CN103358447B - Indexing mould mechanism - Google Patents

Abstract

The invention provides a kind of indexing mould mechanism, be mainly used in packaging and shapingly particularly connect cup formation field, comprise mould and for by mould from entering to mark the connecting gear of station to shaping station transmission, connecting gear comprises rotating shaft and establishes rotating disk on the rotary shaft, rotating shaft and driving mechanism are in transmission connection and are rotated by driving mechanism driving axial, mould is at least two and is fixedly connected with equal rotating disk, when there being a mould to be arranged in shaping station, all the other moulds have one to be positioned at into mark station, and have one to be positioned at shaping station when there being a mould to be arranged in into all the other moulds during mark station.The present invention has at least two moulds, and the mould in different operation can work asynchronously, and contributes to improving the operating efficiency connecting cup formation device.

Description

Indexing mould mechanism

Technical field

The company's of the present invention relates to cup formation field, is specifically related to a kind of indexing mould mechanism.

Background technology

The existing packaging such as the cup shaped device that connects includes into marking machine structure as thermoforming packaging machine etc., mould and punching mechanism, connecting cup formation process is: entering to mark station, enter marking machine structure and mould 01 is put in millimeter paper cutting, then mould transverse shifting enters shaping station, punching mechanism 02 press down make to be placed on mould to mould plate hot melt shaping in mould, namely millimeter paper is installed outside cup after shaping, this structure only has one due to mould, mark is entered at one---in molding cycle, for to be moved horizontally to shaping station from entering to mark station when mould moves, as shown in Figure 1, return again after shaping completing into mark station, each cycle time is longer, between the driving mechanism driving mould to reciprocate and other mechanisms, harmony is poor, inefficiency.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of indexing mould mechanism, and have at least two moulds, the mould on multiple station can work asynchronously, and contributes to improving the operating efficiency connecting cup formation device.

For solving above-mentioned existing technical problem, the present invention adopts following scheme: indexing mould mechanism, comprise mould and for by mould from entering to mark the connecting gear of station to shaping station transmission, connecting gear comprises rotating shaft and establishes rotating disk on the rotary shaft, rotating shaft and driving mechanism are in transmission connection, mould is at least two and is fixedly connected with equal rotating disk, when there being a mould to be arranged in shaping station, all the other moulds have one to be positioned at into mark station, and have one to be positioned at shaping station when there being a mould to be arranged in into all the other moulds during mark station.

As preferably, mould is uniformly distributed on same plane, and this plane orthogonal is in the axial line of rotating shaft, and all moulds are all equal to the distance of the axial line of rotating shaft.

As preferably, mould is three.

As preferably, rotating disk comprises body and is located at the linking arm of the radial sidepiece of body, and mould and linking arm connect one to one.

As preferably, also comprise liftable base plate, rotating shaft is axially positioned on base plate, and driving mechanism is fixedly connected with base plate.

As preferably, driving mechanism is fixed on the bottom surface of base plate, and rotating shaft runs through end face and the bottom surface of base plate, and the part that rotating shaft passes plate top surface side is fixedly connected with rotating disk, and the part that rotating shaft passes side, base plate bottom surface is in transmission connection with driving mechanism.

As preferably, driving mechanism is servomotor, and output and the rotating shaft of servomotor pass through gears meshing.

As preferably, also comprise guide pillar I, rotating shaft is the quill shaft be axially sheathed on guide pillar I outer wall, and rotating disk fixed cover is located on rotating shaft outer wall.

As preferably, also comprise some guide pillars II, guide pillar II runs through end face and the bottom surface of base plate, the oscilaltion of base plate relative guide pillar II.

Beneficial effect:

The indexing mould mechanism that the present invention adopts technique scheme to provide, by multiple mould is located on rotating disk, rotating disk is driven by driving mechanism and rotates, the forming action being in the mould entering mark action and be in shaping station of the mould into mark station can synchronously carry out, and enter to mark operation and complete aftershaping mould and complete aftershaping mould to the action of shaping station movement and molding procedure and also can synchronously carry out to the action of entering to mark station movement, the operating efficiency of the company's of which thereby enhancing cup formation device.

