CN110682564A - Ice bucket and manufacturing method thereof - Google Patents

Abstract

The invention relates to an ice bucket and a manufacturing method thereof, the ice bucket mainly comprises a bucket body, a cover body and a pivoting structure, the bucket body is pivotally connected to the cover body through the pivoting structure, wherein the bucket body is provided with an accommodating space positioned inside and an accommodating opening communicated with the accommodating space, in addition, the bucket body is sequentially provided with an outer surface layer, an insulating layer and an inner surface layer from outside to inside, a clamping frame is provided with two clamping arms, the two clamping arms are clamped on an outer ring seat, an inner ring seat and the insulating layer together, and the outer surface layer, the inner surface layer, the insulating layer and the clamping frame are assembled together, so that the insulating layer is fixed inside a coating space formed by the clamping frame, the outer surface layer and the inner surface layer.

Description

Ice bucket and manufacturing method thereof

Technical Field

The present invention relates to an ice bucket and a method for manufacturing the same, and more particularly, to an ice bucket and a method for manufacturing the same, which can improve the connection between members, thereby facilitating the assembly of a manufacturer and effectively saving the assembly time.

Background

Fishing and camping are interests of many people, and general fishing and camping enthusiasts prepare ice barrels to store objects such as catches, food or drinks, however, at present, the ice barrels are manufactured by preparing an outer surface layer, an insulating layer and an inner surface layer, sequentially placing the insulating layer and the inner surface layer inside the outer surface layer so that the insulating layer is between the outer surface layer and the inner surface layer, and then sewing the outer surface layer, the insulating layer and the inner surface layer together through a machine tool.

However, in the process of sewing the outer surface layer, the insulating layer and the inner surface layer together, a worker must hold the outer surface layer, the insulating layer and the inner surface layer at any time to ensure that the outer surface layer, the insulating layer and the inner surface layer are not dislocated in the sewing process, otherwise, once the outer surface layer, the insulating layer and the inner surface layer are dislocated, the outer surface layer, the insulating layer and the inner surface layer may not be stably connected together, and relatively, extra time is required to be spent for sewing again, so that in the past, the processing time cannot be shortened due to the connection mode between the components in the manufacturing of the ice bucket, and further, the yield cannot be increased.

Disclosure of Invention

The main purpose of the present invention is to improve the assembly method among a plurality of components required by the ice bucket, so as to reduce the difficulty of assembly among the components, thereby facilitating the connection and assembly of the manufacturer, and effectively achieving the purposes of saving the assembly time and improving the production efficiency.

The ice bucket mainly comprises a bucket body, a cover body and a pivoting structure, wherein the bucket body is provided with an accommodating opening, an accommodating space communicated with the accommodating opening is formed in the bucket body, the bucket body is further provided with an inner surface layer formed in the accommodating space, an insulating layer positioned outside the inner surface layer and an outer surface layer positioned outside the insulating layer, and the cover body is pivotally connected to the bucket body through the pivoting structure, so that the cover body can cover the accommodating opening, and the accommodating space is in a closed state.

In addition, the barrel body is further provided with a clamping frame, the clamping frame is provided with a connecting ring and two clamping arms formed on the connecting ring, the two clamping arms are clamped on the outer surface layer, the inner surface layer and the insulating layer from outside to inside together, the connecting ring is positioned in the accommodating opening, and the insulating layer is fixed in a coating space formed by the connecting ring, the outer surface layer and the inner surface layer.

In this embodiment, the thicknesses of the outer ring seat, the inner ring seat and the insulating layer are added to form an assembly thickness, a clamping thickness smaller than or equal to the assembly thickness is formed between the two clamping arms, the clamping frame is made of an elastic material, and the two clamping arms deform and are away from each other when the clamping frame is assembled in the accommodating opening.

In addition, the pivoting structure is provided with two pivoting plates which are mutually pivoted, wherein one pivoting plate is fixed on the barrel body through a penetrating rod which simultaneously penetrates through the clamping arm, the outer surface layer, the insulating layer and the inner surface layer.

