, and the mechanism which can drive the directional arrangement structure and the rotating base to rotate synchronously in the prior art is applicable to the utility model. Specifically, the directional arrangement structure is used for directionally arranging the capsules, specifically, the capsule caps are arranged above the capsule caps and the capsule caps are arranged below the capsule caps, and the capsule caps are arranged below the capsule caps by using existing mature equipment, which is not described in detail herein. When the capsule feeding device works, after one sealing unit finishes feeding, the directional arrangement structure returns to the initial position to feed capsules of the next sealing unit.

With reference to fig. 1 and 2, the sealing mechanism 2 is used for sealing the capsule to be sealed, and includes a rotating base 2.1 rotatable about its horizontal axis and a plurality of sealing units uniformly distributed on the rotating base 2.1, the rotating base 2.1 is annular, and each sealing unit is used as a sealing station, for example, as shown in fig. 2, six sealing units are provided, and each sealing unit has six sealing stations. Each sealing unit comprises a carrier assembly 2.2 and a pushing assembly 2.4, wherein the carrier assembly 2.2 is arranged in the rotary base 2.1 and used for accommodating a plurality of capsules to be sealed and spraying sealing liquid to the positions of the capsules to be sealed, and the carrier assembly 2.2 can be replaced to adapt to capsules of different models. A capsule baffle 2.3 is arranged above the carrier component 2.2, in particular to the capsule baffle 2.3 is arranged at one end of the carrier component 2.2 close to the outer ring of the rotary base 2.1, the capsule shutter 2.3 can be opened and closed as required, in particular before loading the capsules and when the capsules need to be ejected, facilitating loading and ejection of the capsules into and out of the carrier assembly, the capsule is closed after being fed, so that the capsule in the carrier component is prevented from falling out in the rotating process of the rotating base, how to realize the opening and closing of the baffle plate can be realized by adopting the conventional means, for example, a telescopic cylinder may be disposed on the rotary base, the baffle plate is mounted on the telescopic rod of the telescopic cylinder, the baffle is driven to move by the extension of the telescopic rod, when the telescopic cylinder extends out, the baffle moves forwards to cover the carrier component 2.2, when the telescopic cylinder retracts, the baffle retracts, and no covering object is arranged above the carrier component 2.2, so that capsules can be conveniently filled and discharged. A pushing component 2.4 is arranged below the carrier component 2.2, in particular to the pushing component 2.4 is arranged at one end of the carrier component 2.2 close to the inner ring of the rotary base 2.1, and the pushing component 2.4 is used for discharging the sealed capsules to the drying mechanism 3.

Referring to fig. 2 and 3, the carrier assembly 2.2 includes a carrier base 2.2.1, the carrier base 2.2.1 is provided with a plurality of vertical holes for accommodating capsules to be sealed, the specific number and diameter of the vertical holes can be designed according to actual requirements, the diameter of the vertical holes is slightly larger than that of the capsules to be sealed, the side surface of the vertical hole on the carrier base 2.2.1 is also provided with a sealing liquid micro-spraying port 2.2.2 and a sealing liquid removing port 2.2.3, the sealing liquid micro-spraying port 2.2.2 is used for carrying out sealing liquid micro-spraying, the sealing liquid is micro-sprayed into an overlapping area between the inner wall of the capsule cap and the outer wall of the body from a gap between the end part of the open end of the capsule cap and the outer wall of the body, the sprayed sealing liquid dissolves and then solidifies the capsule cap and the body into a whole, and after the sealing liquid micro-spraying is finished, the sealing liquid removing port 2.2.2.3 is used for removing excessive sealing liquid during micro-spraying. Specifically, the carrier seat 2.2.1 is embedded in a groove of the rotary base 2.1, the pushing assembly 2.4 is positioned on one side of the carrier seat 2.2.1 close to the inner wall of the rotary base, namely the pushing assembly 2.4 is arranged on the inner side of the circular rotary base 2.1, the pushing assembly 2.4 is used for pushing against the capsule to be sealed in the vertical hole before sealing, and is used for ejecting the sealed capsule in the vertical hole when discharging after sealing.

