CN212172711U

CN212172711U - Bottle placing mold

Info

Publication number: CN212172711U
Application number: CN202020359846.5U
Authority: CN
Inventors: 梁建超; 施勤哲; 陆忠孟; 柴彪
Original assignee: Hangzhou Moon Automation Technology Co Ltd
Current assignee: Hangzhou Moon Automation Technology Co Ltd
Priority date: 2020-03-19
Filing date: 2020-03-19
Publication date: 2020-12-18
Anticipated expiration: 2030-03-19

Abstract

The utility model relates to a put bottle mould, include: the mould main part wholly is rectangle, is equipped with a plurality of vertical through-holes along its length direction spaced, vertical through-hole includes: the bottle supporting structure comprises a first opening, a second opening, a bottle supporting seat body and a bottle fixing seat, wherein the first opening is located on the upper surface of a mold main body, the second opening is located on the lower surface of the mold main body, the bottle supporting seat body is arranged in a longitudinal through hole in a one-to-one mode, a blind hole is formed in the top face of the bottle supporting seat body, and the blind hole is used for. The utility model discloses, the mould is small, can hold a plurality of bottles, the mould uses with the supporting of capping machine, can a plurality of moulds one capping machine of forming a complete set uses, the medicine bottle is placed, remove the convenience, the location is accurate, the medicine bottle is placed, remove the normal streamlined production that does not influence the capping machine, operating efficiency is improved, it places to have practiced thrift the medicine bottle, the time that the medicine bottle removed, production efficiency is improved, the mould supports the medicine bottle and reciprocates wherein, rotate, frictional force is little, long service life, the maintenance demand is reduced, use cost is reduced, more accord with the environmental protection demand.

Description

Bottle placing mold

Technical Field

The utility model relates to a medicine bottle (bottle) encapsulation equipment technical field, a put a bottle mould specifically says so. The bottle placing mold is used for placing a plurality of medicine bottles to be filled or capped (sealed), particularly glass bottles.

Background

In the process of producing bottled medicines (such as glass bottled medicines), after a medicine bottle (i.e. a glass bottle, which is simply referred to as a bottle) is filled, a capping and packaging process is required, during the capping and packaging process, a certain downward pressure is required to be applied to a bottle cap (such as an aluminum cap, an aluminum plastic cap and the like) to seal the bottle cap in place, and then, a capping operation of the bottle cap is completed through a capping mechanism on the side to ensure the sealing performance of the medicine bottle and ensure the shelf life of medicine storage.

When an existing capping machine (particularly a manual capping machine and a semi-automatic capping machine) works, a bottle is usually placed manually, the capped bottle is not rotated, a plurality of rolling knives (usually three rolling knives) rotate around the bottle, and the bottle is pressed downwards at the same time during capping operation, so that the debugging tightness is complicated, and the debugging difficulty is high due to the fact that the number of the rolling knives is large;

moreover, when the bottle is placed and positioned inaccurately, the tightness of the bottle cap after the capping operation is also affected, and particularly when the bottle and the bottle cap are placed manually, the problem is particularly prominent, the operation efficiency is reduced, the time for placing and removing the bottle is long, and the accuracy is difficult to control.

The existing capping machines (particularly manual capping machines and semi-automatic capping machines) can only place one bottle at a time, then carry out capping operation on the bottle cap, and then move the bottle away to place the next bottle, so that the production efficiency is low, the manual operation frequency is high, and the improvement of the production efficiency is not facilitated.

Some existing capping machines (particularly semi-automatic capping machines and full-automatic capping machines) adopt a production line mode, are provided with a flowing water conveying track capable of placing and conveying a plurality of bottles at a time, then sequentially perform capping operation on the bottle caps, but the bottles are directly placed in the flowing water conveying track, the placement and fixation of the bottles are not stable and firm enough, and when the positioning is not accurate, the degree of capping of the bottle caps is influenced. Moreover, the capping machine is bulky due to the flowing water conveying track, needs to occupy a large area, and is complicated in transportation, movement and assembly.

