CN215373250U - Capsule drying equipment - Google Patents

Abstract

The application discloses capsule drying equipment which comprises a shell, wherein a drying cavity and mounting cavities positioned on two sides of the drying cavity are arranged in the shell, a plurality of placing assemblies are rotatably mounted in the drying cavity, and the placing assemblies are used for placing capsules with drying; install actuating mechanism in one of them installation intracavity, install spring and heating device in another installation intracavity, heating device is used for heating the stoving chamber, the spring with place the tip cooperation of subassembly to make actuating mechanism can drive and place the subassembly and carry out circumference swing and axial vibration. The beneficial effect of this application: when the capsule on the placing assembly is dried, the capsule can roll in the placing groove at any time through the swinging and vibration of the placing assembly, so that the capsule is prevented from deforming and sticking during drying; meanwhile, the air flow around the capsule is accelerated when the capsule rolls, so that the capsule is heated more uniformly, the drying quality of the capsule is improved, and the drying period is shortened.

Description

Capsule drying equipment

Technical Field

The application relates to the field of medicine production, in particular to capsule drying equipment.

Background

The capsule is prepared by adding appropriate adjuvants into a certain amount of medicinal materials and extracts, and sealing in spherical, elliptical or other soft capsule materials. At present, the capsule materials of most capsules are made of materials such as gelatin and glycerol, so the capsules are dried before use, and the temperature cannot exceed 40 ℃ when the capsules are dried because the main component of the gelatin is a high molecular polymer consisting of amino acid, so the drying period of the capsules is longer. When the existing drying equipment is used for drying, capsules are basically statically stacked together for drying, so that the dried capsules generate certain deformation and are easy to stick, and subsequent packaging is influenced; there is a need for improvements in existing dryers.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a capsule drying equipment, reduces the deformation of capsule through dynamic drying, stops gluing of capsule simultaneously.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows: the capsule drying equipment comprises a shell, wherein a drying cavity and mounting cavities positioned on two sides of the drying cavity are arranged in the shell, a plurality of placing assemblies are rotatably mounted in the drying cavity, and the placing assemblies are used for placing capsules to be dried; a driving mechanism is arranged in one of the mounting cavities and comprises a motor and a transverse vibration assembly, the transverse vibration assembly is matched with the placing assembly, the motor is suitable for driving the placing assembly and the transverse vibration assembly to swing, meanwhile, a spring and a heating device are arranged in the other mounting cavity and used for heating the drying cavity, and the spring is matched with the end part of the placing assembly so that the transverse vibration assembly drives the placing assembly to transversely vibrate through the spring; through place the swing and the lateral vibration of subassembly for place the subassembly when drying, can be in the space telemechanical state constantly, thereby realize the dynamic stoving of capsule, thereby prevent that the capsule from taking place deformation and gluing glutinous when drying.

Preferably, two partition plates are arranged in the shell, the drying cavity is formed between the two partition plates, the mounting cavity is formed between the partition plates and the side wall of the shell, vent holes are uniformly distributed in one partition plate, and the heating device heats the inside of the drying cavity through the vent holes; the both ends of placing the subassembly all are fixed with the bracing piece, it passes through to place the subassembly the bracing piece with the baffle rotates to be connected, and is a plurality of it evenly sets up to place the interval from top to bottom between the subassembly, so that it is heated evenly when drying to place the subassembly.

Preferably, the placing assembly comprises a placing plate and a supporting plate, wherein the placing plate is provided with evenly distributed placing grooves, the placing grooves are oval, and the placing grooves are used for placing capsules; the supporting rods are fixed on two sides of the supporting plate, concave positioning grooves are formed in the supporting plate, clamping blocks are arranged on two sides of each positioning groove, and concave clamping grooves are formed in two sides of the bottom of the placing plate; when the placing plate is placed in the positioning groove, the clamping block is matched with the clamping groove, so that the placing plate is detachably connected with the supporting plate, and the placing plate does not depart from the positioning groove when the placing assembly is dried.