Specifically, the sealing liquid micro-nozzles 2.2.2 are arranged below the sealing liquid removing openings 2.2.3, and the sealing liquid micro-nozzles 2.2.2 and the sealing liquid removing openings 2.2.3 are all arranged in groups around each capsule. This sealed liquid is spout the external sealed liquid supply source of 2.2.2 a little, and specific sealed liquid can be selected according to actual need, and it is unnecessary to give another remarks here, and the volume of sealed liquid is spouted at every turn to the accurate control of accessible sealed liquid supply source, can guarantee that sealed liquid can effectual messenger capsule cap and body fuse and the sealed liquid surplus volume is suitable, avoids the capsule outside to take place extra deformation. The sealing liquid removing port 2.2.3 is externally connected with a vacuum air extractor, redundant sealing liquid is removed through air extraction, the removing time is generally 1 s-3 s, redundant solution is removed within a certain time, when the capsule enters the drying mechanism, the capsule is basically in a dry state, the capsule does not need to be stirred and turned, and the capsule cannot be bonded with each other or the surface of the drying mechanism. Specifically, the diameter of the sealing liquid micro-spraying opening 2.2.2 is designed to be 0.1 mm-0.3 mm, the diameter of the sealing liquid removing opening 2.2.3 is designed to be 0.5 mm-0.8 mm, a certain amount of sealing liquid is sprayed at the position to be sealed of the capsule through the design, and the effective removal of redundant sealing liquid is ensured.

When sealing, the cap of the capsule is on the top, the body is on the bottom, the cap is sleeved outside the body, a gap is arranged between the inner wall of the cap and the outer wall of the body, firstly, sealing liquid is sprayed at the overlapping position of the cap and the body through the sealing liquid micro-nozzle 2.2.2, the sealing liquid enters the gap at the gap between the cap and the body through capillary action to form annular sealing between the inner wall of the cap and the outer wall of the body, and redundant sealing liquid flows downwards along the wall surface of the capsule and is discharged through the sealing liquid removing port 2.2.3.

Further, the pushing assembly 2.4 is mounted inside the rotating base 2.1, and includes a plurality of movable push rods, the number of the movable push rods is consistent with the number of the capsules to be sealed at each sealing station, that is, consistent with the number of the vertical holes formed in the single carrier seat 2.2.1, that is, the movable push rods correspond to the capsules one by one, so that the capsules to be sealed in the vertical holes are supported by the movable push rods before sealing, the sealed capsules in the vertical holes are ejected by upward movement of the movable push rods after sealing, and the upward and downward movement of the movable push rods can be realized by using the existing driving mechanism, which is not described herein.

When the synchronous feeding mechanism 1 is used for feeding, the capsule baffle 2.3 is in an open state, the capsule 4 enters the carrier component 2.2, and after the feeding is finished, the capsule baffle 2.3 is closed to prevent the capsule from being separated from the carrier component 2.2; after the capsule baffle 2.3 is closed, the sealing liquid micro-spraying port 2.2.2 micro-sprays the sealing liquid into an overlapping area between the capsule cap and the body, after the sealing liquid micro-spraying is finished, the sealing liquid removing port 2.2.3 removes redundant sealing liquid, the removing action is continued until the carrier component 2.2 rotates to a discharge area, the capsule baffle 2.3 is opened, the capsule 4 which is sealed is pushed out to the drying mechanism by the movable push rod, and the rotary base continuously rotates around the axis of the rotary base in the whole process.

With reference to fig. 1 and 4, drying means 3 are located laterally above the sealing means 2 for drying the sealed capsules ejected from the carrier assembly 2.2. Specifically, the drying mechanism 3 includes a transfer channel 3.2 and a spiral drum 3.1 which are communicated with each other, the transfer channel 3.2 is located at the side of the carrier assembly 2.2 above the rotary base (for example, at the side of the carrier assembly above and to the left of the rotary base, as shown in fig. 1), and faces the pushing assembly 2.4, and is used for transferring the sealed capsules pushed out by the pushing assembly 2.4 into the spiral drum 3.1 for drying. The specific location of the transfer channel 3.2 can be selected and set according to actual needs, for example, it can be located at the side of the carrier assembly 2.2 below the rotary base, as long as it is convenient for the capsule discharged from the carrier assembly to smoothly enter the transfer channel 3.2.

Specifically, the spiral drum 3.1 is provided with a hole for hot air to pass through, the diameter of the hole is smaller than that of the sealed capsule, and hot air can enter the drum through the hole in the wall of the drum so as to dry the capsule in the drum, so that the cap and the body are completely cured and further dried. Preferably, the spiral drum 3.1 can rotate around the horizontal axis of the spiral drum, a spiral plate is arranged in the spiral drum, the retention time of the capsules in the spiral drum can be prolonged through the design of the spiral plate, and the drying effect is ensured. In use, the helical drum may be tilted slightly, in particular with the end near the transfer channel 3.2 higher than the end far from the transfer channel 3.2, so that the capsules are transported from the end of the helical drum 3.1 near the transfer channel 3.2 to the end far from the transfer channel 3.2, where they exit the helical drum 3.1 and are collected.

