CN211132198U

CN211132198U - Soft capsule machine

Info

Publication number: CN211132198U
Application number: CN201921767604.3U
Authority: CN
Inventors: 徐帅; 刘胜
Original assignee: Shandong Runjun Mechanical Equipment Co ltd
Current assignee: Shandong Runjun Mechanical Equipment Co ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2020-07-31
Anticipated expiration: 2029-10-21

Abstract

The utility model discloses a soft capsule machine, including the frame, be provided with two mould groups in the frame, be connected with the rubber conveyor who is used for carrying the rubber on two mould groups, two mould groups are driven by drive unit, are connected with feedway on the mould group. The utility model discloses a set up two sets of moulds, improved the output of softgel, shortened the time limit for a project, improved work efficiency, the utility model discloses an output of two equipment has realized the productivity maximize of bimodulus utensil group, has practiced thrift the cost.

Description

Soft capsule machine

Technical Field

The utility model relates to a capsule machine, concretely relates to soft capsule machine belongs to softgel production facility technical field.

Background

The soft capsule production equipment is a special machine for producing soft capsules, and a corresponding production mold is selected according to the shape of the soft capsules to be produced, wherein the shapes of the soft capsules are various, such as letter shapes, pentagram shapes, triangles, spheres, ellipses and the like.

However, the soft capsule production equipment in the market is generally produced by a group of production dies, the output of one set of dies is limited, the requirement of higher output cannot be met, and the quantity of the production equipment needs to be increased if the output is improved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the above-mentioned not enough of prior art, provide a softgel capsule machine with production of two group's mould.

In order to solve the above problem, the utility model adopts the following technical scheme: the soft capsule machine comprises a frame, wherein two die sets are arranged on the frame, rubber conveying devices for conveying rubber are connected to the two die sets, the two die sets are driven by a driving unit, and a feeding device is connected to the die sets.

The following is the utility model discloses to the further optimization of above-mentioned scheme: the two die sets are symmetrically arranged.

Further optimization: the die set comprises two symmetrically arranged dies, and the rotation directions of the two dies are opposite.

Further optimization: the rubber conveying device comprises rubber coating rollers symmetrically arranged at the position close to the die set.

Further optimization: and a rubber box is arranged on the frame close to the position of the rubber feeding roller.

Further optimization: one side of the rubber box is provided with a rubber wheel.

Further optimization: and symmetrically arranged oiling rollers are arranged on the frame close to the die set.

Further optimization: the feeding device comprises a quantitative filling pump arranged on the die, and the filling pump is connected with a feeding pump.

Further optimization: and the filling pump is connected with a lifting device for driving the filling pump to move.

Further optimization: the driving unit comprises a rotating shaft for driving the die set to rotate, and the rotating shaft is driven to rotate by a driving motor.

During the use, place the rubber in gluey box, the rubber passes through rubber wheel in proper order, the rubber roll is gone up, it gets into the mould group to go up the roller, then drive the rubber under the effect of rubber wheel, the rubber roll is gone up and remove, put into the hopper with the liquid medicine simultaneously in, start the feed pump, the feed pump exports the liquid medicine to the mould group in through the filling pump, the mould group rotates under drive unit's drive, make into soft capsule then, the soft capsule of making falls on pill ware down, used rubber continues the downstream through drawing the net axle.

The utility model discloses a set up two sets of moulds, improved the output of softgel, shortened the time limit for a project, improved work efficiency, two mould groups can use a set of drive unit or two sets of drive unit as required, and use a power pack or a plurality of power pack to drive, and every mould group can work alone, realized the diversification of mode, richened the function of product, two mould groups have shared one set of feedway simultaneously, reduced the manufacturing cost of equipment, reduced the volume and the weight of equipment, the utility model discloses an output of two equipment has realized the productivity maximize of two mould groups, has practiced thrift the cost.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a front view of the present invention in an embodiment;

fig. 2 is a top view of the present invention in an embodiment;

fig. 3 is a side view of the present invention in an embodiment;

fig. 4 is a schematic structural diagram of a driving device according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view at A in FIG. 4;

fig. 6 is a schematic structural diagram of a driving device according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view at B of FIG. 6;

fig. 8 is a schematic structural diagram of a driving device according to an embodiment of the present invention;

FIG. 9 is an enlarged schematic view at C of FIG. 8;

fig. 10 is a schematic structural view of a driving device according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a driving device according to an embodiment of the present invention.