The invention relates to a method for manufacturing an ice bucket, which comprises the following steps: an outer surface layer forming step, a containing seat forming step, a barrel forming step and an ice barrel forming step.

The forming step of the outer surface layer is to heat a panel to soften the panel to form a softened panel capable of deforming, and vacuum adsorb the softened panel to form the outer surface layer, in this embodiment, the panel is heated and softened in a processing environment of 150-200 ℃.

The forming step of the containing seat is to sequentially place an insulating layer and an inner surface layer in the inner part of the outer surface layer to form the containing seat with a containing space and a containing opening; the step of forming the barrel body is to assemble a clamping frame with two clamping arms on a containing seat, the two clamping arms are clamped on the outer surface layer, the inner surface layer and the insulating layer together, the connecting ring is positioned in the containing opening, the containing seat and the clamping frame are assembled together to form the barrel body, the insulating layer is fixed in a coating space formed by the connecting ring, the outer surface layer and the inner surface layer, and finally, the step of forming the ice barrel body is to pivotally connect the barrel body to a cover body through a pivoting structure to form the ice barrel.

The invention is characterized in that the clamping frame is assembled on the containing seat, so that the two clamping arms of the clamping frame are clamped on the outer ring seat, the inner ring seat and the insulating layer, the outer surface layer, the inner surface layer, the insulating layer and the clamping frame are assembled together, and the insulating layer is fixed in the coating space formed by the connecting ring, the outer surface layer and the inner surface layer, so that the connecting mode between the members is improved, the time for assembling the members together can be effectively saved, and the production efficiency is relatively improved.

Drawings

FIG. 1 is a perspective view of an ice bucket of the present invention;

FIG. 2 is an exploded view of the ice bucket of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is a schematic view of the engaging frame assembled to the accommodating seat;

FIG. 5 is a schematic view of the pivot structure mounted on the barrel and the cover;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 7 is a schematic view illustrating the lid being lifted;

FIG. 8 is a schematic view of the connection structure mounted to the barrel and the cover;

FIG. 9 is a flow chart of the steps of the method of manufacturing the ice bucket of the present invention;

FIGS. 10A and 10B are schematic views of the outer skin forming step of FIG. 9;

FIG. 11 is a schematic view of a step of forming the receptacle of FIG. 9;

FIG. 12 is a schematic view of the barrel forming step of FIG. 9;

FIGS. 13A and 13B are schematic views of the step of forming the outer skin of the cap of FIG. 9;

FIG. 14 is a schematic view of a step of forming the cap receiving seat of FIG. 9;

FIG. 15 is a schematic view of the cover forming step of FIG. 9;

fig. 16 is a schematic view illustrating a step of forming the ice bucket of fig. 9.

Description of reference numerals: 10-barrel body; 11-a housing seat; 111-an accommodating space; 112-an accommodation opening; 113-outer skin layer; 113 a-outer ring seat; 113 b-outer base; 113 c-a panel; 114-inner surface layer; 114 a-inner ring seat; 114 b-inner base; 115-an insulating layer; 116-assembled thickness; 12-a clamping frame; 121-connecting loops; 122-a snap-fit hole; 123-a clamping arm; 124-clamping space; 125-snap thickness; 20-a cover body; 21-cover body accommodating seat; 211-cover outer skin; 211 a-cover panel; 212-inner cover surface; 213-cap insulating layer; 214-a lid receiving opening; 215-cover body accommodating space; 22-cover body clamping frame; 221-a cover gripping arm; 222-cover body fastening hole; 30-a pivot structure; 31-a pivoting assembly; 311-pivoting plate; 311 a-pivot joint; 311 b-a penetration portion; 32-a through rod; 40-a linking structure; 41-a first connector; 42-a second connector; 50-a vacuum forming machine; 51-a heating mechanism; 52-a first forming die; 53-a second forming die; s1-forming outer surface layer; s2-forming the containing seat; s3-barrel forming step; s4-forming outer surface layer of cover body; s5-forming the cover containing seat; s6-cover body forming step; s7-forming an ice bucket; r-cladding space.

