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CN-224224735-U - Thermal transfer heating assembly and automatic thermal transfer device

CN224224735UCN 224224735 UCN224224735 UCN 224224735UCN-224224735-U

Abstract

The utility model provides a heat transfer printing heating component and an automatic heat transfer printing device, which relate to the technical field of glove production, wherein the heat transfer printing heating component comprises a capsule main body with a flexible surface, a heat transfer medium and a heating body, the capsule body wraps the heat transfer medium and the heating body, and the heat transfer medium is contained between the flexible surface and the heating body. The heating body of the thermal transfer heating component can heat a thermal transfer medium, the thermal transfer medium is transferred to the capsule main body, the thermal transfer medium has good deformability, heat can be uniformly emitted and transferred on a curved surface, and the capsule main body has flexibility, so that the thermal transfer heating component can directly transfer the glove sleeved on the hand mould, and the glove can be thermally transferred on a glove production line.

Inventors

  • LI KEAN
  • LI YUANYUAN
  • ZHOU HAITAO
  • ZHOU XINGYU

Assignees

  • 山东星宇手套有限公司

Dates

Publication Date
20260512
Application Date
20240809

Claims (10)

  1. 1. A thermal transfer heating assembly (100) comprising a capsule body (400) comprising a flexible face (401), a heat transfer medium (200) and a heating body (300), said capsule body (400) enveloping said heat transfer medium (200) and said heating body (300), and said flexible face (401) and said heating body (300) containing said heat transfer medium (200) therebetween.
  2. 2. The thermal transfer heating assembly (100) of claim 1, wherein an upper opening is provided at an upper end of the capsule body (400), the heating body (300) is inserted into the heating chamber from the upper opening, and a lower end of the heating body (300) abuts against the heat transfer medium (200).
  3. 3. The thermal transfer heating assembly (100) of claim 1, wherein the heat transfer medium (200) comprises solid particles or a thermally conductive liquid.
  4. 4. An automatic thermal transfer device for use in glove lines, characterized in that it comprises at least one thermal transfer heating assembly (100) according to any one of claims 1 to 3.
  5. 5. The automatic thermal transfer printing device according to claim 4, further comprising a first support beam (600), wherein the first support beam (600) is disposed above a production line, and a length direction of the first support beam (600) is in the same direction as a width direction of the glove production line; At least one first movable seat (500) is arranged on the first supporting beam (600), and the first movable seat (500) can move along the length direction of the first supporting beam (600); a first lifting assembly (700) is arranged on the first movable seat (500), and the thermal transfer heating assembly (100) is arranged at the lower end of the first lifting assembly (700).
  6. 6. The automated thermal transfer apparatus of claim 4, further comprising an automated sheet feeding device (800), wherein the automated sheet feeding device (800) cooperates with the thermal transfer heating assembly (100) to transfer the transfer sheet to the glove.
  7. 7. The automated thermal transfer unit of claim 6, wherein the automated sheet feeding unit (800) comprises a transfer storage bin (250), a moving rail (110), and a first transfer slide (120); The movable guide rail (110) is arranged along the conveying direction of the glove production line, and the transfer printing storage bin (250) is arranged on the movable guide rail (110); The first transfer sliding seat (120) is arranged on the moving guide rail (110) in a sliding way, a second transfer sliding seat (130) is arranged on the first transfer sliding seat (120), and the second transfer sliding seat (130) can move along the height direction of the first transfer sliding seat (120); the second transfer printing sliding seat (130) is provided with a grabbing component (230), and the grabbing component (230) is used for grabbing transfer printing sheets in the transfer printing storage bin (250).
  8. 8. The automated thermal transfer unit of claim 7, wherein the transfer storage bin (250) comprises a storage floor (140), a plurality of limit bars (160) are disposed on the storage floor (140), and a plurality of limit bars (160) define a placement area; A lower limiting plate (150) is arranged at the upper end of the storage bottom plate (140), a lower limiting hole matched with a limiting rod (160) is formed in the lower limiting plate (150), and the limiting rod (160) is arranged in the lower limiting hole in a penetrating mode; An elastic member is arranged between the lower limit plate (150) and the storage bottom plate (140), and the elastic member enables the lower limit plate (150) to have a trend of upward movement; An upper limiting sheet (170) is arranged on the limiting rod (160), the placement area is used for placing the overlapped transfer sheets, and the upper limiting sheet (170) is abutted to the upper end face of the overlapped transfer sheets.
  9. 9. The automatic thermal transfer printing device according to claim 4, further comprising a lifting frame (180) and two first supporting frames (900), wherein one first supporting frame (900) is respectively arranged at two sides of the glove production line in the conveying direction; Two ends of the lifting frame (180) are respectively connected with one first supporting frame (900), and a plurality of heat transfer printing heating assemblies (100) are arranged on the lifting frame (180); The hand mold rods of the glove production line pass through the lower end of the lifting frame (180), and each hand mold on the hand mold rods corresponds to one heat transfer heating assembly (100).
  10. 10. The automatic thermal transfer printing device according to claim 9, further comprising a transfer beam (220) and two second supporting frames (190), one second supporting frame (190) being provided on each side of the glove line in the conveying direction; a second moving seat (210) which moves along the conveying direction of the glove production line is arranged on the second supporting frame (190), two ends of the transfer printing cross beam (220) are respectively connected with one second moving seat (210), and the transfer printing cross beam (220) can move along the height direction of the second moving seat (210); A plurality of grabbing components (230) are arranged on the transfer printing cross beam (220), and each thermal transfer printing heating component (100) is correspondingly provided with one grabbing component (230); A transfer printing base (240) is arranged above the glove production line, the transfer printing base (240) and the transfer printing cross beam (220) are arranged in parallel, and transfer printing storage bins (250) which are arranged in one-to-one correspondence with the grabbing components (230) are arranged on the transfer printing base (240).

