The invention is a suitcase having a frame integrally formed from a composite material and a fabrication method therefor. The method comprises the following steps: A) preparing a thermoplastic sheet into an outer housing; B) placing a housing body of the outer housing in an inner concave mold region of a heating mold, placing a housing edge of the housing in a frame mold region of the heating mold, and enabling an outer surface of the housing to correspond to an inner wall surface of the heating mold; C) placing an outer surface of a thermosetting carbon fiber plastic layer on an inner surface of the housing; D) providing a filling layer on an inner surface of the thermosetting carbon fiber plastic layer and located in the frame mold region; and E) using a balloon to expand against the thermosetting carbon fiber plastic layer and the filling layer, and heating same by means of the heating mold, such that the housing, the thermosetting carbon fiber plastic layer and the filling layer are bonded to one another.
B29C 69/00 - Combinaisons de techniques de façonnage non prévues dans un seul des groupes principaux , p. ex. associations de techniques de moulage et d'assemblageAppareils à cet effet
B29C 51/28 - Éléments constitutifs, détails ou accessoiresOpérations auxiliaires pour l'application d'une pression à travers les parois d'un sac gonflé ou d'une membrane
B29C 43/10 - Pressage isostatique, c.-à-d. en utilisant des organes presseurs non rigides coopérant avec des organes rigides ou des matrices
Disclosed are a suitcase formed from a composite material and a manufacturing method therefor. The method comprises the following steps: A) fabricating a housing using a thermoplastic sheet material by means of a vacuum forming process; B) disposing the housing in a recessed mold region of a heating mold, such that an outer surface of the housing corresponds to an inner wall surface of the recessed mold region; C) disposing an outer surface of a thermosetting carbon fiber plastic layer on an inner surface of the housing; D) disposing a reinforcement layer on an inner surface of the thermosetting carbon fiber plastic layer and at corners of the housing; and E) disposing an airbag in an accommodation region of the housing, such that the airbag is expanded and abuts the inner surface of the thermosetting carbon fiber plastic layer and the reinforcement layer, and simultaneously heating, by means of the heating mold, the housing, the thermosetting carbon fiber plastic layer and the reinforcement layer in the recessed mold region, such that the housing, the thermosetting carbon fiber plastic layer and the reinforcement layer are combined with each other.
B29C 69/00 - Combinaisons de techniques de façonnage non prévues dans un seul des groupes principaux , p. ex. associations de techniques de moulage et d'assemblageAppareils à cet effet
B29C 51/00 - Façonnage par thermoformage, p. ex. façonnage de feuilles dans des moules en deux parties ou par emboutissage profondAppareils à cet effet
A45C 13/36 - Renforcement des bords, coins, ou autres
A luggage shell fabrication method includes the step of making a thermoplastic sheet into a shell using a vacuum molding method, the step of placing the shell in a female mold area of a heating mold, the step of applying a molten thermosetting plastic layer to the inner surface of the shell; and the step of pressing the thermosetting plastic layer toward the inner surface of the shell and simultaneously heating the molten thermosetting plastic layer and the shell for causing the shell and the thermosetting plastic layer to be combined with each other to form a luggage shell.
B29C 69/02 - Combinaisons de techniques de façonnage non prévues dans un seul des groupes principaux , p. ex. associations de techniques de moulage et d'assemblageAppareils à cet effet de techniques de moulage uniquement
B29C 43/10 - Pressage isostatique, c.-à-d. en utilisant des organes presseurs non rigides coopérant avec des organes rigides ou des matrices
B29C 43/18 - Moulage par pressage, c.-à-d. en appliquant une pression externe pour faire couler la matière à moulerAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés en incorporant des parties ou des couches préformées, p. ex. moulage par pressage autour d'inserts ou sur des objets à recouvrir
B29C 51/10 - Formage par une différence de pression, p. ex. sous vide
B29K 63/00 - Utilisation de résines époxy comme matière de moulage
B29K 67/00 - Utilisation de polyesters comme matière de moulage
Disclosed in the present invention is a method for fabricating a luggage case body, comprising the steps of: using a vacuum molding process to fabricate a thermoplastic plastic sheet into a case body, and disposing the case body in a heating die that has a concave die area, then disposing a thermosetting plastic layer at an inner surface of the case body, and then extruding the thermosetting plastic layer toward the inner surface of the case body, while simultaneously heating the thermosetting plastic layer and the case body, such that the case body and the thermosetting plastic layer are mutually combined so as to fabricate a luggage case body.
B29C 51/10 - Formage par une différence de pression, p. ex. sous vide
B32B 27/06 - Produits stratifiés composés essentiellement de résine synthétique comme seul composant ou composant principal d'une couche adjacente à une autre couche d'une substance spécifique
F16B 11/00 - Assemblage d'éléments structuraux ou parties de machines par collage ou en les pressant l'un contre l'autre, p. ex. soudage sous pression à froid
A suitcase (1) comprises a housing (2), a plurality of wheels (6) and a grip member (4), wherein the housing (2) has a base layer (22) and a protective layer (24). The base layer (22) is made of a thermoset polymer material, and the protective layer (24) is made of a thermoset polymer material and covers at least one side of the base layer (22). Thereby, the housing (2) of the suitcase (1) has impact and damage resistance.
A seat structure with function of suspension includes a seat tube and a cushion body installed on the seat tube. The seat tube and cushion body are made of carbon-fiber materials. The cushion body includes an integrated seat and a bracket. The bracket is installed on the seat tube. The bracket is an arc piece. The front end of the bracket and the front end of the seat are integrally molded and connected to form a first angle. The rear end of the bracket and the rear end of the seat are integrally molded and connected to form a second angle. The first angle and the second angle are less than 90°, thereby enabling the seat being good elasticity relative to the bracket, which can effectively reduce the vibration transferred from the seat tube. The seat structure has larger elasticity coefficient and better effect of damping.
A seat structure with function of suspension, comprises a seat tube (10) and a cushion body (20) installed on the seat tube (10), the seat tube (10) and cushion body (20) are produced of carbon-fiber materials, the cushion body (20) comprises an integrated seat (21) and a bracket (22), the bracket is installed on the seat tube, the bracket is an arc piece, the front-end of the bracket and the front-end of the seat are integrally molded and connected to form the first angle R1, the rear-end of the bracket and the rear-end of the seat are integrally molded and connected to form the second angle R2, the first angle R1 and the second angle R2 are less than 90°, thereby causing the seat being good elasticity relative to the bracket, which can effectively reduce the vibration transferred from the seat tube, the seat structure has larger elasticity coefficient, better effect of damping, replacing the traditional bracket and the seat type separately connection the way need to install shock absorbers, the seat structure requires fewer parts, more simple structure and assembly, is advantageous in enhancing the efficiency of production assembly.
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