In the figure: 1-a frame; 2-right rubber wheel; 3-left rubber wheel; 4-right glue box; 5-left glue box; 6-right sizing roller; 7-left gluing roller; 8-right oiling roller; 9-left oiling roller; 10-right mould; 11-left mould; 12-liquid medicine switch; 13-a lifting device; 14-a feed pump; 15-a hopper; 16-a housing; 17-left axis; 18-right axis; 19-cross plate; 101-pill dropping device; 102-a net pulling shaft; 111-a first driven wheel; 112-a second driven wheel; 113-a screw; 114-a connecting seat; 115-end caps; 116-a bond; 117-driven gear; 118-a drive gear; 119-a drive motor; 20-a moving motor; 22-a fixed seat; 23-thread insert; 24-a moving gear; 25-supporting the shaft; 26-a third driven wheel; 27-a driving wheel; 30-a rotating shaft supporting seat; 40-a clutch; 41-driven bevel gear; 42-intermediate drive shaft.

Detailed Description

Embodiment 1, as shown in fig. 1 to 5, a soft capsule machine includes a frame 1, two symmetrically arranged rubber conveying devices are arranged on the frame 1, mold sets are respectively arranged on the two rubber conveying devices, the mold sets are driven by a driving unit, and a feeding device is connected to the mold sets.

The two die sets are symmetrically arranged and are respectively arranged at the front side and the rear side of the rack 1 close to the middle, so that the design is convenient for the production of soft capsules.

Each die set comprises two symmetrically arranged dies, the die positioned on the right side is a right die 10, the die positioned on the left side is a left die 11, and the rotating directions of the two dies are opposite.

Each rubber conveying device comprises two sizing rollers which are symmetrically arranged at positions close to two sides below the corresponding die set, and the two sizing rollers are arranged on the frame 1.

The right sizing roller 6 is positioned on the right side of the two sizing rollers, and the left sizing roller 7 is positioned on the left side of the two sizing rollers, so that the rubber sheet is conveniently conveyed.

And the positions, close to one side of each gluing roller, on the rack 1 are respectively provided with a glue box, the glue box close to the left gluing roller 7 is a left glue box 5, and the glue box close to the right gluing roller 6 is a right glue box 4.

The lower part of each rubber box is respectively provided with a rubber wheel, the right rubber wheel 2 corresponds to the right rubber box 4, and the left rubber wheel 3 corresponds to the left rubber box 5.

The rubber wheel and the upper rubber roller are driven by a motor to rotate, the motor is mounted on the rack 1 and drives the rubber wheel and the upper rubber roller to rotate, and then the rubber in the rubber box is driven to move to the position of the die set.

The oiling roller that the symmetry set up is installed respectively to the position that is close to both sides in the top of every mould group, and the oiling roller that is located the mould group left side is left oiling roller 9, and the oiling roller that is located the mould group right side is right oiling roller 8, and the oiling roller is used for lubricating for the rubber.

The feeding device comprises quantitative filling pumps which are respectively arranged above each group of moulds, each filling pump is connected with a feeding pump 14 through a pipeline, a liquid medicine switch 12 is arranged at the position, connected with the pipeline, of the filling pump and used for controlling the on-off of liquid medicine, and the filling pumps are arranged on the frame 1.

A hopper 15 is arranged above the feeding pump 14, the hopper 15 is communicated with the input end of the feeding pump 14, and the liquid medicine enters the feeding pump 14 through the hopper 15 and then is conveyed to the filling pump by the feeding pump 14.