Preferably, the length of draw-in groove is greater than the length of fixture block to draw-in groove bottom both ends are sunken to both sides, simultaneously the upper portion both ends of fixture block are protruding to both sides, thereby when placing the subassembly and swing, place the board can be stable with the backup pad carries out the block.

Preferably, the motor is fixedly mounted on the outer wall of the shell, the output end of the motor is connected with a driving shaft with a flower key groove, and the driving shaft extends into the mounting cavity; the utility model discloses a supporting plate, including the bracing piece, the bracing piece is placed the board and is placed the board, the bracing piece is placed the board and is placed the bracing piece, the bracing piece is provided with the spline groove, the bracing piece has the belt pulley through spline groove slidable mounting, and be located the below place on the board the bracing piece still is provided with the internal spline, the drive shaft with bracing piece splined connection, adjacent place the belt pulley between the board and connect through the belt, so that the motor drives a plurality ofly simultaneously place the board and swing.

Preferably, one of the partition plates is further provided with a plurality of pairs of symmetrical limiting grooves, each limiting groove is an arc section taking the rotating installation position of the placement plate as a center, the radian of each limiting groove is smaller than pi/3, and meanwhile one side of the placement plate is provided with a pair of limiting rods which are in sliding fit with the corresponding limiting grooves to prevent the placement plate from being too large in angle during swinging.

Preferably, a rotating seat and a mounting seat are fixedly mounted on the side wall of the shell of one of the mounting cavities, the transverse vibration assembly comprises a left cam sleeve and a right cam sleeve, the left cam sleeve is rotatably connected with the rotating seat through a rotating shaft fixed on one side, a left protruding block is arranged on the other side of the left cam sleeve, the right cam sleeve is in splined connection with the mounting seat through a spline shaft fixed on one side, the end of the spline shaft abuts against the end of one of the support rods on one side of the support plate, a plurality of top blocks extend from the side wall of the right cam sleeve, the top blocks abut against the end of the other support rods on one side of the support plate, a right protruding block is arranged on the other side of the right cam sleeve, and the right protruding block is matched with the left protruding block; a plurality of connecting sleeves are fixed in the other mounting cavity, the supporting rod on the other side of the supporting plate is rotatably connected with the connecting sleeves, the spring is mounted in the connecting sleeves, one end of the spring abuts against the end part of the supporting rod, and the other end of the spring abuts against the bottom end of the connecting sleeve; meanwhile, the driving shaft is connected with the left cam sleeve through a belt, so that the motor drives the left cam sleeve to rotate, and the left convex block drives the right cam sleeve to push the placing assembly to axially reciprocate.

Preferably, the transverse vibration assembly further includes a rolling assembly, the rolling assembly includes a plurality of rolling bodies and a retainer, the rolling bodies are installed on the retainer in a rolling manner at uniform intervals, and the rolling assembly is installed between the left cam sleeve and the right cam sleeve, so that the rolling bodies are respectively in rolling fit with the left lug and the right lug, and further, when the transverse vibration assembly works, sliding friction between the left lug and the right lug is changed into rolling friction.

Compared with the prior art, the beneficial effect of this application lies in:

(1) the motor drive is used for placing the assembly to swing and simultaneously driving the transverse vibration assembly to operate, so that when the capsule on the assembly is placed and dried, the capsule can roll in a space generated in the placing groove constantly through the swinging and the vibration of the assembly, the dynamic drying of the capsule is realized, and the capsule is prevented from deforming and being sticky when being dried.

(2) Through the roll of capsule in the space for the air flow around the capsule accelerates, can also make being heated of capsule more even when improving evaporation efficiency, thereby improves the oven-dry mass of capsule and shortens the stoving cycle.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is an internal cross-sectional view of the present invention;

FIG. 3 is a schematic view of the internal structure of the housing of the present invention;

FIG. 4 is a schematic view of the various mechanisms and components within the housing of the present invention in an exploded condition;

FIG. 5 is a schematic view of the structural components of the placement module of the present invention;

FIG. 6 is a schematic view of the engagement structure of the placing plate and the supporting plate according to the present invention;

