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JP-3255726-U - Portable cup for cold compresses

JP3255726UJP 3255726 UJP3255726 UJP 3255726UJP-3255726-U

Abstract

[Problem] In the field of cup technology, we provide a portable cup for cold compresses. [Solution] A portable cup for cold compresses comprising a cup body 10, a lid assembly detachably attached to the open end of the cup body, and a cold compress holder 8 detachably connected to the lid assembly, which contains liquid and extends into the cup body, wherein a sealing silicone gel 7 is provided in the circumferential direction of the cold compress assembly, the sealing silicone gel is in close contact with the inner wall of the cup body, and the cold compress assembly is positioned to block the outward flow of water droplets formed on the outer wall of the cold compress holder. By detachably attaching the cold compress assembly to the lid assembly and extending the cold compress assembly into the interior of the cup body, it is possible to combine it with the conventional drinking cup structure to make it easy to carry the cold compress assembly, and the cold compress assembly can be taken out and used individually when needed, which is advantageous in terms of ease of use and practicality depending on the usage situation of the cup. [Selection Diagram] Figure 4

Inventors

  • 陳誠

Assignees

  • 永康宏創家居用品有限公司

Dates

Publication Date
20260507
Application Date
20260116

Claims (10)

  1. Cup body and, A lid assembly that is detachably attached to the open end of the cup body, A portable cup for cold compresses, comprising a cold compress assembly detachably connected to the lid assembly, containing a cold compress container that holds liquid and extends into the cup body, wherein a sealing silicone gel is provided circumferentially on the cold compress assembly, the sealing silicone gel is in close contact with the inner wall of the cup body and is arranged to prevent water droplets formed on the outer wall of the cold compress container from flowing outwards; and a silicone gasket provided between the lid assembly and the cold compress assembly, arranged to seal the cold compress assembly, and having a handle portion for removing the silicone gasket.
  2. The portable cup for cold compresses according to claim 1, characterized in that the lid assembly comprises a removablely connected upper lid and an inner lid, with an isolation chamber formed between the upper lid and the inner lid, and arranged to prevent condensation on the outer surface of the upper lid.
  3. The portable cup for cold compresses according to claim 2, characterized in that the upper lid has a cylindrical structure with one end open, the inner cavity of the upper lid has a plurality of support blocks extending in its radial direction, one end of the inner lid extends inward from the upper lid, the end of the inner lid abuts against the end face of the support block, and the isolation chamber is formed in the region between the end face of the inner lid and the inner end wall of the upper lid.
  4. The portable cup for cold compresses according to claim 2, characterized in that the inner wall of the upper lid has an undercut portion that protrudes radially, an engagement groove is formed at the position of the outer wall of the middle lid, and the undercut portion is locked into the engagement groove.
  5. The portable cup for cold compresses according to claim 2, further comprising a silicone handle attached to the center of the top lid of the lid assembly.
  6. The portable cup for cold compresses according to claim 1, characterized in that the cold compress container is made of silicone or aluminum, the cold compress assembly further comprises a lower lid fixedly connected to the cold compress container, and the lower lid is screw-connected or lock-fitted to the lid assembly.
  7. The portable cup for cold compresses according to claim 6, further comprising a fixing ring connecting the lower lid and the cold compress container, and wherein the sealing silicone gel is attached circumferentially to the fixing ring.
  8. A portable cup for cold compresses according to claim 7, characterized in that a fixing ring is fixed to the outer wall of the cup body, and a handle ring is formed on the outer wall of the fixing ring.
  9. The portable cup for cold compresses according to claim 2, characterized in that the silicone gasket is locked and connected inside the inner lid.
  10. The portable cup for cold compresses according to claim 1, characterized in that the cup body comprises a fixedly connected outer shell and cup liner, and an insulating chamber is installed between the outer shell and the cup liner.

Description

This invention relates to the technical field of cups, and more particularly to a portable cup for cold compresses. In hot summer environments, users often require localized cooling using cold compresses while going out, commuting, or engaging in outdoor activities. Conventional cold compresses typically rely on separate ice packs or containers, which are bulky, inconvenient to carry, and often require separate storage and retrieval. This makes it difficult to combine with the need to drink water regularly during use, resulting in low flexibility and convenience in practical use. Furthermore, some cold compress products are difficult or unsanitary to reuse after use, making them unsuitable for long-term, repeated use. On the other hand, conventional beverage cups focus on basic drinking and heat retention functions, and their internal structure is not designed specifically for the needs of cold compresses. This results in problems such as inconvenient insertion and removal of cold compresses, and an overly simple sealing structure. This makes them prone to leakage due to condensation or melting water during the cooling process, compromising the user experience. Furthermore, conventional cup bodies are generally designed as single units for portability, and therefore do not offer the same portability benefits in various actual usage scenarios. To more clearly explain embodiments of the present invention and the prior art, the drawings used in the descriptions of the embodiments and the prior art are briefly introduced below. Clearly, the drawings in the following description represent only some embodiments of the present invention, and those skilled in the art can obtain other drawings based on these without any creative effort. This is a perspective view of the present invention.This is a cross-sectional view of the present invention.This is a partial cross-sectional view of the present invention.This is an explosion diagram of the present invention.This is a perspective view of the top lid of the present invention.This is a first perspective view of the inner lid of the present invention.This is a second perspective view of the inner lid of the present invention.This is a cross-sectional view of the inner lid of the present invention.This is a perspective view of the silicone gel pad of the present invention.This is a cross-sectional view of the fixing ring of the present invention. The technical solutions in the embodiments of this invention are described below clearly and completely with reference to the drawings of the embodiments. It is clear that the embodiments described are only a part of the embodiments of this invention, and not all embodiments. All other embodiments that can be obtained by those skilled in the art based on the embodiments of this invention without creative effort are all within the scope for which the protection of this application is sought. As shown in Figures 1-10, this is a portable cup for cold compresses, comprising a cup body 10, a lid assembly, a cold compress assembly, and a silicone gel pad 4. The cup body 10 comprises a fixedly connected outer shell 1001 and cup liner 1002, with an insulating chamber 1003 installed between the outer shell 1001 and the cup liner 1002. Specifically, the insulating chamber 1003 is a vacuum chamber. It is understood that in other embodiments, the cup body 10 may have a single-layer structure. The lid assembly is detachably attached to the open end of the cup body 10. Specifically, the lid assembly comprises a detachably connected upper lid 2 and an inner lid 3. In this example, the inner wall direction of the upper lid 2 has an undercut portion 202 that protrudes radially, and an engagement groove 301 is formed on the outer wall of the inner lid 3. The undercut portion 202 is locked into the engagement groove 301, connecting the upper lid 2 and the inner lid 3 by locking fit. More specifically, in this example, to facilitate the engagement of the two, the inner lid 3 has a mounting ring 304 formed radially outward at one end. The locking groove 301 opens on the outer walls on both sides of the mounting ring 304, causing local deformation of the mounting ring 304 when assembled with the upper lid 2, thereby preventing damage to the inner lid 3 and upper lid 2 during assembly. Furthermore, an opening 302 is provided at the location of one of the locking grooves 301 in the mounting ring 304. A guide block 203 is molded into the inner wall of the top cover 2 to engage with this opening 302. The insertion of the guide block 203 in accordance with the opening 302 allows for quick attachment of the inner cover 3 to the top cover 2. An isolation chamber 11 is formed between the upper lid 2 and the inner lid 3, and is positioned to prevent condensation on the outer surface of the upper lid 2. In this example, the upper lid 2 has a cylindrical structure with one end open, and its internal cavity has a plurality of support blocks 201 extending in its