CN217777712U - Straw external heating crystallization mechanism - Google Patents

Abstract

The utility model provides a straw external heating crystallization mechanism for inhale the heating crystallization of pipe fitting outer wall, straw external heating crystallization mechanism includes a crystallization casing, and a setting is in crystallization inner chamber in the crystallization casing sets up respectively crystallization casing length direction's both ends and the external heating feed inlet and the external heating discharge gate of intercommunication crystallization inner chamber, and a setting is in the crystallization inner chamber and be located the unsettled passageway of straw between external heating feed inlet and the external heating discharge gate, and one is followed crystallization casing length direction sets up in the crystallization inner chamber and circumference sets up the external heating crystallization device in the unsettled passageway outside of straw. This outer heating crystallization mechanism of straw makes the part of inhaling the pipe fitting in crystallization inner chamber be in unsettled state, avoids inhaling pipe fitting and inner wall contact, for the external heating crystallization device provides good heating space, and the crystallization quality of straw piece has been guaranteed to this external heating crystallization mode, has the effect that can dry and inhale pipe fitting outer wall water stain moreover.

Description

Straw external heating crystallization mechanism

Technical Field

The utility model belongs to the technical field of the straw is made, especially a straw external heating crystallization mechanism.

Background

The suction pipe is a cylindrical hollow plastic product, the main function of the suction pipe is to drink the beverage in the cup, and the suction pipe sucks liquid by using the atmospheric pressure principle.

The existing suction pipe is manufactured into a long cylindrical part by mixing various raw materials such as thermoplastic plastics or thermosetting materials and utilizing a plastic forming die, and immersion cooling crystallization is generally realized through water after the extrusion molding of the suction pipe (annealing and drying of a practical air heater after crystallization is completed, the drying mode causes uneven heating of the suction pipe, and the external heating crystallization effect is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a crystallization mechanism with external heating for straw, which has an outer wall heated uniformly and an external heating with better crystallization quality, so as to solve the above problems.

The utility model provides a straw external heating crystallization mechanism for inhale the heating crystallization of pipe fitting outer wall, straw external heating crystallization mechanism includes a crystallization casing, and a setting is in crystallization inner chamber in the crystallization casing sets up respectively crystallization casing length direction's both ends and the external heating feed inlet and the external heating discharge gate of intercommunication crystallization inner chamber, and a setting is in the crystallization inner chamber and be located the unsettled passageway of straw between external heating feed inlet and the external heating discharge gate, and one is followed crystallization casing length direction sets up in the crystallization inner chamber and circumference set up the external heating crystallization device in the unsettled passageway outside of straw.

Furthermore, the external heating crystallization device comprises at least three heating lamp tubes which are arranged in the crystallization inner cavity along the length direction of the crystallization shell and are circumferentially arranged in the suction pipe suspension channel.

Furthermore, the external heating crystallization device comprises an electric heating tube which is arranged in the crystallization inner cavity along the length direction of the crystallization shell and is spirally arranged in the suction tube suspension channel.

Further, the external heating crystallization device comprises at least three steam heating pipes which are arranged in the crystallization inner cavity along the length direction of the crystallization shell and are circumferentially arranged in the suction pipe suspension channel, and at least two annular heating pipes which are arranged between the steam heating pipes at intervals.

Further, the crystallization shell comprises a groove body with an opening at the upper end, and an upper cover for closing the opening at the upper end of the groove body.

Furthermore, an ultraviolet disinfection lamp is arranged in the inner cavity of the crystal.

Furthermore, a drying agent is also arranged in the crystallization inner cavity.