FIG. 7 is a schematic view showing a state in which the capsule is placed in the placement groove according to the present invention;

FIG. 8 is an exploded view of the transverse vibration assembly of the present invention;

FIG. 9 is a schematic view of the structure of the support plate and the spring of the present invention;

FIG. 10 is a schematic view of the placement assembly of the present invention in a swung position;

in the figure: the drying device comprises a shell 1, a door panel 11, a partition plate 12, a connecting sleeve 13, a mounting seat 14, a rotating seat 15, a drying cavity 110, a mounting cavity 120, a vent hole 121, a limiting groove 122, a placing component 2, a placing plate 21, a clamping groove 210, a placing groove 211, a handle 212, a supporting plate 22, a positioning groove 220, a clamping block 221, a supporting rod 222, a limiting rod 223, a driving mechanism 3, a motor 31, a driving shaft 311, a transverse vibration component 32, a left cam sleeve 321, a left convex block 3211, a rotating shaft 3212, a right cam sleeve 322, a right convex block 3221, a spline shaft 3222, a top block 3223, a rolling component 323, a rolling body 3231, a holding frame 3232, a heating device 4, a belt 5, a spring 6, a belt pulley 7 and a capsule 8.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present application and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be construed as limiting the specific scope of protection of the present application.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Embodiment as shown in fig. 1, 2, 4 and 10, a capsule drying apparatus includes a casing 1, two partition plates 12 are disposed inside the casing 1, a drying chamber 110 may be formed between the two partition plates 12, meanwhile, two partition plates 12 and a side wall of the casing 1 form a mounting chamber 120 located at two sides of the drying chamber 110, an opening is disposed at a port of the casing 1, and a door panel 11 is rotatably mounted on a side plate of the opening. The drying cavity 110 is internally provided with the placing assemblies 2, in order to improve the production efficiency, the number of the placing assemblies 2 can be set to be plural, for example, as shown in fig. 2 and 4, the number of the placing assemblies 2 is three, the three placing assemblies 2 are rotatably connected with the partition plate through the supporting rods 222 fixed on two sides, and the placing assemblies 2 are used for placing the capsules 8 to be dried. Install actuating mechanism 3 in one of them installation cavity 120, actuating mechanism 3 specifically includes motor 31 and lateral vibration subassembly 32, lateral vibration subassembly 32 cooperates with placing subassembly 2, motor 31 is suitable for the drive to place subassembly 2 and lateral vibration subassembly 32 and swings, install spring 6 and heating device 4 in another installation cavity 120 simultaneously, heating device 4 is used for heating in drying chamber 110, spring 6 cooperates with the tip of placing subassembly 2, so that motor 31 is when the swing of drive lateral vibration subassembly 32, lateral vibration subassembly 32 can pass through the drive of spring 6 and place subassembly 2 and carry out lateral reciprocating motion, thereby form lateral vibration.

It can be understood that, after placing the capsule 8 of treating the stoving on placing the subassembly 2, close door plant 11 and start heating device 4, make whole stoving chamber 110 be in the constant temperature state, then motor 31 circulation is just reversing, in order to drive and place subassembly 2 and transverse vibration subassembly 32 and carry out the circulation swing, through the swing of transverse vibration subassembly 32 and the elasticity of spring 6, can drive and place subassembly 2 and carry out reciprocating motion along the axial of bracing piece 222, make and place subassembly 2 when drying, can be in the space telemechanical state constantly, thereby realize the dynamic stoving of capsule 8, in order to prevent that capsule 8 from taking place deformation and gluing when drying. And the space of capsule 8 rolls, can make the air flow around the capsule 8 accelerate to can also make being heated of capsule 8 more even when improving evaporation efficiency, and then improve the oven-dry mass of capsule 8 and shorten the stoving cycle.

In order to ensure the uniform heating of the capsule 8, as shown in fig. 2 and 3, the partition plate 12 is provided with vent holes 121 uniformly distributed, and the heating device 4 heats the drying chamber 110 through the vent holes 121; through the even setting of interval about three between placing the subassembly 2 to make and leave sufficient rotation space and heated space between the adjacent subassembly 2 of placing.