Accompanying drawing explanation

Fig. 1 is that existing mould mechanism is from entering to mark the structural representation of station to shaping station;

Fig. 2 is the syndeton schematic diagram of turntable of the present invention and mould;

Fig. 3 is structural representation of the present invention.

Detailed description of the invention

As shown in Figures 2 and 3, indexing mould mechanism, comprise mould 1 and for by mould 1 from entering to mark the connecting gear of station to shaping station transmission, the rotating disk 2 that connecting gear comprises rotating shaft 3 and is located on rotating shaft 3, rotating shaft 3 and driving mechanism are in transmission connection and are rotated by driving mechanism driving axial, mould 1 is at least two and is all fixedly connected with rotating disk 2, preferred mould 1 is three, when there being a mould 1 to be positioned at shaping station, all the other moulds 1 are all positioned at into mark station, and be positioned at shaping station when there being a mould 1 to be arranged in into all the other moulds 1 one during mark station, another is positioned at into mark station.All moulds 1 are in the same plane, and this plane orthogonal is in the axial line of rotating shaft 3, and preferred all moulds 1 are equal to the vertical range of the axial line of rotating shaft 3.Preferred rotating disk 2 comprises the body 23 in round shape and is located at the linking arm 24 of the radial sidepiece of body 23 (sidepiece namely in this body 23 diametric(al)), when mould 1 is three, linking arm 24 is also three, when mould 1 is uniformly distributed on same circle, linking arm 24 is also distributed in the radial sidepiece of body 23, and mould 1 and linking arm 24 connect one to one.Preferred mould 1 is connected with linking arm 24 bolt.Body 23 and linking arm 24 can be structure as a whole, and also can be and removably connect; During for removably connecting, can on body 23 uniform one circle bolt hole, adopt the benefit of this structure to be when mould 1 number needs changes, can directly increase, reduce linking arm 24 and adjust the position of linking arm 24 on body 23 and without the need to being changed together by body 23.In the present embodiment, rotating disk 2 also can directly be only body 23, and mould 1 is connected directly between on body 23.

Also comprise liftable base plate 10, rotating shaft 3 is axially positioned on base plate 10, and driving mechanism is fixedly connected with base plate 10.Preferred base plate 10 drives work by elevating mechanism, and elevating mechanism can be existing linked hoisting mechanism, hydraulic cylinder etc.Preferred base plate 10 is fixedly connected with elevating mechanism, and now elevating mechanism has positioning and guiding effect.Preferred drive mechanism is fixed on the bottom surface of base plate 10, rotating shaft 3 runs through end face and the bottom surface of base plate 10, in the present embodiment, shown in the end face of base plate 10 and bottom surface and Fig. 3, base plate 10 is positioned at the upper and lower surface on vertical direction, the part that rotating shaft 3 passes base plate 10 end face side is fixedly connected with rotating disk 2, preferred rotating disk 2 is set in rotating shaft 3 top, and the part that rotating shaft 3 passes side, base plate 10 bottom surface is in transmission connection with driving mechanism.Rotate on base plate 10 for ease of rotating shaft 3, bearing can be set between rotating shaft 3 and base plate 10.Preferred base plate 10 is provided with the guide pin bushing 4 running through end face and bottom surface, rotating shaft 3 by being enclosed within, guide pin bushing 4 realizes running through end face and the bottom surface of base plate 10, when now bearing being set between rotating shaft 3 and base plate 10, this bearing is located between rotating shaft 3 and guide pin bushing 4, and rotating shaft 3 is by relative guide pin bushing 4 axial rotation and then realize opposed bottom 10 axial rotation.Driving mechanism is preferably servomotor 21, and output and the rotating shaft 3 of servomotor 21 pass through gears meshing.The output of preferred servomotor 21 is provided with gear 6, and the bottom of rotating shaft 3 is also arranged with gear 6 meshed gears 6 with servomotor 21 output.

Also comprise guide pillar I 22, rotating shaft 3 is the quill shaft be axially sheathed on guide pillar I 22 outer wall, and rotating shaft 3 not only along the axial oscilaltion of guide pillar I 22 but also can rotate on guide pillar I 22, and rotating disk 2 fixed cover is located on rotating shaft 3 outer wall.Both along the axial oscilaltion of guide pillar I 22, sliding bearing can be set between rotating shaft and guide pillar I 22 for ease of rotating shaft 3; Rotate on guide pillar I 22 for ease of rotating shaft 3, bearing can be set between rotating shaft and guide pillar I 22.