In order to facilitate the installation of the sealing device, a frame (not shown in the figure) may be provided, the rotating base 2.1 is installed on the frame through a rotating shaft, the spiral drum and the transfer channel are also installed on the frame, the synchronous feeding mechanism 1 may also be installed on the frame, the relative positions of each other may be designed according to actual conditions, and only the functions of each component need to be realized, which is not repeated herein.

The working process of the sealing device of the present invention is explained below.

As shown in fig. 5, before the work starts, the synchronous feed mechanism 1 is located right above one sealing unit (a in fig. 5), as shown by a in fig. 5; after the work is started, the synchronous feeding mechanism 1 and the rotating base rotate synchronously, namely the rotating base rotates around the horizontal axis of the rotating base, the synchronous feeding mechanism 1 performs circular motion around the axis of the rotating base, the operation angular speeds of the synchronous feeding mechanism 1 and the rotating base are consistent, and the synchronous feeding mechanism 1 sends capsules to be sealed into a carrier component 2.2 in the rotating process to realize the feeding of the capsules, as shown in B-C in figure 5; after feeding, the capsule baffle 2.3 covers the carrier component 2.2 to prevent the capsule from falling off, the rotary base continues to rotate, the sealing liquid is sprayed into an overlapped area between the capsule cap and the body through the sealing liquid micro-spraying opening 2.2.2, after the sealing liquid micro-spraying is finished, the sealing liquid removing opening 2.2.3 is used for removing redundant sealing liquid, the sealed capsule rotates to a position facing the transfer channel 3.2, the capsule baffle 2.3 is opened, the pushing component 2.4 pushes out the sealed capsule and falls into the transfer channel 3.2, and the sealed capsule enters the spiral roller 3.1 through the transfer channel 3.2; after one sealing unit finishes feeding, the feeding mechanism 1 returns to the initial position, which is located right above the next sealing unit (b in fig. 5), as shown in D in fig. 5, and then the same steps are adopted for feeding, sealing and discharging capsules in the sealing unit, and so on, so as to finish the sealing operation of capsules in the subsequent sealing units. Wherein, the rotational speed of rotating bed and feed mechanism can design according to actual need, and during wherein synchronous revolution, the rotational speed of both keeps unanimous, and the feed mechanism gets back the speed that initial position needs and is greater than rotating bed's rotational speed to when guaranteeing that feed mechanism gets back initial position, just be located next sealed unit directly over, these accessible design rotating bed and the specific rotational speed realization of feed mechanism, it is prior art, and it is unnecessary to describe here. In order to ensure the accuracy of the feeding, a sensing unit can be arranged on the feeding mechanism, and when the sensing unit senses that the carrier assembly which is not fed moves to the position right below the carrier assembly, the feeding action of the capsules is started.

Of course, the sealing device of the present invention can also act as follows: the synchronized feeding mechanism 1 is located directly above a sealing unit, as shown in fig. 5B, the synchronized feeding mechanism 1 feeds the capsules to be sealed into the carrier assembly 2.2 of the sealing unit, the feeding of the capsules is realized, the capsule baffle 2.3 covers the carrier component 2.2 after the feeding, the capsules are prevented from falling off, then the rotary base starts to rotate, the sealing liquid is micro-sprayed into the overlapping area between the capsule cap and the body through the sealing liquid micro-spraying opening 2.2.2 in the rotating process, the capsule cap and the body are dissolved by the sealing liquid and then solidified into a whole, after the sealing liquid is sprayed slightly, the sealing liquid removing port 2.2.3 is used for removing the redundant sealing liquid, when the sealed capsule rotates to a position facing the transfer channel 3.2, the capsule baffle 2.3 is opened, the pushing component 2.4 pushes out the sealed capsule, drops the sealed capsule into the transfer channel 3.2 and enters the spiral roller 3.1 through the transfer channel 3.2; when the next sealing unit rotates to the position right below the synchronous feeding mechanism 1, the rotating base stops rotating, the synchronous feeding mechanism 1 starts feeding, capsules to be sealed are sent into the carrier assembly 2.2 of the sealing unit, the capsule baffle 2.3 covers the carrier assembly 2.2 after the feeding is finished, then the rotating base continues rotating, the subsequent sealing operation is finished, and the like, and the sealing operation of the capsules in the subsequent sealing units is finished. Compare aforementioned working process, this working process needs the rotating basis intermittent type formula to stop rotatoryly, and sealed efficiency reduces slightly, nevertheless because the utility model discloses the design has a plurality of sealed stations, and every station all designs has a plurality of vertical holes, consequently can realize that the multistation is sealed to when guaranteeing a plurality of capsules in the single station sealed, so compare prior art, sealed efficiency still has great promotion. Through the utility model discloses a sealing device can realize the multistation synchronization action, when a station execution is sealed, can carry out the material loading at next station, and each station all can realize the sealed of a batch of capsules, improves sealed efficiency greatly.