The two sides of the feeding pump 14 are symmetrically provided with lifting devices 13, and each lifting device 13 is connected with the filling pump, so that the filling pump can move up and down conveniently due to the design.

The driving unit comprises a rotating shaft for driving the die set to rotate, a left shaft 17 for driving the left die 11, a left shaft 17 shared by the front left die 11 and the rear left die 11, a right shaft 18 for driving the right die 10, and a right shaft 18 shared by the two right dies 10.

The right shaft 18 and the left shaft 17 are arranged in parallel at a certain distance, the right shaft 18 and the left shaft 17 are arranged in the shell 16, and the shell 16 is fixedly arranged on the machine frame 1.

The left shaft 17 is composed of three sections and comprises two end shafts, one end of each end shaft is positioned in the shell 16, and the other end of each end shaft is positioned outside the shell 16 and coaxially assembled with the left die 11;

the two end shafts are connected through a middle shaft in a transmission mode, the two ends of the middle shaft are connected with the two end shafts through cross discs 19 or shaft couplers in a transmission mode respectively, the middle shaft rotates to drive the two end shafts to rotate, then the rotation of the whole left shaft 17 is achieved, and the left shaft 17 rotates to drive the left die 11 to rotate.

Two ends of the right shaft 18 respectively extend to the outside of the shell 16 for a certain distance and are coaxially assembled with the two right molds 10, and the right shaft 18 rotates to drive the two right molds 10 to rotate.

Bearings are arranged on the positions, contacting the shell 16, of the left shaft 17 and the right shaft 18 respectively, and therefore the left shaft 17 and the right shaft 18 can rotate conveniently.

One side of casing 16 is fixed mounting has driving motor 119, and driving motor 119's output extends to certain distance and coaxial arrangement has driving gear 118 in the casing 16, and driving motor 119 rotates and drives driving gear 118 and rotate.

The right shaft 18 is coaxially provided with a driven gear 117 matched with the driving gear 118, the driven gear 117 is meshed with the driving gear 118, the driving gear 118 rotates to drive the driven gear 117 to rotate, and the driven gear 117 rotates to drive the right shaft 18 to rotate.

A connecting seat 114 with a T-shaped cross section is coaxially assembled at a position, close to the driven gear 117, on the right shaft 18, and a hole for accommodating the right shaft 18 is formed in the connecting seat 114.

A key 116 is arranged between the right shaft 18 and the connecting seat 114 at a position close to one end, and key slots for accommodating the key 116 are respectively formed in the connecting seat 114 and the right shaft 18, so that the right shaft 18 drives the connecting seat 114 to rotate.

One end of the connecting seat 114 is fixedly connected with an end cover 115 through a bolt, a hole for accommodating the right shaft 18 is also formed in the end cover 115, and the end cover 115 is used for fixing a key 116 between the right shaft 18 and the connecting seat 114.

A second driven wheel 112 is coaxially assembled at one end of the connecting seat 114 close to the driven gear 117, and the connecting seat 114 rotates to drive the driven gear 117 to rotate.

The position on the left shaft 17 corresponding to the second driven wheel 112 is coaxially provided with a first driven wheel 111, the second driven wheel 112 rotates to drive the first driven wheel 111 to rotate, and the first driven wheel 111 rotates to drive the left shaft 17 to rotate.

The first driven wheel 111 and the second driven wheel 112 are respectively fixedly connected with the left shaft 17 and the right shaft 18 through screws 113, and one end of each screw 113 penetrates through the first driven wheel 111 or the second driven wheel 112 and is pressed against the left shaft 17 or the right shaft 18.

A lower pill device 101 is respectively arranged below each die set, and the lower pill devices 101 are fixedly arranged on the machine frame 1 and used for guiding the prepared soft capsules.

A net pulling shaft 102 is arranged below the lower pill device 101, and the net pulling shaft 102 is fixedly arranged on the frame 1 and is used for pulling the used rubber to move downwards.