Also comprise some guide pillars II 25, guide pillar II 25 runs through end face and the bottom surface of base plate 10, and base plate 10 can along guide pillar II 25 oscilaltion.For ease of base plate 10 oscilaltion, sliding bearing can be set between base plate 10 and guide pillar II 25 to reduce friction therebetween.

In the present embodiment, guide pillar I 22, guide pillar II 25 is installed in frame, frame is by lower plate 14, upper plate 15 and be supported on supporter between lower plate 14 and upper plate 15 and be assembled into, guide pillar I 22, guide pillar II 25 is supported on lower plate 14, between upper plate 15, below guide pillar I 22 being positioned at rotating shaft 3 is arranged with thrust bearing 7, arrange thrust bearing 7 can limit rotating disk 2 descending motion after position, prevent machine breakdown on the one hand, save the working time on the other hand to increase work efficiency, being arranged with outside top guide pillar I 22 being positioned at rotating disk 2 can the collar 5 of guide pillar I 22 axial rotation relatively, the collar 5 is provided with some holes, rotating disk 2 is provided with some driving levers 9, driving lever 9 is with the hole one_to_one corresponding on the collar 5 and stretch in hole, the collar 5 and driving lever 9 coordinate further rotating disk 2 spacing further in lifting process, prevent rotating disk 2 position from offseting.On base plate 10, corresponding shaping station place is provided with shaping mould bed die 11, and mould 1 is placed in shaping mould bed die 11 top when shaping station is shaping.

Eachly enter to mark station and be equipped with one and enter marking machine structure, two to be entered in marking machine structure one and enter marking machine structure for entering mark to the part die cavity of mould 1, another enters marking machine structure for entering mark to the remainder die cavity of mould 1, shaping station is provided with punching mechanism 26, preferred punching mechanism 26 is fixedly mounted on the bottom surface of upper plate 15, be positioned at into mark station mould 1 with enter marking machine structure and coordinated into mark operation (putting into the shaping mold cavity of mould 1 by millimeter paper), the mould 1 being simultaneously positioned at shaping station completes molding procedure through punching mechanism 26 punching press, and (thermoplastic material on the forming punching head punch-forming mold 1 on punching mechanism 26 makes it enter the shaping mold cavity of mould 1, now millimeter paper is attached at the outer wall of the products such as the company's cup being stamped shaping) after, enter marking machine structure and punching mechanism 26 leaves and the mould 1 coordinated separately, then connecting gear work has driven the mould 1 of molding procedure to leave shaping station, the mould 1 of another molding procedure to be done enters shaping station, the mould 1 simultaneously completed into mark operation leaves into mark station, another mould 1 entering to mark operation to be done enters into mark station, operation principle is: entering to mark station is two, shaping station is one, each enter to mark station place be equipped with one enter marking machine structure (one of them enter marking machine structure for mould 1 part die cavity enter mark, another enters mark to mould 1 remainder die cavity), shaping station place is provided with shaping mechanism, entering mark, during shaping station, in 3 moulds 1, one is positioned at first and enters to mark station, one is positioned at second and enters to mark station, another is positioned at shaping station, enter mark, time shaping, be positioned at first mould 1 entering to mark station by be arranged on this enter that marking machine structure completes part die cavity enter mark, be positioned at second mould 1 entering to mark station by be arranged on this enter marking machine structure complete remainder die cavity enter mark (this mould 1 entering to mark station through first enter to mark station by first enter to mark station enter that marking machine structure completes part die cavity enter mark), the mould 1 being positioned at shaping station is completed the punch forming of packaging product by the shaping mechanism being arranged on this, enter mark, after forming action completes, elevating mechanism drives base plate 10 to move downward, under gravity, rotating disk 2, mould 1 and motion axle sleeve 3 also move downward together, shaping mould departs from punching mechanism, the stop motion when motion axle sleeve 3 moves to bottom (being against on thrust bearing 7), then servomotor 21 rotates proper angle (in the present embodiment being 60 °) by gear driven rotating shaft 3, now mould 1 rotates proper angle with rotating shaft 3, now, originally the mould 1 being positioned at shaping station arrives first and enters to mark below station, originally be positioned at the first mould 1 entering to mark station to arrive second and enter to mark below station, originally being positioned at the second mould 1 entering to mark station arrives below shaping station, then elevating mechanism drives base plate 10 to move upward suitable distance, now be positioned at the first mould 1 entering to mark below station to arrive first and enter to mark station, be positioned at the second mould 1 entering to mark below station to arrive second and enter to mark station, the mould 1 be positioned at below shaping station arrives shaping station, and then repeat above-mentioned enter mark, forming action, circulate according to this.