Compared with the prior art, the utility model provides a pair of straw plus heating crystallization mechanism makes the part of inhaling the pipe fitting in crystallization cavity be in unsettled state, avoid inhaling pipe fitting and inner wall contact, for the external heating crystallization device provides good heating space, be favorable to inhaling pipe fitting outer wall thermally equivalent, and be equipped with the external heating crystallization device in the straw unsettled passageway circumference outside, the heat that its produced evenly covers on straw fitting outer wall surface, carry out the secondary crystallization after the water crystallization to the straw fitting outer wall, the crystallization quality of straw fitting has been guaranteed to this external heating crystallization mode, and have the effect that can dry and inhale pipe fitting outer wall water stain.

Drawings

Fig. 1 is a schematic structural view of a crystallization mechanism externally applied to a straw according to the present invention.

Fig. 2 is a schematic view of an external heating crystallization device of the external heating crystallization mechanism according to the first embodiment.

Fig. 3 is a schematic view of an external heating crystallization device of the external heating crystallization mechanism of the suction pipe in the second embodiment.

FIG. 4 is a schematic view of an external heating crystallization apparatus of the external heating crystallization mechanism according to the third embodiment.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

Example one

Please refer to fig. 1 to 2, which are schematic structural views of a heating and crystallizing mechanism outside a straw according to the present invention. The utility model provides a straw external heating crystallization mechanism for the heating crystallization of inhaling pipe fitting 140 outer wall, straw external heating crystallization mechanism includes a crystallization casing 410, be equipped with a crystallization inner chamber 420 in the crystallization casing 410, crystallization casing 410 length direction's both ends are provided with respectively with crystallization inner chamber 420 intercommunication external heating feed inlet 413 and external heating discharge gate 414, still be equipped with one in the crystallization inner chamber 420 and follow crystallization casing 410 length direction sets up and the external heating crystallization device 440 of circumference setting in the straw suspended channel outside. It is understood that the straw 140 in this embodiment is a continuous plastic tubular member, and the crystallization mechanism further includes other functional components and specific structures, such as electrical connection components, conveying structures, mounting structures, etc., which are well known to those skilled in the art, and therefore, will not be described in detail herein.

The suction pipe member 140 enters the crystallization inner cavity 420 from the external heating feed port 413 and penetrates out of the external heating discharge port 414, the suction pipe member 140 is in a suspended state in the crystallization inner cavity 420, namely, a suction pipe suspension channel 430 is formed between the external heating feed port 413 and the external heating discharge port 414, the suction pipe member 140 is suspended in the crystallization inner cavity 420, contact between the suction pipe member 140 and the inner wall is avoided, a good heating space is provided for the external heating crystallization device 440, and uniform heating of the outer wall of the suction pipe member 140 is facilitated.

The crystallization shell 410 comprises a slot 411 with an opening at the upper end and an upper cover 412 for closing the opening at the upper end of the slot 411, wherein the slot 411 is connected with the upper cover 412 through a bolt. The crystal shell 410 is detachably connected, so that the installation and layout of components such as an external heating crystallization device 440 in a crystallization cavity are facilitated, and later-stage debugging and maintenance are also facilitated.

The external heating crystallization device 440 includes at least three heating lamps 441 disposed in the crystallization cavity 420 along the length direction of the crystallization housing 410 and circumferentially disposed in the suction pipe suspending channel 430. Heating lamp 441 irradiates on the outer wall of suction pipe 140 from multiple directions, the generated heat uniformly covers the surface of the outer wall of suction pipe 140, secondary crystallization is performed on the outer wall of suction pipe 140 after water crystallization, the crystallization quality of suction pipe 140 is ensured by the external heating crystallization mode, and the external heating crystallization mode has the function of drying water stain on the outer wall of suction pipe 140.

An ultraviolet disinfection lamp 450 is also arranged in the crystallization inner cavity 420. The ultraviolet disinfection lamp 450 is arranged to disinfect and sterilize the straw 140 while the straw 140 is heated and crystallized, so that the process quality of the straw 140 is improved.

A desiccant 460 is also disposed within the crystallization cavity 420. The desiccant 460 is disposed in the filter bag in the crystallization cavity and is used for absorbing the water vapor evaporated by the external heating crystallization device 440, so that the crystallization cavity 420 is always kept in a dry environment, and the crystallization environment is in a consistent state.