The existing capping machine has the advantages that some bottles to be capped are placed in the notch groove (the placing groove) of the rotating disc, the rotating disc is fixed through the limiting assembly, the situation that the bottles move is avoided, after capping is finished, the limiting assembly is released, the rotating disc is rotated, and capping operation is carried out on the bottles in the next groove after the rotating disc rotates to the right position. The disadvantages are that:

in order to avoid the overlarge capping machine, only a small rotating disc can be used generally, so that the number of the placing grooves on the rotating disc is limited, and is generally four, which causes difficulty in line production; moreover, the rotating disc cannot be taken down from the capping machine, so that the bottles can be only frequently placed in the placing groove and removed from the placing groove, the manual operation is not simple and convenient enough, and the improvement of the production efficiency is not facilitated.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

To the defect that exists among the prior art, the utility model aims to provide an put bottle mould, the mould is small, can hold a plurality of bottles, the mould uses with the supporting of capping machine, can a plurality of moulds form a complete set of capping machine uses, the medicine bottle is placed, remove the convenience, the location is accurate, the medicine bottle is placed, remove and do not influence the normal streamlined production of capping machine, the operating efficiency is improved, the medicine bottle is placed in having practiced thrift, the time that the medicine bottle removed, the production efficiency is improved, the mould supports the medicine bottle and reciprocates wherein, rotate, frictional force is little, long service life, the maintenance demand has been reduced, use cost is reduced, more accord with the environmental protection demand.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a bottle placing mold is characterized by comprising:

the mould main body 1 is rectangular as a whole, a plurality of longitudinal through holes are arranged at intervals along the length direction,

the longitudinal through-hole includes: a first opening 11 at the upper surface of the mold body 1, a second opening 13 at the lower surface of the mold body 1,

the bottle supporting seat bodies 2 are arranged in the longitudinal through holes one by one,

the top surface of the bottle supporting seat body 2 is provided with a blind hole for accommodating and fixing the bottle 91,

the diameter and depth of the blind hole are adapted to the diameter and height of the bottle 91.

On the basis of the technical scheme, the first opening 11 of the longitudinal through hole, which is positioned on the upper surface of the die main body 1, is large, and the second opening 13 of the longitudinal through hole, which is positioned on the lower surface of the die main body 1, is small.

On the basis of the technical scheme, when the bottle 91 is placed in the blind hole, the bottle 91 is tightly matched with the blind hole, so that the bottle 91 and the bottle supporting seat body 2 can synchronously rotate in the longitudinal through hole along the longitudinal axis.

On the basis of the technical scheme, the diameter of the blind hole is equal to or slightly smaller than that of the bottle 91, so that the bottle 91 is tightly matched with the blind hole when being placed in the blind hole; the depth of the blind hole is one fifth to one third of the height of the bottle 91.

On the basis of the above technical scheme, the bottle supporting seat body 2 comprises: a base 4, the bottom surface of which is provided with a first cylinder 41, which comprises a hollow cavity with an upward opening,

the first magnetic ring 51 is sleeved and fixed on the first cylinder 41,

or: the first magnetic ring 51 is sleeved on the first column 41, and the top surface of the first magnetic ring 51 is fixedly connected with the bottom surface of the base 4,

or: the first magnetic ring 51 is sleeved on the first cylinder 41, and the first magnetic ring 51 is embedded in the bottom surface of the base 4,

a bearing 3 fixed in the hollow cavity of the base 4,

a bottle supporting block 21, the top surface of which is provided with a blind hole 22 and the bottom surface of which is provided with a second cylinder 23,

said second cylinder 23 is inserted into the inner bore of the bearing 3,

the columnar member is provided on the bottom surface of the first cylinder 41.

On the basis of the above technical solution, the mold body 1 includes: locate the necking in second trompil 13, the necking is used for spacing column component, spacing means: the columnar member is prevented from falling into the mold main body 1,

the second magnetic ring 52 is embedded on the bottom surface of the longitudinal through hole of the die body 1 and is repelled from the first magnetic ring 51.