Detailed Description

The invention will be further described with reference to specific embodiments and drawings, the advantages and features of which will become apparent as the description proceeds.

Referring to fig. 1 and 2, the ice bucket of the present invention is mainly composed of a bucket body 10, a cover body 20, a pivot structure 30 and a connecting structure 40, wherein the bucket body 10 has a three-dimensional containing seat 11 and a fastening frame 12 located at one side of the containing seat 11, an accommodating space 111 is formed inside the containing seat 11, and the accommodating space 111 is communicated with an accommodating opening 112 formed on the upper surface of the containing seat 11.

Referring to fig. 2 and 3, in this embodiment, the outer surface 113 of the containing base 11 is disposed at the outermost side, and an inner surface layer 114 formed in a three-dimensional shape smaller than the outer surface layer 113 is provided at the innermost side, in this embodiment, the inner surface layer 114 is formed as a receiving space 111, of these, the outer surface layer 113 can be composed of only ABS resin (Acrylonitrile-Butadiene-Styrene copolymer, ABS is an acronym of Acrylonitrile Butadiene Styrene) or only PC resin (Polycarbonate, PC is an acronym of Polycarbonate), but the outer surface layer 113 can also be composed of ABS resin and PC resin, when the outer surface layer 113 is composed of ABS resin and PC resin, the outermost side of the outer surface layer 113 is PC resin, the innermost side of the outer skin layer 113 is ABS resin, and the inner skin layer 114 can be formed of PP resin (Polypropylene, PP is an abbreviation for Polypropylene) or PE resin (polyethylene, PE is an abbreviation for polyethylene).

As shown in the figure, the outer surface layer 113 has an outer ring seat 113a presenting a hollow column shape and an outer seat 113b formed at one side of the outer ring seat 113a, and the inner surface layer 114 has an inner ring seat 114a configured to have a smaller size than the outer ring seat 113a, and an inner seat 114b disposed at one side of the inner ring seat 114a and spaced from the outer seat 113b, and, because the inner surface layer 114 is located inside the outer surface layer 113, a space is formed between the outer ring seat 113a and the inner ring seat 114a and between the outer seat 113b and the inner seat 114b, so that an insulating layer 115 for isolating temperature dissipation can be accommodated between the outer surface layer 113 and the inner surface layer 114, whereby the outer periphery of the accommodating space 111 is the inner surface layer 113, the insulating layer 115 and the outer surface layer 114 in order from inside to outside, as shown in the figure, when the inner surface layer 114 is located inside the outer surface layer 113, one end of the inner ring seat 114a far from the inner seat 114b is aligned with one end of the outer seat 113a at one end of the, in addition, the thicknesses of the outer ring seat 113a, the inner ring seat 114a and the insulating layer 115 are added to form an assembly thickness 116.

As shown in fig. 2, the fastening frame 12 is made of an elastic material and has a connecting ring 121, a fastening hole 122 is formed through the center of the connecting ring 121, a clamping arm 123 is formed around the outer edge of the fastening hole 122, and another clamping arm 123 is formed on the outer edge of the clamping arm 123, such that a fastening space 124 is formed between the connecting ring 121 and the two clamping arms 123, and a fastening thickness 125 less than or equal to the assembly thickness 116 is formed between the two clamping arms 123, in this embodiment, the fastening frame 12 can be made of PP resin or PE resin, wherein when the fastening frame 12 is made of PE resin, the PE resin is preferably High Density Polyethylene (HDPE) or Linear Low Density Polyethylene (LLDPE).