Specifically, as shown in fig. 5, 6 and 7, the placing assembly 2 specifically comprises a placing plate 21 and a supporting plate 22, wherein the placing plate 21 is provided with evenly distributed placing slots 211, the placing slots 211 are oval, circular or cylindrical, preferably oval, and the placing slots 211 are used for placing the capsules 8. The support rods 222 are fixed on two sides of the support plate 22, so that the support plate 22 drives the placing plate 21 to swing and move axially; in order to facilitate the placement of the placement plate 21, an inwardly concave positioning groove 220 may be disposed on the support plate 22, and two sides of the positioning groove 220 are provided with a clamping block 221, and two sides of the bottom of the placement plate 21 are provided with an inwardly concave clamping groove 210, so that when the placement plate 21 is placed in the positioning groove 220, the clamping is performed with the clamping groove 210 through the clamping block 221, so that the placement plate 21 is detachably connected with the support plate 22, and when the placement assembly 2 is dried, the placement plate 21 swings and moves axially along with the support plate 22 without departing from the positioning groove 220.

It can be understood that, when the capsule 8 needs to be dried, the placing plate 21 is lifted up through the handle 212 at the end part, so that the clamping groove 210 of the placing plate 21 is separated from the matching with the clamping block 221, then the placing plate 21 is drawn out of the drying chamber 110, the capsule 8 to be dried is inverted on the placing plate 21 after the placing plate 21 is taken out, the capsule 8 to be dried is sieved into the placing groove 211 by slightly sieving the placing plate 21, and then the placing plate 21 is placed back into the positioning groove 220 on the supporting plate 22 in the drying chamber 110 and the door plate 11 is closed for drying; when the drying is completed, the placing plate 21 is taken out, and the dried capsule 8 can be taken out from the placing groove 211 by inverting.

In order to further improve the stability of the placement assembly 2 during swinging, as shown in fig. 6, the length of the slot 210 may be greater than the length of the latch 221, and both ends of the bottom of the slot 210 are recessed towards both sides, and both ends of the upper portion of the latch 221 are raised towards both sides, so that when the placement assembly 2 swings, the placement plate 21 slightly slides along the positioning slot 220, so that the recessed position of the slot 210 is just engaged with the raised position of the latch 221, and the placement plate 21 cannot tilt.

Specifically, as shown in fig. 2, 4 and 10, the motor 31 is fixedly mounted on the outer wall of the housing 1, the output end of the motor 31 is connected with a driving shaft 311 with a spline, and the driving shaft 311 extends into the mounting cavity 120; and the side wall of the support rod 222 on one side of the support plate 22 is provided with a spline groove, the support rod 222 is slidably mounted with the belt pulley 7 through the spline groove, and the support rod 222 on the lowest placing plate 21 is further provided with an internal spline, so that the motor 31 is in spline connection with the lowest support rod 222 through the driving shaft 311, and meanwhile, the belt pulley 7 between the adjacent placing plates 21 is connected through the belt 5, so that the motor 31 can drive the three placing plates 21 to swing simultaneously.

In order to prevent the capsule 8 in the placing groove 211 from being thrown out due to the excessive swing amplitude of the placing plate 21, as shown in fig. 3, 5 and 10, three pairs of symmetrical limiting grooves 122 are arranged on one partition plate 12, and each pair of limiting grooves 122 corresponds to one placing plate 21; the limiting groove 122 is an arc section which takes the rotating installation position of the placing plate 21 as a center, the radian of the limiting groove 122 is limited to be less than pi/3, and a pair of limiting rods 223 are arranged on one side of the placing plate 21, so that when the placing plate 21 swings, the placing plate 21 is in sliding fit along the limiting groove 122 through the limiting rods 223.