On the basis of the above technical solution, the mold body 1 includes: a positioning mechanism arranged along the length direction of the positioning mechanism,

the positioning mechanism is positioned on the side surface of the mould main body 1 and is close to the bottom surface,

the positioning mechanism includes:

a first positioning inclined plane 12 for positioning the head end of the mould main body 1,

a plurality of bottle positioning grooves 14 for positioning the respective medicine bottles in the mold body 1.

On the basis of the above technical solution, the bottle positioning groove 14 includes:

a first arc concave surface 141, a second arc top surface 142, a third inclined surface 143 connected in sequence,

a first arc-shaped concave surface 141 arranged adjacent to the direction of the first positioning inclined surface 12,

the second arc-shaped top surface 142 is higher than the first arc-shaped concave surface 141,

a third inclined surface 143 inclined in the same direction as the first positioning inclined surface 12,

adjacent bottle positioning grooves 14 are connected by a plane.

On the basis of the above technical solution, the first arc-shaped concave surface 141 is steep, and the second arc-shaped top surface 142 is opposite to the longitudinal axis of the bottle in the middle.

On the basis of the above technical solution, the mold body 1 includes: a positioning guide rail 15, the cross section of which is trapezoidal,

a limiting groove 16 is formed between the two sides of the positioning guide rail 15 and the bottom surface of the mould main body 1,

the width of the positioning rail 15 is smaller than the width of the mold body 1,

the length of the positioning rail 15 is equal to the length of the mold body 1.

Put a bottle mould, following beneficial effect has:

1. the mould is small in size, and each bottle placing mould can contain a plurality of bottles;

2. the mold and the capping machine are designed in a split mode, the mold can be operated, placed and carried independently, medicine bottles are convenient to place and move, positioning is accurate, and the time for placing and moving the medicine bottles is saved;

3. the mould is matched with the capping machine for use, a plurality of moulds can be matched with one capping machine for use, the normal flow production of the capping machine is not influenced by the placement and the removal of the medicine bottles, the operation efficiency is improved, and the production efficiency is improved;

4. the mould supports the medicine bottle and reciprocates, rotates (is rotatory) wherein, and frictional force between medicine bottle and the mould is little, and long service life has reduced the maintenance demand, has reduced use cost, more accords with the environmental protection demand.

Drawings

The utility model discloses there is following figure:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a cross-sectional view of fig. 1.

Fig. 3 illustrates an exploded view of the holder body of the tote bottle (including the mold body).

Fig. 4 is a schematic view of the overall structure of the present invention (the rear direction of fig. 1, including the bottom surface of the mold main body).

Fig. 5 is an enlarged view of a portion of the positioning rail.

Fig. 6 is a left side view of fig. 4.

Fig. 7 is a schematic view of the overall structure of the present invention (fig. 1, a bottle positioning mechanism in the rear direction).

Fig. 8 is an enlarged view of a portion of the bottle positioning mechanism of fig. 7.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-8, the bottle placing mold of the present invention comprises:

as shown in fig. 3 and 4, the longitudinal through hole includes: a first opening 11 at the upper surface of the mold body 1, a second opening 13 at the lower surface of the mold body 1,

as an alternative embodiment, the longitudinal through-hole, whose first opening 11 at the upper surface of the mould body 1 is large and whose second opening 13 at the lower surface of the mould body 1 is small, is, as shown in figures 3, 4,

the diameter of the first opening 11 is adapted to the bottle 91, the diameter of the second opening 13 is such that a cylindrical member can be extended to trigger the pressure sensor below, the specific diameter of the second opening 13 is adapted to the shape of the cylindrical member,

in the embodiment shown in fig. 1, ten longitudinal through holes are provided, the number of the longitudinal through holes can be increased or decreased according to the requirement, and as an alternative embodiment, at least six longitudinal through holes are provided,