Embodiment 2, as shown in fig. 6 and 7, in the above embodiment 1, the driving unit includes two transmission units respectively connected with the two die sets in a transmission manner, and the two transmission units are symmetrically installed on the frame 1.

The two transmission units are in transmission connection through a clutch device, one transmission unit is driven to rotate by a driving motor 119, the other transmission unit is driven to rotate through the clutch device when the one transmission unit rotates, and the two transmission units drive the two die sets to rotate when the two transmission units rotate.

The transmission unit comprises a rotating shaft for driving the die set to rotate, a left shaft 17 for driving the left die 11, a left shaft 17 shared by the front left die 11 and the rear left die 11, a right shaft 18 for driving the right die 10, and a right shaft 18 shared by the two right dies 10.

The left shaft 17 is composed of two sections and comprises an end shaft, one end of the end shaft is positioned in the shell 16, and the other end of the end shaft is positioned outside the shell 16 and coaxially assembled with the left die 11;

one end of the end shaft, which is positioned in the shell 16, is in transmission connection with the intermediate shaft through the cross plate 19 or the coupler, the intermediate shaft rotates to drive the two end shafts to rotate, so that the rotation of the whole left shaft 17 is realized, and the left shaft 17 rotates to drive the left die 11 to rotate.

Two ends of the right shaft 18 extend to the outside of the shell 16 for a certain distance respectively, one end of the right shaft is coaxially assembled with the right die 10, the other end of the right shaft is coaxially assembled with a third driven wheel 26, and the right shaft 18 rotates to drive the right die 10 to rotate.

The third driven wheel 26 is a two-section structure integrally connected, one section is a large-diameter section, teeth are arranged on the outer circumference of the large-diameter section, the other section is a small-diameter section, one end of the small-diameter section extends into the shell 16 for a certain distance and is coaxially assembled with a second driven wheel 112, and the third driven wheel 26 rotates to drive the second driven wheel 112 to rotate.

A first driven wheel 111 meshed with the second driven wheel 112 is arranged at a position, corresponding to the second driven wheel 112, on the left shaft 17, and the second driven wheel 112 rotates to drive the first driven wheel 111 to rotate.

Bearings are arranged on the third driven wheel 26, the left shaft 17 and the right shaft 18 at positions contacting with the shell 16 respectively, and the bearings are designed to facilitate the rotation of the left shaft 17 and the right shaft 18.

The driving motor 119 is fixedly installed on one side of one of the shells 16, the output end of the driving motor 119 is in transmission connection with a gearbox, the output end of the gearbox is coaxially assembled with a driving wheel 27, the driving wheel 27 is engaged with one of the third driven wheels 26, the driving wheel 27 rotates to drive the third driven wheel 26 to rotate, and the third driven wheel 26 rotates to drive the right shaft 18 to rotate.

The clutch device comprises two moving gears 24 respectively meshed with two third driven wheels 26, the two moving gears 24 are symmetrically arranged, the two moving gears 24 are coaxially arranged on a supporting shaft 25, and the two moving gears 24 rotate on the supporting shaft 25.

The two ends of the supporting shaft 25 are respectively and fixedly provided with a sliding block, and the two shells 16 are respectively provided with a sliding groove matched with the sliding block along the moving direction of the moving gear 24, so that the supporting shaft 25 is convenient to move.

A threaded sleeve 23 is fixedly installed on one side of the supporting shaft 25, a screw rod is coaxially installed in the threaded sleeve 23 and driven by a moving motor 20, the output end of the moving motor 20 is coaxially connected with the screw rod, and the moving motor 20 is fixedly installed between the two shells 16 through a fixing seat 22.

Embodiment 3, as shown in fig. 8 and 9, in the above embodiment 1, the driving unit includes transmission units in transmission connection with the two die sets, respectively, and the two rotation units are symmetrically installed on the frame 1.

Each transmission unit is driven by a driving motor 119 to rotate, the driving motor 119 rotates to drive the transmission units to rotate, and the two transmission units rotate to drive the two die sets to rotate.