Specifically, as shown in fig. 3, 8 and 9, a rotating seat 15 and a mounting seat 14 are fixedly mounted on a side wall of the housing 1 in one of the mounting cavities 120, the transverse vibration assembly 32 includes a left cam sleeve 321 and a right cam sleeve 322, the left cam sleeve 321 is rotatably connected with the rotating seat 15 through a rotating shaft 3212 fixed on one side, and a left projection 3211 is disposed on the other side of the left cam sleeve 321. The right cam sleeve 322 is in splined connection with the mounting seat 14 through a spline shaft 3222 fixed on one side, it can be understood that the right cam sleeve 322 can only move axially along the mounting seat 14 without rotating, and the end of the spline shaft 3222 abuts against the end of the support rod 222 on one side of one of the support plates 22, the side wall of the right cam sleeve 322 is further provided with two top blocks 3223 in an extending manner, the top blocks 3223 abut against the ends of the support rods 222 on one sides of the other two support plates 22, meanwhile, the other side of the right cam sleeve 322 is provided with a right protrusion 3221, and the right protrusion 3221 and the left protrusion 3211 are matched with each other. A connecting sleeve 13 corresponding to the placing plates 21 in number and position is fixed in the other mounting cavity 120, the supporting rod 222 on the other side of the placing plate 21 is rotatably connected with the connecting sleeve 13, the spring 6 is mounted in the connecting sleeve 13, one end of the spring 6 abuts against the end of the supporting rod 222, and the other end of the spring 6 abuts against the bottom end of the connecting sleeve 13. Meanwhile, the driving shaft 311 and the rotating shaft 3212 are both provided with a belt pulley 7, and the belt pulleys 7 are connected through a belt 5, so that the motor 31 drives the left cam sleeve 321 to rotate through the belt 5, and then the left cam sleeve 322 is driven by the left bump 3211 to push the three supporting plates 22 to perform axial reciprocating movement simultaneously under the elastic force of the spring 6, so that the supporting plates 22 can drive the placing plate 21 to swing and perform axial vibration simultaneously.

Since the left projection 3211 drives the right cam sleeve 322 to move axially by sliding and pressing, a large friction force is generated at the matching position of the left projection 3211 and the right projection 3221, and the left projection 3211 and the right projection 3221 are easily worn out after long-term use. Therefore, in order to reduce wear, as shown in fig. 8, the transverse vibration assembly 32 further includes a rolling assembly 323, the rolling assembly 323 specifically includes a plurality of rolling elements 3231 and a cage 3232, and the rolling elements 3231 are installed in the cage 3232 in a rolling manner at uniform intervals; the rolling assembly 323 is installed between the left cam sleeve 321 and the right cam sleeve 322, so that the rolling body 3231 is in rolling fit with the left projection 3211 and the right projection 3221, respectively, and further, when the transverse vibration assembly 32 works, sliding friction between the left projection 3211 and the right projection 3221 is changed into rolling friction. It can be understood that the left projection 3211 and the right projection 3221 are wavy in circumference, so in an initial state, the rolling element 3231 is clamped between the left projection 3211 and the right projection 3221 through corresponding troughs, then with the rotation of the left projection 3211, the left projection 3211 drives the rolling element 3231 to rotate synchronously with the left projection 3211 through an inclined plane, and since the right cam sleeve 322 cannot rotate, the rolling element 3231 rolls relatively along the circumference of the right projection 3221, so that the right cam sleeve 322 reciprocates in the axial direction.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (8)

1. The utility model provides a capsule drying equipment, includes the casing, its characterized in that: a drying cavity and mounting cavities positioned at two sides of the drying cavity are arranged in the shell, a plurality of placing assemblies are rotatably mounted in the drying cavity, and the placing assemblies are used for placing capsules to be dried; one of them install actuating mechanism in the installation cavity, actuating mechanism includes motor and lateral vibration subassembly, the lateral vibration subassembly with place the subassembly cooperation, the motor is suitable for the drive place the subassembly and the lateral vibration subassembly swings, another simultaneously install spring and heating device in the installation cavity, heating device is used for right the stoving chamber heating, the spring with place the tip cooperation of subassembly, so that the lateral vibration subassembly passes through the spring drives place the subassembly and carry out lateral reciprocating.