Referring to fig. 3 and 4, the engaging frame 12 is assembled to the accommodating seat 11, the connecting ring 121 is located at the accommodating opening 112, so that the engaging hole 122 is communicated with the accommodating space 111 through the accommodating opening 112, in this embodiment, when the engaging frame 12 is assembled to the accommodating opening 112, the partial sections of the outer ring seat 113a of the outer surface layer 113, the insulating layer 115 and the inner ring seat 114a of the inner surface layer 114 are all located in the engaging space 124 of the engaging frame 12, and the end surfaces of the outer ring seat 113a, the insulating layer 115 and the inner ring seat 114a close to the accommodating opening 112 are all in contact with the connecting ring 121 of the engaging frame 12, and since the engaging thickness 125 is less than or equal to the assembling thickness 116, the two clamping arms 123 are deformed from inside to outside and are away from each other, so that the two clamping arms 123 generate an inside clamping force, and the two clamping arms 123 are clamped to the outer ring seat 113a together, The inner ring seat 114a and the insulating layer 115 form a covering space R by the outer surface layer 113, the inner surface layer 114, the connecting ring 121 and the connecting ring 121, so that the insulating layer 115 is fixed inside the covering space R.

Referring to fig. 2 and 3, the cover 20 is configured to be smaller than the barrel 10 and located on the upper side of the barrel 10, and the cover 20 has a cover accommodating seat 21 presenting a three-dimensional shape and a cover engaging frame 22 located on one side of the cover accommodating seat 21, wherein the structure of the cover accommodating seat 21 is the same as that of the accommodating seat 11, and further has a cover outer surface layer 211 having the same material and structure as the outer surface layer 113 and a cover inner surface layer 212 having the same material and structure as the inner surface layer 114, and similarly, a cover insulating layer 213 having the same purpose as that of the insulating layer 115 is installed between the cover outer surface layer 211 and the cover inner surface layer 212.

In addition, the structure of the cover engaging frame 22 is the same as the engaging frame 12, and the cover engaging frame 22 is assembled to a cover accommodating seat 21, so that two cover clamping arms 221 formed on the cover engaging frame 22 are clamped to the cover outer surface layer 211, the cover inner surface layer 212 and the cover insulating layer 213 together, so that a cover engaging hole 222 formed on the cover engaging frame 22 is communicated with a cover accommodating space 215 formed on the cover accommodating seat 21 through a cover accommodating opening 214 formed on the cover accommodating seat 21.

Referring to fig. 2 and 5, the pivot structure 30 is located between the barrel 10 and the cover 20, and has two pivot assemblies 31 and a plurality of through rods 32, each pivot assembly 31 has two pivot plates 311 with the same structure, a portion of the pivot plate 311 forms a pivot portion 311a, and the remaining portion of the pivot plate 311 forms a through portion 311b, wherein the pivot portion 311a of one of the two pivot plates 311 is pivotally connected to the pivot portion 311a of the other pivot plate 311, so that the through portions 311b of the two pivot plates 311 can be turned over by the pivotal connection of the two pivot portions 311a, and further the two through portions 311b can be selectively close to or away from each other.

Referring to fig. 5 and 6, one of the pivoting plates 311 of the pivoting assembly 31 is disposed on the rear side of the barrel 10, and a portion of the penetrating rod 32 penetrates through the penetrating portion 311b of the pivoting plate 311, such that the penetrating rod 32 sequentially penetrates through one of the clamping arms 123 of the engaging frame 12, the outer ring 113a of the outer surface layer 113, the insulating layer 115, the inner ring 114a of the inner surface layer 114, and the other clamping arm 123 of the engaging frame 12, and thus the outer surface layer 113, the insulating layer 115, the inner surface layer 114, and the engaging frame 12 can be tightly fixed to each other and are not easily separated from each other, and further one of the pivoting plates 311 is fixed on the rear side of the barrel 10 through a portion of the penetrating rod 32.

In addition, the other pivoting plate 311 of the pivoting assembly 31 is disposed on the rear side of the lid 20, and the other portion of the penetrating rod 32 penetrates through the penetrating portion 311b of the other pivoting plate 311, such that the penetrating rod 32 sequentially penetrates through one of the lid clamping arms 221 of the lid engaging frame 22, the lid outer surface layer 211, the lid insulating layer 213, the lid inner surface layer 212, and the other lid clamping arm 221 of the lid engaging frame 22, and the other pivoting plate 311 is fixed on the rear side of the lid 20 through the other portion of the penetrating rod 32, thereby the pivoting structure 30 is assembled on the tub 10 and the lid 20 at the same time, and as shown in fig. 7, the two pivoting plates 311 are pivotally connected to each other, such that the lid 20 can be lifted to selectively cover the accommodating opening 112 of the tub 10 through the pivoting structure 30.