The transmission unit comprises a rotating shaft for driving the die set to rotate, a left shaft 17 for driving the left die 11, and a right shaft 18 for driving the right die 10.

The right shaft 18 in the other transmission unit is also composed of two sections and also comprises an end shaft, one end of the end shaft is positioned in the shell 16, and the other end of the end shaft is positioned outside the shell 16 and coaxially assembled with the right die 10;

one end of the end shaft, which is positioned in the shell 16, is in transmission connection with the intermediate shaft through the cross plate 19 or the coupler, the intermediate shaft rotates to drive the end shaft to rotate, so that the rotation of the whole left shaft 17 and the right shaft 18 is realized, the left shaft 17 rotates to drive the left die 11 to rotate, and the right shaft 18 rotates to drive the right die 10 to rotate.

The two ends of the left shaft 17 in the other transmission unit extend to the outside of the shell 16 for a certain distance respectively, one end of the left shaft is coaxially assembled with the corresponding right die 10, the other end of the left shaft is also coaxially assembled with another third driven wheel 26, and the right shaft 18 rotates to drive the right die 10 to rotate.

Each third driven wheel 26 is of an integrally connected two-section structure, one section is a large-diameter section, teeth are arranged on the outer circumference of the large-diameter section, the other section is a small-diameter section, one end of the small-diameter section extends into the shell 16 for a certain distance and is respectively and coaxially assembled with a second driven wheel 112, and the third driven wheel 26 rotates to drive the second driven wheel 112 to rotate.

A first driven wheel 111 meshed with the second driven wheel 112 is arranged on the left shaft 17 in one transmission unit and corresponds to the second driven wheel 112, and the second driven wheel 112 rotates to drive the first driven wheel 111 to rotate.

The right shaft 18 of the other transmission unit is also provided with a first driven wheel 111 engaged with the corresponding second driven wheel 112 at a position corresponding to the second driven wheel 112, and the second driven wheel 112 rotates to drive the first driven wheel 111 to rotate.

The driving motor 119 is fixedly installed on one side of the casing 16, the output end of the driving motor 119 is in transmission connection with a gearbox, the output end of the gearbox is coaxially assembled with a driving wheel 27, the driving wheel 27 is meshed with a third driven wheel 26, the driving wheel 27 rotates to drive the third driven wheel 26 to rotate, and the third driven wheel 26 rotates to drive the right shaft 18 to rotate.

Embodiment 4, as shown in fig. 10, in the above embodiment 1, the driving unit includes a rotating shaft for driving each mold to rotate, a left shaft 17 for driving the left mold 11, and a right shaft 18 for driving the right mold 10.

The right shaft 18 and the left shaft 17 are arranged in parallel at a certain distance, the right shaft 18 and the left shaft 17 are arranged on a rotating shaft supporting seat 30, and the rotating shaft supporting seat 30 is fixedly arranged on the rack 1.

The left shaft 17 and the left die 11 are coaxially assembled, the left shaft 17 rotates to drive the left die 11 to rotate, the right shaft 18 and the right die 10 are coaxially assembled, and the right shaft 18 rotates to drive the two right dies 10 to rotate.

Bearings are arranged at the positions, contacted with the rotating shaft supporting seat 30, of the left shaft 17 and the right shaft 18 respectively, so that the left shaft 17 and the right shaft 18 can rotate conveniently.

One side fixed mounting of pivot supporting seat 30 has driving motor 119, and driving motor 119's output passes through the coaxial assembly of shaft coupling and pivot, and driving motor 119 rotates and drives the pivot and rotate.

Embodiment 5, as shown in fig. 11, in embodiment 1, the driving unit includes two transmission units respectively connected to the two mold sets in a transmission manner, and the two transmission units are symmetrically installed on the frame 1.

The two transmission units are driven by the same power unit, the power unit is in transmission connection with the two transmission units through a clutch device, and the power unit is a driving motor 119.