In a word, the utility model discloses a spout a little and unnecessary solution is got rid of, can effectually realize the inner seal of ebonite bag, and synchronous formula feed mechanism can realize the capsule when the multistation and handle, and double improvement production efficiency, the utility model discloses can seal and improve the stability behind the pharmaceutical packaging in capsule registrant department. The utility model discloses synchronous formula feed mechanism can carry out synchronous circular motion around sealing mechanism's axis, and whole in-process sealing mechanism can continuously rotate, and the many capsules of simplex position can be handled simultaneously, and capsule treatment effeciency is high, and the matching of feed mechanism accessible beat realizes the capsule when multistation and handles, improvement production efficiency that can double.

It will be understood by those skilled in the art that the foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a sealing device in hard gelatin capsule of synchronous material loading which characterized in that, includes sealing mechanism (2), synchronous formula feed mechanism (1) and dry mechanism (3), wherein:

the sealing mechanism (2) is used for sealing capsules to be sealed, and comprises a rotating base (2.1) capable of rotating around a horizontal axis of the sealing mechanism and a plurality of sealing units uniformly distributed on the rotating base (2.1), each sealing unit comprises a carrier assembly (2.2) and a material pushing assembly (2.4), the carrier assembly (2.2) is mounted in the rotating base (2.1), a capsule baffle (2.3) is arranged above the carrier assembly (2.2), the material pushing assembly (2.4) is arranged below the carrier assembly, and the material pushing assembly (2.4) is used for discharging the sealed capsules in the carrier assembly (2.2) to the drying mechanism (3);

the synchronous feeding mechanism (1) is positioned above the sealing mechanism (2) and can synchronously rotate with the rotating base (2.1) so as to convey a plurality of capsules to be sealed into the carrier assembly (2.2) of a single sealing unit when the rotating base (2.1) rotates;

the drying mechanism (3) is located beside the sealing mechanism (2) and is used for drying the sealed capsules discharged from the carrier assembly (2.2).

2. The synchronized feeding hard capsule internal sealing device according to claim 1, characterized in that the carrier assembly (2.2) comprises a carrier base (2.2.1), the carrier base (2.2.1) is provided with a plurality of vertical holes for accommodating capsules to be sealed, and the carrier base (2.2.1) is further provided with a sealing liquid micro-nozzle (2.2.2) and a sealing liquid removing port (2.2.3) at the side of the vertical holes.

3. The simultaneous loading hard capsule internal sealing device according to claim 2, wherein the sealing liquid micro-nozzle (2.2.2) has a diameter of 0.1mm to 0.3mm, and the sealing liquid removing port (2.2.3) has a diameter of 0.5mm to 0.8 mm.

4. The synchronized feeding hard capsule internal sealing device according to claim 1, characterized in that the synchronized feeding mechanism (1) comprises a storage hopper, an orienting structure and a rotating mechanism, the storage hopper is mounted above the orienting structure and is used for conveying the stored capsules to be sealed into the orienting structure, the orienting structure is used for conveying the capsules to be sealed into the carrier assembly (2.2), and the synchronized rotating action of the synchronized feeding hard capsule internal sealing device and the rotating base (2.1) can be realized under the driving of the rotating mechanism.

5. The sealing device in hard capsules with simultaneous loading according to claim 1, characterized in that said drying means (3) comprise a transfer channel (3.2) and a spiral drum (3.1), the transfer channel (3.2) being located between the carrier assembly (2.2) and the spiral drum (3.1) for transferring the sealed capsules pushed out by the pushing assembly (2.4) into the spiral drum (3.1) for drying.

6. The sealing device in hard capsules for the simultaneous feeding according to claim 5, characterized in that the wall of the spiral drum (3.1) is provided with holes for the passage of hot air and inside which the spiral plate is arranged.

7. The sealing device in hard capsules with simultaneous loading according to claim 1, characterized in that said pushing assembly (2.4) comprises a plurality of movable push rods, the number of which is in accordance with the number of capsules to be sealed in a single sealing unit.