because the hole of the longitudinal through hole on the lower surface of the die main body 1 is small, the bottle supporting seat body 2 can only be inserted into or pulled out of the longitudinal through hole from the upper part (the direction of the large hole) and cannot fall out from the bottom of the die main body 1,

in the embodiment shown in fig. 1, there are ten bottle holder bodies 2,

as an alternative, the blind hole is centrally located,

when the bottle 91 is arranged in the blind hole, the bottle 91 is tightly matched with the blind hole, so that the bottle 91 and the bottle supporting seat body 2 can synchronously rotate in the longitudinal through hole along the longitudinal axis,

it should be noted that, when the bottle 91 rotates, an external force is required to be applied to the bottle 91, and the external force is particularly an external force applied to the bottle 91 by a capping mechanism or a capping mechanism of a capping machine,

the diameter and depth of the blind hole are adapted to the diameter and height of the bottle 91,

as an alternative embodiment, the diameter of the blind hole is equal to or slightly smaller than the diameter of the bottle 91, so that the bottle 91 is tightly fitted into the blind hole when placed therein; the depth of the blind hole is one fifth to one third, more preferably one fourth to one third, of the height of the bottle 91.

Put bottle mould, use with the capping machine is supporting, place when bottle lid 92 is placed in the top end opening part of bottle 91, arrange the capping mechanism of capping machine in with mould main part 1 (its side is equipped with supporting capping mechanism, including at least one rolling capping head in the capping mechanism) below, along with the removal of mould main part 1, the capping head that rolls in the capping mechanism is rolled in the capping mechanism cooperation, rolls the lid operation to bottle 91, the bottle lid 92 in each support bottle pedestal 2 in proper order, for example:

the capping mechanism applies a downward pressure to seal the cap 92 in place,

the capping head of the capping mechanism is relatively fixed (meaning that the capping head does not rotate around the bottle), and the bottle 91 rotates along the longitudinal axis in the longitudinal through hole, so that the capping head completes at least one rotation around the bottle 91, and the capping operation of the bottle cap is realized.

For the capper, the mould body 1 is removable, so that the vial placement, removal does not affect the regular flow production of the capper, for example:

the medicine bottles (the bottle 91 and the bottle cap 92) are placed in advance on the plurality of mould main bodies 1, the mould main bodies 1 are installed on the capping machine one by one to carry out flow production, the mould main body 1 after capping is disassembled, and the medicine bottles can be independently moved, so that when the medicine bottles are placed and moved, the corresponding mould main bodies 1 only need to be independently operated, and the mould main bodies 1 installed on the capping machine are not influenced.

On the basis of the above technical solution, as shown in fig. 2 and 3, the bottle holder body 2 includes:

the base 4, which has a first cylinder 41 on the bottom surface, includes a hollow cavity with an upward opening, and as an alternative embodiment, the hollow cavity is cylindrical,

the first magnetic ring 51 is sleeved and fixed on the first cylinder 41,

or: the first magnetic ring 51 is sleeved on the first cylinder 41, and the top surface of the first magnetic ring 51 is fixedly connected with the bottom surface of the base 4, for example, by adhesive,

a bearing 3 fixed in the hollow cavity of the base 4,

said second cylinder 23 is inserted into the inner bore of the bearing 3,

the bottle supporting block 21 can rotate along the longitudinal axis in the hollow cavity of the base 4 through the bearing 3, the friction is small, the service life is long, the rotation is stable and reliable,

the bolt 7 with washer 6, arranged on the bottom surface of the first cylinder 41, for example: the bottom surface of the first cylinder 41 is provided with a threaded hole, to which the bolt 7 with the washer 6 is threadedly coupled,

the bolt 7 with the washer 6 is an alternative embodiment of the aforementioned columnar member;

as shown in fig. 2, 3 and 4, the mold body 1 includes:

a constriction (not shown) provided in the second opening 13, said constriction serving to limit the position of a cylindrical member, such as the bolt 7 with the washer 6,

the limiting means that: the columnar member is prevented from falling into the mold main body 1, that is, the columnar member is prevented from falling into the mold main body 1 through the second opening 13,

taking the bolt 7 with the washer 6 as an example, the limiting means is as follows: the bolt 7 with the washer 6 is positioned in the second opening 13, the washer 6 is clamped at the necking part, the bolt 7 with the washer 6 is prevented from falling into the die main body 1,