In the present embodiment, for prevent between the parts of each mutual socket or the leakage of lubricating oil or introduced contaminants enter causing friction to increase and affect rotate each other, movement, hermetically-sealed construction can be set the end between the parts of each mutual socket.

In the present embodiment, mould 1 quantity also can be two, now in two moulds 1 one when entering to mark station another in shaping station, mark is entered by what enter that marking machine structure completes whole die cavity at the mould 1 entering to mark station, even cup formation is completed by shaping mechanism at the mould 1 of shaping station, enter mark, after forming action completes, rotating shaft 3 rotates 180 ° and makes to go to shaping station at the mould 1 entering to mark station, go to into mark station at the mould 1 of shaping station; Certain mould 1 also can be 4,5 or more, enter marking machine structure quantity and enter mark mode (as one enter marking machine structure only to mould 1 part die cavity enter mark or disposable complete whole die cavity enter mark etc.), the quantity of shaping mechanism to select according to practical condition and to distribute, preferably scheme that is selected and that distribute can meet entering mark action and can complete at the forming action of the mould 1 of shaping station simultaneously at the mould 1 entering to mark station.

Claims (4)

1. indexing mould mechanism, comprise mould (1) and for by mould (1) from entering to mark the connecting gear of station to shaping station transmission, described connecting gear comprises rotating shaft (3) and is located at the rotating disk (2) on rotating shaft (3), described rotating shaft (3) and driving mechanism are in transmission connection, described rotating disk (2) is at least fixedly connected with two moulds (1), when there being a mould (1) to be arranged in shaping station, all the other moulds (1) have one to be positioned at into mark station, and have one to be positioned at shaping station when there being a mould (1) to be arranged in into all the other moulds (1) during mark station, it is characterized in that: described indexing mould mechanism also comprises liftable base plate (10), described rotating shaft (3) is axially positioned on base plate (10), described driving mechanism is fixedly connected with base plate (10), described driving mechanism is fixed on the bottom surface of base plate (10), described rotating shaft (3) runs through end face and the bottom surface of base plate (10), the part that described rotating shaft (3) passes base plate (10) end face side is fixedly connected with rotating disk (2), and the part that described rotating shaft (3) passes base plate (10) side, bottom surface is in transmission connection with driving mechanism, described driving mechanism is servomotor (21), and output and the rotating shaft (3) of described servomotor (21) pass through gears meshing, indexing mould mechanism also comprises guide pillar I (22), described rotating shaft (3) is the quill shaft be axially sheathed on guide pillar I (22) outer wall, and described rotating disk (2) fixed cover is located on rotating shaft (3) outer wall, indexing mould mechanism also comprises some guide pillars II (25), and described guide pillar II (25) runs through end face and the bottom surface of base plate (10), described base plate (10) guide pillar II (25) oscilaltion relatively.

2. indexing mould mechanism according to claim 1, it is characterized in that: described mould (1) is uniformly distributed on same plane, described plane orthogonal is in the axial line of rotating shaft (3), and described mould (1) is equal to the distance of the axial line of rotating shaft (3).

3. indexing mould mechanism according to claim 1, is characterized in that: described mould (1) is three.

4. the indexing mould mechanism according to claim 1 or 2 or 3, it is characterized in that: described rotating disk (2) comprises body (23) and is located at the linking arm (24) of body (23) radial sidepiece, described mould (1) and linking arm (24) connect one to one.