Referring to fig. 2 and 8, the connecting structure 40 is located between the barrel 10 and the cover 20 and has at least a first connecting element 41 and a second connecting element 42, wherein the first connecting element 41 is selectively connected to or disconnected from the second connecting element 42, as shown in the figure, the first connecting element 41 is located on the front side of the barrel 10 and is fixedly connected to the clamping arm 123 of the engaging frame 12, and the second connecting element 42 is located on the front side of the cover 20 and is fixedly connected to the cover clamping arm 221 of the cover engaging frame 22, wherein when the first connecting element 41 and the second connecting element 42 are connected to each other, the cover 20 cannot be turned over through the pivot structure 30, so that the cover 20 continuously covers the accommodating opening 112 of the barrel 10, and the accommodating space 111 is in a closed state unable to be communicated with the external space, otherwise, when the first connecting element 41 is disconnected from the second connecting element 42, the cover 20 can be lifted via the hinge structure 30, so that the accommodating space 111 is in an open state capable of being communicated with the external space, and thus the connecting structure 40 can limit the cover 20 from continuously covering the accommodating opening 112.

However, the ice bucket of the present invention can be manufactured by an ice bucket manufacturing method, as shown in fig. 9, 10A and 10B, an outer skin forming step S1 is first performed, a panel 113c is first assembled to a vacuum forming machine 50, and then, a heating mechanism 51 assembled in the vacuum forming machine 50 starts heating and temperature rise, the panel 113c is heated and softened in a heating environment between 150 and 200 by the heating mechanism 51, the panel 113c is transformed into a deformable and softened state, and then, the vacuum forming machine 50 drives the softened panel 113c to move toward the first forming mold 52 assembled to the vacuum forming machine 50 for vacuum suction, so that the softened panel 113c is sucked to the outer surface of the first forming mold 52 to form the outer skin 113, in this embodiment, the panel 113c may be formed of ABS resin alone or may be formed of ABS resin and PC resin.

Referring to fig. 9, 11 and 12, after the outer skin forming step S1 is completed, a receiving seat forming step S2 is performed to place the insulating layer 115 inside the outer skin 113, and then place the inner skin 114 inside the outer skin 113, so that the insulating layer 115 is interposed between the outer skin 113 and the inner skin 114 to form the receiving seat 11 having the receiving space 111 and the receiving opening 112, and then, a barrel forming step S3 is performed to mount the engaging frame 12 on the receiving seat 11, so that the two clamping arms 123 of the engaging frame 12 are clamped to the outer ring 113a of the outer skin 113, the cover inner skin 212 of the inner skin 114 and the insulating layer 115 from outside to inside, so that the connecting ring 121 is located in the receiving opening 112 to assemble the receiving seat 11 and the engaging frame 12 together to form the barrel 10.

Referring to fig. 9, 13A and 13B, when performing the outer skin forming step S1, a cover outer skin forming step S4 may be performed simultaneously, a cover panel 211a having the same material composition as the panel 113c is installed on the vacuum forming machine 50, then the heating mechanism 51 of the vacuum forming machine 50 starts heating to a temperature of 150 to 200 ℃, the heating mechanism 51 heats the cover panel 211a, so that the cover panel 211a is softened by the heat and transformed into a deformable and softened state, then the vacuum forming machine 50 drives the cover panel 211a in the softened state to move toward a second forming mold 53 having a shape different from that of the first forming mold 52 for vacuum adsorption, so that the cover panel 211a in the softened state is adsorbed on the outer surface of the second forming mold 53 to form the cover outer skin 211, and similarly, the cover panel 211a may be formed of ABS resin alone, or can be composed of an ABS resin and a PC resin.