The blind hole 22 on the bottle supporting block 21 is used for installing a medicine bottle, and the bottle supporting block 21 and the medicine bottle can rotate in the base 4 but cannot move up and down in the base 4 through the bearing 3;

when the medicine bottle is pressed downwards, the base 4 can move downwards in the longitudinal through hole of the mould main body 1, as the first magnetic ring 51 approaches the second magnetic ring 52, the repulsion force between the magnetic rings is increased, the reset thrust is accumulated for the base 4,

when the medicine bottle is pressed downwards, the base 4 can move downwards in the longitudinal through hole of the mould main body 1, at this time, the bolt 7 with the gasket 6 at the lower end of the first cylinder 41 gradually extends out of the second opening hole 13, and can be used for triggering a corresponding sensor or a transmission mechanism of the capping machine to complete corresponding capping operation,

when the medicine bottle is no longer pressed downwards, the repulsive force between the first magnetic ring 51 and the second magnetic ring 52 forms an upward pushing force, so that the base 4 moves upwards in the longitudinal through hole of the mold main body 1, and the resetting action is completed.

The first magnetic ring 51 and the second magnetic ring 52 are used to replace conventional elastic components such as springs, so that friction force is reduced, repulsion force of a magnetic field is more stable and reliable, the service life is long, and friction loss is small.

On the basis of the above technical solution, as shown in fig. 4, the mold body 1 includes: a positioning mechanism arranged along the length direction of the positioning mechanism,

the positioning mechanism includes:

The positioning mechanism is matched with the capping machine, and specifically comprises the following steps:

the first positioning inclined plane 12 enables the capping machine to identify whether the head end of the positioning die main body 1 moves to the position under the capping mechanism (the side of which is provided with the matched capping mechanism),

a plurality of bottle positioning grooves 14, which enable the capping machine to identify whether a medicine bottle moves to the position right below the capping mechanism (the side of which is provided with a matched capping mechanism) currently.

On the basis of the above technical solution, as shown in fig. 7 and 8, the bottle positioning groove 14 includes:

adjacent bottle positioning grooves 14 are connected by a plane.

The first arc-shaped concave surface 141 is steep, the second arc-shaped top surface 142 is opposite to the longitudinal axis of the bottle in the middle, a mechanism in the capping machine rapidly passes through the steep first arc-shaped concave surface 141 and reaches the middle of the second arc-shaped top surface 142, so that the capping machine can identify that the existing medicine bottle moves to the position right below the capping mechanism (the matched capping mechanism is arranged on the side of the capping machine).

On the basis of the above technical solution, as shown in fig. 5, the mold body 1 includes:

the positioning rail 15, which is trapezoidal in cross-section, is shown in figure 6,

The mold body 1 is detachably mounted on the capping machine through the positioning guide 15, and is moved (moved forward or backward) only in the longitudinal direction of the positioning guide 15 by the stopper groove 16. The split design of the die and the capping machine is realized, the matched use of the die and the capping machine is realized, the die and the capping machine can be disassembled and assembled as required, the capping failure caused by the wrong movement of the die main body 1 is also avoided, the positioning guide rail 15 can be matched with a positioning mechanism, and the positioning accuracy is improved.

As described above, the adjacent bottle positioning grooves 14 are connected by a flat surface having a level flush with the bottom surface of the mold body 1 and higher than the bottom surface of the positioning rail 15. Because the two sides of the positioning guide rail 15 are provided with the limiting grooves 16, the bottle positioning grooves 14 cannot be arranged in the areas of the limiting grooves 16.

Those not described in detail in this specification are within the skill of the art.