Example two

Referring to fig. 3, the structure and distance of the present embodiment are substantially the same as those of the first embodiment, and the only difference is that: the external heating crystallization device 440 includes an electrical heating tube 442 disposed in the crystallization cavity 420 along the length direction of the crystallization housing 410 and spirally disposed in the suction pipe suspension channel 430. The heating effect consistent with the circumferentially arranged heating lamp tubes 441 can also be achieved through the external heating mode of the spiral electric heating tubes 442.

EXAMPLE III

Referring to fig. 4, the structure and distance of the present embodiment are substantially the same as those of the first embodiment, and the only difference is that: the external heating crystallization device 440 comprises at least three steam heating pipes 443 arranged in the crystallization inner cavity 420 along the length direction of the crystallization shell 410 and circumferentially arranged in the suction pipe suspension channel 430, and at least two annular heating pipes 444 arranged between the steam heating pipes 443 at intervals. The external heating mode by steam heating can also achieve the heating effect consistent with that of the circumferentially arranged heating lamp tubes 441.

The utility model provides a pair of straw plus heating crystallization mechanism makes the part of inhaling pipe fitting 140 in crystallization inner chamber 420 be in unsettled state, avoid straw 140 and inner wall contact, for plus heating crystallization device 440 provides good heating space, be favorable to inhaling pipe fitting 140 outer wall thermally equivalent, and be equipped with plus heating crystallization device 440 in the straw suspension passageway 430 circumference outside, the heat that its produced evenly covers on straw 140 outer wall surface, carry out the secondary crystallization after the water crystallization to straw 140 outer wall, straw 140's crystal quality has been guaranteed to this plus heating crystallization mode, and have the effect that can dry and inhale straw 140 outer wall water stain.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (7)

1. The utility model provides a straw external heating crystallization mechanism for the heating crystallization of straw spare outer wall, its characterized in that: straw external heating crystallization mechanism includes a crystallization casing, and a setting is in crystallization inner chamber in the crystallization casing sets up respectively crystallization casing length direction's both ends and the external heating feed inlet and the external heating discharge gate of intercommunication crystallization inner chamber, a setting is in the crystallization inner chamber and be located the straw unsettled passageway between external heating feed inlet and the external heating discharge gate, and an edge crystallization casing length direction sets up in the crystallization inner chamber and circumference sets up the external heating crystallization device in the straw unsettled passageway outside.

2. The crystallization mechanism applied outside a suction pipe according to claim 1, wherein: the external heating crystallization device comprises at least three heating lamp tubes which are arranged in the crystallization inner cavity along the length direction of the crystallization shell and are circumferentially arranged in the suction pipe suspension channel.

3. The crystallization mechanism applied outside a suction pipe according to claim 1, wherein: the external heating crystallization device comprises an electric heating tube which is arranged in the crystallization inner cavity along the length direction of the crystallization shell and is spirally arranged in the suction tube suspension channel.

4. The crystallization mechanism applied outside a suction pipe according to claim 1, wherein: the external heating crystallization device comprises at least three steam heating pipes which are arranged in the crystallization inner cavity along the length direction of the crystallization shell and are circumferentially arranged in the suction pipe suspension channel, and at least two annular heating pipes which are arranged between the steam heating pipes at intervals.

5. The crystallization mechanism applied outside a straw as claimed in claim 1, wherein: the crystallization shell comprises a groove body with an opening at the upper end and an upper cover for closing the opening at the upper end of the groove body.

6. The crystallization mechanism applied outside a suction pipe according to claim 1, wherein: an ultraviolet disinfection lamp is also arranged in the inner cavity of the crystal.

7. The crystallization mechanism applied outside a suction pipe according to claim 1, wherein: and a drying agent is also arranged in the crystallization inner cavity.

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