Referring to fig. 9, 14 and 15, after completing the step S4, a step S5 of forming a cover accommodating seat is performed, in which the cover insulating layer 213 and the cover inner surface layer 212 are sequentially placed into the cover outer surface layer 211, so that the cover insulating layer 213 is interposed between the cover outer surface layer 211 and the cover inner surface layer 212 to form a cover accommodating seat 21 having a cover accommodating space 215 and a cover accommodating opening 214, and then a step S6 of forming a cover is performed, in which the cover engaging frame 22 is mounted on the cover accommodating seat 2, so that the two cover clamping arms 221 of the cover engaging frame 22 are clamped to the cover outer surface layer 211, the cover inner surface layer 212 and the cover insulating layer 213, and the cover accommodating seat 21 and the cover engaging frame 22 are assembled to form the cover 20.

Referring to fig. 9 and 16, finally, an ice bucket forming step S7 is performed, in which the pivot assembly 31 of the pivot structure 30 is fixedly connected to the fastening frame 12 and the cover fastening frame 22 through the through rod 32 of the pivot structure 30, such that a portion of the through rod 32 sequentially penetrates through one of the clamping arms 123, the outer surface layer 113, the insulating layer 115, the inner surface layer 114, and the other clamping arm 123 of the fastening frame 12, and another portion of the through rod 32 sequentially penetrates through one of the cover clamping arms 221, the cover outer surface layer 211, the cover insulating layer 213, the inner surface layer 114, and the other cover clamping arm 221 of the cover fastening frame 22, so that the bucket body 10 is pivotally connected to the cover 20 through the pivot structure 30 to form an ice bucket.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (7)

1. An ice bucket, have a barrel and a body of the cover, the said barrel has an accommodation opening, and form a holding space communicating with said accommodation opening inside, and the said barrel also has an inner surface layer formed in the said holding space, an insulating layer outside said inner surface layer and an outer surface layer outside said insulating layer, and the said body of the cover is connected to the said barrel pivotally through a pin joint structure, make the said body of the cover in the said accommodation opening, make the said accommodation space present the closed condition, characterized by that:

the barrel body is further provided with a clamping frame, the clamping frame is provided with a connecting ring and two clamping arms formed on the connecting ring, the two clamping arms are clamped on the outer surface layer, the inner surface layer and the insulating layer from outside to inside together, the connecting ring is located in the accommodating opening, and the insulating layer is fixed in a coating space formed by the connecting ring, the outer surface layer and the inner surface layer.

2. An ice bucket according to claim 1 wherein: the thicknesses of the outer ring seat, the inner ring seat and the insulating layer are added to form an assembly thickness, and a clamping thickness smaller than or equal to the assembly thickness is formed between the two clamping arms.

3. An ice bucket according to claim 2 wherein: the clamping frame is made of elastic materials, and when the clamping frame is assembled in the accommodating opening, the two clamping arms deform and are far away from each other.

4. An ice bucket according to claim 1 wherein: the clamping frame is made of elastic materials, and when the clamping frame is assembled in the accommodating opening, the two clamping arms deform and are far away from each other.

5. A method of manufacturing an ice bucket, comprising:

a step of forming a containing seat: sequentially placing an insulating layer and an inner surface layer in the inner part of an outer surface layer to form a containing seat with a containing space and a containing opening;

a barrel body forming step: assembling a clamping frame with two clamping arms on the containing seat, and clamping the two clamping arms on the outer surface layer, the inner surface layer and the insulating layer together, so that the connecting ring is positioned in the containing opening, and the containing seat and the clamping frame are assembled together to form a barrel body, and the insulating layer is fixed in a coating space formed by the connecting ring, the outer surface layer and the inner surface layer; and

an ice bucket forming step: the barrel body is pivotally connected to a cover body through a pivoting structure to form an ice bucket.

6. A method of manufacturing an ice bucket according to claim 5, wherein: the manufacturing method of the ice bucket also comprises an outer surface layer forming step: heating a panel to soften the panel to form a softened panel capable of deforming, and performing vacuum adsorption on the softened panel to form the outer surface layer.

7. A method of manufacturing an ice bucket according to claim 6, wherein: the panel is heated and softened in a processing environment at 150-200 ℃.

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