Description

Thermal transfer heating assembly and automatic thermal transfer device Technical Field The utility model relates to the technical field of glove production, in particular to a thermal transfer heating assembly and an automatic thermal transfer device. Background The labor protection glove is a common labor protection article in daily production and life, and is prepared by performing procedures such as padding, gum dipping, sleeve baking, demoulding and the like on a glove gum dipping flow production line. The glove has the characteristics that the glove trademark is printed by adopting the thermal transfer printing after the processes are all finished, the color register can be realized, the color register is multicolor, the surface of the thermal transfer printing trademark is convex and attractive, the thermal transfer printing at the present stage also needs an off-line single-opening process, and the finished glove product is required to be sleeved on a flat plate die for time and labor waste. Disclosure of utility model The utility model aims to provide a heat transfer printing heating assembly and an automatic heat transfer printing device, so as to solve the technical problem that finished gloves are required to be directly transferred on a flat die and cannot be directly transferred on a hand die. The utility model provides a thermal transfer printing heating assembly which comprises a capsule body with a flexible surface, a heat transfer medium and a heating body, wherein the capsule body wraps the heat transfer medium and the heating body, and the heat transfer medium is contained between the flexible surface and the heating body. In an alternative embodiment, there is an upper opening at the upper end of the capsule body, from which the heating body is inserted into the heating chamber, and the lower end of the heating body abuts the heat transfer medium. In alternative embodiments, the heat transfer medium comprises solid particles or a thermally conductive liquid. The heating body of the thermal transfer heating component can heat a thermal transfer medium, the thermal transfer medium is transferred to the capsule main body, the thermal transfer medium has good deformability, heat can be uniformly emitted and transferred on a curved surface, and the capsule main body has flexibility, so that the thermal transfer heating component can directly transfer the glove sleeved on the hand mould, and the glove can be thermally transferred on a glove production line. The utility model provides an automatic thermal transfer printing device which is applied to a glove production line and comprises at least one thermal transfer printing heating assembly according to any one of the previous embodiments. In an alternative embodiment, the glove production line further comprises a first supporting beam, wherein the first supporting beam is arranged above the production line, and the length direction of the first supporting beam is in the same direction as the width direction of the glove production line; At least one first movable seat is arranged on the first supporting beam, and the first movable seat can move along the length direction of the first supporting beam; The first movable seat is provided with a first lifting component, and the lower end of the first lifting component is provided with the thermal transfer heating component. In an alternative embodiment, the glove transfer device further comprises an automatic sheet feeding device, wherein the automatic sheet feeding device is matched with the thermal transfer heating assembly to transfer the transfer sheet on the glove. In an alternative embodiment, the automatic film feeding device comprises a transfer storage bin, a moving guide rail and a first transfer sliding seat; The movable guide rail is arranged along the conveying direction of the glove production line, the transfer printing storage bin is arranged on the movable guide rail; The first transfer sliding seat is arranged on the moving guide rail in a sliding way, and a second transfer sliding seat is arranged on the first transfer sliding seat and can move along the height direction of the first transfer sliding seat; The second transfer printing sliding seat is provided with a grabbing component, and the grabbing component is used for grabbing the transfer printing sheets in the transfer printing storage bin. In an alternative embodiment, the transfer printing storage bin comprises a storage bottom plate, a plurality of limiting rods are arranged on the storage bottom plate, and a placement area is defined by the limiting rods; A lower limiting plate is arranged at the upper end of the storage bottom plate, a lower limiting hole matched with a limiting rod is formed in the lower limiting plate, and the limiting rod is arranged in the lower limiting hole in a penetrating mode; an elastic piece is arranged between the lower limiting plate and the storage bottom plate, and the elastic piece