CN209832778U - Knurling outer sleeve die of paper cup machine - Google Patents

Abstract

The utility model discloses a knurling overcoat mould of paper cup machine, including fixing the overcoat die holder on the elevating platform, be equipped with in the overcoat die holder can with the nest concave part of rolling up bottom of cup appearance looks adaptation of paper cup, an axial through-hole that can supply the knurling wheel to penetrate in the concave part is seted up to the bottom of concave part, is connected with a heater that can heat the overcoat die holder when processing single face drenches the membrane paper cup on the overcoat die holder, and one can carry out refrigerated cooling module to the overcoat die holder when processing two-sided drenches the membrane paper cup. The utility model discloses be connected with a heater that can carry out the heating to the overcoat die holder on the overcoat die holder and one can carry out refrigerated cooling module to the overcoat die holder, make and need not to dismantle when switching processing single face drenches membrane paper cup and two-sided drenches membrane paper cup and change annular knurl jacket mould, it is consuming time to avoid changing annular knurl jacket mould, improves production efficiency.

Description

Knurling outer sleeve die of paper cup machine

Technical Field

The utility model relates to a paper cup machine technical field, concretely relates to annular knurl cover die of paper cup machine.

Background

Fast paper cup machine is when producing the single face and drenches the membrane paper cup, annular knurl overcoat mould need heat in order to do benefit to the paper cup bottom bonding, and when producing two-sided drenches the membrane paper cup, then need cool off annular knurl overcoat mould and drench the membrane in order to prevent the paper cup outside and be scratched and influence product quality, and among the prior art, when switching processing single face drenches the membrane paper cup and two-sided drenches the membrane paper cup, often need the dismouting to change corresponding cold annular knurl overcoat mould and hot annular knurl overcoat mould, dismouting annular knurl overcoat mould is more consuming time on the one hand, and still need adjust annular knurl overcoat mould and shaping cup mold's fit clearance when changing annular knurl overcoat mould every time, thereby production efficiency has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a paper cup machine's annular knurl cover mould is connected with a heater that can carry out the heating to the cover die holder and one on the cover die holder can carry out refrigerated cooling module to the cover die holder, makes and need not to dismantle when switching processing single face drenches membrane paper cup and two-sided drenches membrane paper cup and change annular knurl cover mould, avoids changing annular knurl cover mould consuming time, improves production efficiency.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

the utility model provides a knurling jacket mould of paper cup machine, is including fixing the jacket mould seat on the elevating platform, is equipped with the concave part that can roll up the bottom of cup appearance looks adaptation with the nest of paper cup in the jacket mould seat, and the axial through-hole that can supply the knurling wheel to penetrate in the concave part is seted up to the bottom of concave part, is connected with a heater that can heat the jacket mould seat when processing single face drenches membrane paper cup on the jacket mould seat, and one can carry out refrigerated cooling module to the jacket mould seat when processing two-sided drenches membrane paper cup.

Further, an annular boss extending upwards is arranged at the edge of the concave part.

Further, the heater is cyclic annular, and the heater embeds there is electric heating wire, and the heater can overlap put on annular boss and form closely cooperating with the global of annular boss with the adaptation and heat the jacket die holder.

Furthermore, a cooling channel which surrounds the periphery of the concave part and can be used for cooling water to circulate is formed in the outer sleeve die holder, a cooling water inlet and a cooling water outlet which are respectively communicated with two ends of the cooling channel are formed in the outer sleeve die holder, and the cooling channel can be connected with an external circulating water-cooled cooling module through the cooling water inlet and the cooling water outlet so that cooling water flowing through the cooling channel can cool the outer sleeve die holder.

Furthermore, a cooling groove which surrounds the periphery of the concave part and can be used for cooling water to circulate is formed in the outer sleeve die holder, the heater is sleeved on the annular boss and is tightly matched with the upper surface of the outer sleeve die holder, so that the cooling groove forms a closed cooling flow channel, and therefore cooling water flowing through the cooling groove can be prevented from overflowing outwards.