Claims

1. A bottle placing mold is characterized by comprising:

the mould main body (1) is rectangular as a whole, a plurality of longitudinal through holes are arranged at intervals along the length direction of the mould main body,

the longitudinal through-hole includes: a first opening (11) located on the upper surface of the die main body (1), a second opening (13) located on the lower surface of the die main body (1),

a bottle supporting seat body (2) which is arranged in the longitudinal through hole one by one,

the top surface of the bottle supporting seat body (2) is provided with a blind hole for accommodating and fixing a bottle (91),

the diameter and the depth of the blind hole are matched with the diameter and the height of the bottle (91).

2. The mold of claim 1, wherein: and the longitudinal through hole is large in a first opening (11) positioned on the upper surface of the die main body (1) and small in a second opening (13) positioned on the lower surface of the die main body (1).

3. The mold of claim 1, wherein: when the bottle (91) is arranged in the blind hole, the bottle (91) is tightly matched with the blind hole, so that the bottle (91) and the bottle supporting seat body (2) can synchronously rotate in the longitudinal through hole along the longitudinal axis.

4. The mold of claim 1, wherein: the diameter of the blind hole is equal to or smaller than that of the bottle (91), so that the bottle (91) is tightly matched with the blind hole when being placed in the blind hole; the depth of the blind hole is one fifth to one third of the height of the bottle (91).

5. The mold of claim 1, wherein: the support bottle base body (2) comprises: a base (4) provided with a first cylinder (41) on the bottom surface, which comprises a hollow cavity with an upward opening,

the first magnetic ring (51) is sleeved and fixed on the first cylinder (41),

or: the first magnetic ring (51) is sleeved on the first column (41), the top surface of the first magnetic ring (51) is fixedly connected with the bottom surface of the base (4),

or: the first magnetic ring (51) is sleeved on the first cylinder (41), and the first magnetic ring (51) is embedded in the bottom surface of the base (4),

a bearing (3) fixed in the hollow cavity of the base (4),

a bottle supporting block (21), the top surface of which is provided with a blind hole (22), the bottom surface of which is provided with a second cylinder (23),

the second cylinder (23) is inserted into the inner hole of the bearing (3),

the columnar member is provided on the bottom surface of the first column (41).

6. The mold of claim 5, wherein: the mould body (1) comprising: locate the necking in second trompil (13), the necking is used for spacing column component, spacing means: the columnar member is prevented from falling into the mold main body (1),

and the second magnetic ring (52) is embedded on the bottom surface of the longitudinal through hole of the die main body (1) and is repelled with the first magnetic ring (51).

7. The mold of claim 1, wherein: the mould body (1) comprising: a positioning mechanism arranged along the length direction of the positioning mechanism,

the positioning mechanism is positioned on the side surface of the mould main body (1) and is close to the bottom surface,

the positioning mechanism includes:

a first positioning inclined plane (12) used for positioning the head end of the mould main body (1),

a plurality of bottle positioning grooves (14) for positioning the position of each medicine bottle in the mould main body (1).

8. The mold of claim 7, wherein: the bottle positioning groove (14) comprises:

a first arc concave surface (141), a second arc top surface (142) and a third inclined surface (143) which are connected in sequence,

a first arc-shaped concave surface (141) which is arranged close to the direction of the first positioning inclined surface (12),

a second arc-shaped top surface (142) higher than the first arc-shaped concave surface (141),

a third inclined surface (143) inclined in the same direction as the first positioning inclined surface (12),

the adjacent bottle positioning grooves (14) are connected through a plane.

9. The mold of claim 8, wherein: a first curved concave surface (141) which is steep and a second curved top surface (142) which is directed towards the longitudinal axis of the bottle.

10. The mold of claim 1, wherein: the mould body (1) comprising: a positioning guide rail (15) with a trapezoidal section,

a limiting groove (16) is formed between the two sides of the positioning guide rail (15) and the bottom surface of the die main body (1),

the width of the positioning guide rail (15) is less than that of the mould main body (1),

the length of the positioning guide rail (15) is equal to the length of the mould main body (1).