Two ends of the right shaft 18 extend to the outside of the shell 16 for a certain distance respectively, one end of the right shaft is coaxially assembled with the right die 10, the other end of the right shaft is in transmission connection with the clutch device, and the right shaft 18 rotates to drive the right die 10 to rotate.

A second driven wheel 112 is coaxially mounted on the right shaft 18 at the end thereof located within the housing 16 near the clutch device, and the rotation of the clutch device drives the second driven wheel 112 to rotate.

The driving motor 119 is fixedly installed on the machine frame 1, and the output end of the driving motor 119 is coaxially equipped with a driving gear 118.

The clutch 40 is a clutch 40, and the clutch 40 may be a device or a mechanism for controlling on/off of transmission power, such as an automatic clutch, an electromagnetic clutch, or the like.

The output end of the clutch 40 is coaxially assembled with one end of the right shaft 18, the clutch 40 rotates to drive the right shaft 18 to rotate, and the right shaft 18 rotates to drive the left shaft 17 to rotate.

An intermediate transmission shaft 42 is coaxially assembled between the two clutches 40, two ends of the intermediate transmission shaft 42 are respectively in transmission connection with input shafts of the two clutches 40 through couplers, and the intermediate transmission shaft 42 rotates to drive the clutches 40 to rotate.

The intermediate transmission shaft 42 is coaxially assembled with a driven bevel gear 41 matched with the driving gear 118, and the driving gear 118 rotates to drive the driven bevel gear 41 to rotate, so as to drive the clutch input shaft 42 to rotate.

During the use, place the rubber in gluey box, the rubber passes through rubber wheel in proper order, the rubber roll, the last oiling roller gets into the mould group, then drive the rubber and remove under the effect of rubber wheel, last rubber roll, put into hopper 15 with the liquid medicine simultaneously, start feed pump 14, feed pump 14 exports the liquid medicine to the mould group in through the filling pump, the mould group rotates under the drive of drive unit, makes into soft capsule then, the soft capsule of making falls to pill ware 101 down, used rubber continues to move downwards through drawing wire axle 102 (drawing wire axle 102 is rotated by motor drive).

Having shown and described the basic principles and essential features of the invention and advantages thereof, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof, and it is therefore intended that the embodiments be considered as exemplary and not limiting in any way, since the scope of the invention is defined by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein and are therefore not to be embraced therein by any reference numerals in the claims.

Claims

1. The utility model provides a soft capsule machine, includes frame (1), its characterized in that: two die sets are arranged on the rack (1), a rubber conveying device for conveying rubber is connected to the two die sets, the two die sets are driven by the driving unit, and a feeding device is connected to the die sets.

2. The soft capsule machine according to claim 1, characterized in that: the two die sets are symmetrically arranged.

3. The soft capsule machine according to claim 1, characterized in that: the die set comprises two symmetrically arranged dies, and the rotation directions of the two dies are opposite.

4. The soft capsule machine according to claim 1, characterized in that: the rubber conveying device comprises rubber coating rollers symmetrically arranged at the position close to the die set.

5. The soft capsule machine according to claim 4, characterized in that: and a rubber box is arranged on the frame (1) close to the position of the rubber coating roller.

6. The soft capsule machine according to claim 5, characterized in that: one side of the rubber box is provided with a rubber wheel.

7. The soft capsule machine according to claim 6, characterized in that: and symmetrically arranged oiling rollers are arranged on the frame (1) at positions close to the die set.

8. The soft capsule machine according to claim 1, characterized in that: the feeding device comprises a quantitative filling pump arranged on the die, and a feeding pump (14) is connected to the filling pump.

9. The soft capsule machine according to claim 8, characterized in that: and the filling pump is connected with a lifting device (13) for driving the filling pump to move.

10. The soft capsule machine according to claim 1, characterized in that: the driving unit comprises a rotating shaft for driving the die set to rotate, and the rotating shaft is driven to rotate by the power unit.