Further, the heater is tightly connected to the outer sleeve die holder through screws or bolts.

Furthermore, the cooling flow channel is C-shaped and is arranged at the periphery close to the concave part in a surrounding mode, and the cooling water inlet and the cooling water outlet are respectively communicated with the two ends of the C-shaped cooling flow channel.

Furthermore, the cooling water inlet and the cooling water outlet are formed in the side face of the outer sleeve die holder.

Furthermore, the knurling outer sleeve die of the paper cup machine also comprises a leakage-proof cover plate which can be sleeved on the annular boss and is tightly matched with the upper surface of the outer sleeve die holder so that the cooling groove forms a closed cooling flow channel to replace a heater so as to accelerate the cooling speed of the outer sleeve die holder.

Annular knurl cover mould of paper cup machine, have following advantage:

1. when the bottom of the nest-rolling cup of the single-side film-coated paper cup needs to be processed, the heater is started, the outer sleeve die holder is heated by the heater to be beneficial to the bonding of the bottom of the nest-rolling cup of the paper cup, and when the bottom of the nest-rolling cup of the double-side film-coated paper cup needs to be processed, the cooling module is started, the outer sleeve die holder is cooled by the cooling module to prevent the outer side of the double-side film-coated paper cup from being scratched, compared with the prior art that the outer sleeve die with cold knurling or hot knurling is required to be replaced when the single-side film-coated paper cup or the double-side film-coated paper cup is processed, the heater capable of heating the outer sleeve die holder and the cooling module capable of cooling the outer sleeve die holder are connected to the outer sleeve die holder, so that when the single-side film-coated paper cup or the double-side film-coated paper cup is processed in a switching mode, the corresponding knurling outer sleeve die is not required to be replaced, the jacket die holder can be heated or cooled only by correspondingly starting the heater or the cooling module, so that the working intensity of workers is effectively reduced, and the production efficiency is improved.

2. The cooling tank is arranged around the periphery of the concave part, the cooling tank is formed into a closed cooling flow channel through the close fit of the heater and the jacket die holder, and the cooling flow channel is connected with an external circulating water-cooled cooling module through a cooling water inlet and a cooling water outlet, so that cooling water flowing through the cooling tank can quickly cool the jacket die holder.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is an exploded view of the three-dimensional structure of the embodiment of the present invention.

Fig. 3 is an exploded perspective view of another angle according to an embodiment of the present invention.

Fig. 4 is a structural sectional view of an embodiment of the present invention.

Description of reference numerals:

1. the cooling device comprises an outer sleeve die holder, 11, a concave part, 111, an axial through hole, 12, an annular boss, 13, a cooling water inlet, 14, a cooling water outlet, 15, a cooling groove, 2 and a heater.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 4, in the present embodiment, a knurl outer sleeve mold of a paper cup machine includes an outer sleeve mold base 1 capable of being fixed on a lifting table, a concave portion 11 capable of matching with the shape of the bottom of a rolled paper cup is disposed in the outer sleeve mold base 1, an axial through hole 111 for a knurl wheel (not shown) to penetrate into the concave portion 11 is disposed at the bottom of the concave portion 11, a heater 2 capable of heating the outer sleeve mold base 1 when processing a single-sided film coated paper cup is connected to the outer sleeve mold base 1, and a cooling module capable of cooling the outer sleeve mold base 1 when processing a double-sided film coated paper cup. In the embodiment, when the bottom of the nest-rolling cup of the single-side film-coated paper cup needs to be processed, the heater 2 is started, the outer sleeve die holder 1 is heated by the heater 2 to be beneficial to the adhesion of the bottom of the nest-rolling cup of the paper cup, and when the bottom of the nest-rolling cup of the double-side film-coated paper cup needs to be processed, the cooling module is started, the outer sleeve die holder 1 is cooled by the cooling module to prevent the outer side of the double-side film-coated paper cup from being scratched by film coating, compared with the prior art that the corresponding cold rolling outer sleeve die or hot knurling outer sleeve die needs to be replaced when the single-side film-coated paper cup or the double-side film-coated paper cup is processed, the outer sleeve die holder 1 is connected with the heater 2 capable of heating the outer sleeve die holder 1 and the cooling module capable of cooling the outer sleeve die holder 1, so that when the single-side film-coated paper cup or the double, the disassembly and assembly process and the adjustment of the fit clearance between the knurled outer sleeve die and the forming cup die are avoided, the outer sleeve die holder 1 can be heated or cooled only by correspondingly starting the heater 2 or the cooling module, the labor intensity of workers is effectively reduced, and the production efficiency is improved.