2. The capsule drying apparatus of claim 1, wherein: two partition plates are arranged in the shell, the drying cavity is formed between the two partition plates, the mounting cavity is formed between the partition plates and the side wall of the shell, vent holes are uniformly distributed in one partition plate, and the heating device heats the inside of the drying cavity through the vent holes; the two ends of the placing component are both fixed with supporting rods, the placing component is connected with the partition plate in a rotating mode through the supporting rods, and the placing component is arranged among the placing components evenly at intervals from top to bottom.

3. The capsule drying apparatus of claim 2, wherein: the placing assembly comprises a placing plate and a supporting plate, wherein the placing plate is provided with evenly distributed placing grooves, the placing grooves are oval, and the placing grooves are used for placing capsules; the supporting rods are fixed on two sides of the supporting plate, concave positioning grooves are formed in the supporting plate, clamping blocks are arranged on two sides of each positioning groove, and concave clamping grooves are formed in two sides of the bottom of the placing plate; when the placing plate is placed in the positioning groove, the clamping block is matched with the clamping groove.

4. The capsule drying apparatus of claim 3, wherein: the length of the clamping groove is larger than that of the clamping block, two ends of the bottom of the clamping groove are sunken towards two sides, and two ends of the upper portion of the clamping block are protruded towards two sides.

5. The capsule drying apparatus of claim 3, wherein: the motor is fixedly arranged on the outer wall of the shell, the output end of the motor is connected with a driving shaft with a flower key groove, and the driving shaft extends into the mounting cavity; the utility model discloses a supporting plate, including the bracing piece, the bracing piece is placed the board and is placed the board, the bracing piece is placed the board and is placed the bracing piece, the bracing piece is provided with the spline groove, the bracing piece has the belt pulley through spline groove slidable mounting, and be located the below place on the board the bracing piece still is provided with the internal spline, the drive shaft with bracing piece splined connection, adjacent place the belt pulley between the board and connect through the belt, so that the motor drives a plurality ofly simultaneously place the board and swing.

6. The capsule drying apparatus of claim 5, wherein: one of them still be provided with the spacing groove of many pairs of symmetry on the baffle, the spacing groove is for use place the board and rotate the arc section of mounted position as the center, simultaneously one of them side of placing the board is provided with a pair of gag lever post, the gag lever post with spacing groove sliding fit, the radian of gag lever post is less than pi/3.

7. The capsule drying apparatus of claim 5 or 6, wherein: the lateral wall of the shell of one of the mounting cavities is fixedly provided with a rotating seat and a mounting seat, the transverse vibration assembly comprises a left cam sleeve and a right cam sleeve, the left cam sleeve is rotatably connected with the rotating seat through a rotating shaft fixed on one side, the other side of the left cam sleeve is provided with a left bump, the right cam sleeve is in splined connection with the mounting seat through a spline shaft fixed on one side, the end part of the spline shaft abuts against the end part of one of the supporting rods on one side of the supporting plate, the lateral wall of the right cam sleeve is provided with a plurality of top blocks in an extending manner, the top blocks abut against the end parts of the other supporting rods on one side of the supporting plate, the other side of the right cam sleeve is provided with a right bump, and the right bump is matched with the left bump; a plurality of connecting sleeves are fixed in the other mounting cavity, the supporting rod on the other side of the placing plate is connected with the connecting sleeves, the spring is mounted in the connecting sleeves, one end of the spring abuts against the end part of the supporting rod, and the other end of the spring abuts against the bottom end of the connecting sleeve; meanwhile, the driving shaft is connected with the left cam sleeve through a belt, so that the motor drives the left cam sleeve to rotate, and the left convex block drives the right cam sleeve to push the placing assembly to axially reciprocate.

8. The capsule drying apparatus of claim 7, wherein: the transverse vibration assembly further comprises a rolling assembly, the rolling assembly comprises a plurality of rolling bodies and a retainer, the rolling bodies are arranged on the retainer in a rolling mode at uniform intervals, and the rolling assembly is arranged between the left cam sleeve and the right cam sleeve, so that the rolling bodies are respectively matched with the left convex block and the right convex block in a rolling mode.

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