Referring to fig. 1 to 4, in the embodiment, preferably, an annular boss 12 extending upward is disposed at an edge of the concave portion 11, the heater 2 is annular, an electric heating wire is disposed in the heater 2, and the heater 2 can be fittingly sleeved on the annular boss 12 and forms a close fit with a peripheral surface of the annular boss 12 to heat the outer die holder 1. In this embodiment, preferably, the exterior die holder 1 is provided with a cooling channel surrounding the periphery of the concave portion 11 and allowing cooling water to flow therethrough, the exterior die holder 1 is provided with a cooling water inlet 13 and a cooling water outlet 14 respectively communicated with two ends of the cooling channel, and the cooling channel can be connected with an external circulating water-cooled cooling module through the cooling water inlet 13 and the cooling water outlet 14 so that the cooling water flowing through the cooling channel cools the exterior die holder 1. In this embodiment, preferably, the cooling water inlet 13 and the cooling water outlet 14 are opened on the side surface of the outer die holder 1.

Referring to fig. 1 to 4, in the present embodiment, preferably, the outer die holder 1 is provided with a cooling groove 15 surrounding the periphery of the concave portion 11 and allowing cooling water to flow therethrough, and the heater 2 is sleeved on the annular boss 12 and tightly fitted with the upper surface of the outer die holder 1 to form a closed cooling channel in the cooling groove 15, so as to prevent the cooling water flowing through the cooling groove 15 from overflowing outwards. In the present embodiment, preferably, the cooling flow channel is in a C shape and is disposed around the outer periphery of the concave portion 11, and the cooling water inlet 13 and the cooling water outlet 14 are respectively communicated with two ends of the C-shaped cooling flow channel. In this embodiment, the cooling groove 15 is disposed around the periphery of the concave portion 11, the cooling groove 15 forms a closed cooling channel through the close fit between the heater 2 and the jacket die holder 1, and the cooling channel is connected with an external circulating water-cooled cooling module through a cooling water inlet and a cooling water outlet, so that cooling water flowing through the cooling groove 15 can rapidly cool the jacket die holder 1. However, it should be understood by those skilled in the art that the heater 2 may also be used to heat the jacket mold base 1 by using other types of heating elements, and is not limited to heating wires, and the cooling module may also be used to cool the jacket mold base 1 by introducing cooling water into the cooling groove 15, or by using other cooling methods, for example, the cooling module is a refrigerator, and is in surface-to-surface contact with the jacket mold base 1 to cool the jacket mold base 1.

Referring to fig. 1 to 3, in the present embodiment, preferably, the heater 2 is tightly connected to the outer die holder 1 by screws or bolts.

Referring to fig. 1 to 3, in the present embodiment, preferably, the knurled external sleeve die of the paper cup machine further includes a leakage-proof cover plate (not shown) capable of being sleeved on the annular boss 12 and tightly fitting with the upper surface of the external sleeve die holder 1 to form a closed cooling channel in the cooling groove 15, so as to replace the heater 2 to increase the cooling speed of the external sleeve die holder 1. When the single-sided coated paper cup needs to be processed and the double-sided coated paper cup needs to be processed, although the power supply of the heater 2 is cut off, the heater 2 still has residual heat, in order to save the switching waiting time, the heater 2 can be detached, an annular leakage-proof cover plate is covered on the cooling groove 15, the cooling groove 15 is made to be sealed, then the circulating water-cooled cooling module is started, cooling water flows through the cooling groove 15 to accelerate the cooling of the outer sleeve mold base 1, the cooling waiting time is reduced, and the production efficiency is further improved.

The above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; these modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention, and therefore, all other embodiments obtained by those skilled in the art without any creative effort fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a knurling overcoat mould of paper cup machine which characterized in that: the paper cup cooling device comprises an outer sleeve die holder (1) capable of being fixed on a lifting platform, wherein a concave part (11) capable of being matched with the shape of a bottom of a nest-rolling paper cup of a paper cup in shape is arranged in the outer sleeve die holder (1), an axial through hole (111) capable of allowing a knurling wheel to penetrate into the concave part (11) is formed in the bottom of the concave part (11), a heater (2) capable of heating the outer sleeve die holder (1) when a single-side film-coated paper cup is processed and a cooling module capable of cooling the outer sleeve die holder (1) when a double-side film-coated paper cup is processed are connected to the outer sleeve die holder (.

2. The knurled cover die of the paper cup machine according to claim 1, characterized in that: an annular boss (12) extending upwards is arranged at the edge of the concave part (11).

3. The knurled cover die of the paper cup machine according to claim 2, characterized in that: the heater (2) is annular, and the heater (2) embeds there is electric heating wire, and heater (2) can overlap with ground with the adaptation and put on annular boss (12) and form closely cooperating with the global of annular boss (12) in order to heat overcoat die holder (1).

4. The knurled cover die of the paper cup machine according to claim 3, characterized in that: the cooling die comprises a concave portion (11), a jacket die holder (1) and a cooling runner, wherein the jacket die holder (1) is provided with a cooling runner which surrounds the periphery of the concave portion (11) and can be used for cooling water to circulate, the jacket die holder (1) is provided with a cooling water inlet (13) and a cooling water outlet (14) which are respectively communicated with two ends of the cooling runner, and the cooling runner can be connected with an external circulating water-cooled cooling module through the cooling water inlet (13) and the cooling water outlet (14) so that cooling water flowing through the cooling runner cools the jacket die holder (1).

5. The knurled cover die of the paper cup machine according to claim 4, characterized in that: the outer sleeve die holder (1) is provided with a cooling groove (15) which surrounds the periphery of the concave part (11) and can be used for cooling water to circulate, the heater (2) is sleeved on the annular boss (12) and is tightly matched with the upper surface of the outer sleeve die holder (1) to enable the cooling groove (15) to form a closed cooling flow channel, and therefore the cooling water flowing through the cooling groove (15) can be prevented from overflowing outwards.

6. The knurled cover die of the paper cup machine according to claim 5, characterized in that: the heater (2) is tightly connected to the outer sleeve die holder (1) through screws or bolts.

7. The knurling outer cover die of paper cup machine of any of claims 4 to 6, characterized in that: the cooling flow channel is C-shaped and is arranged at the periphery of the concave part (11) in a surrounding mode, and the cooling water inlet (13) and the cooling water outlet (14) are respectively communicated with the two ends of the C-shaped cooling flow channel.

8. The knurled cover die of the paper cup machine according to claim 7, characterized in that: and the cooling water inlet (13) and the cooling water outlet (14) are formed in the side surface of the outer sleeve die holder (1).

9. The knurled cover die of the paper cup machine according to claim 7, characterized in that: the knurling outer sleeve die of the paper cup machine further comprises an anti-leakage cover plate which can be sleeved on the annular boss (12) and is tightly matched with the upper surface of the outer sleeve die holder (1) to enable the cooling groove (15) to form a closed cooling flow channel, so that the heater (2) is replaced to accelerate the cooling speed of the outer sleeve die holder (1).