Forming method and structure of intelligent heating insole module
阅读说明:本技术 一种智能发热鞋垫模组的成型方法和结构 (Forming method and structure of intelligent heating insole module ) 是由 丁明照 于 2018-08-11 设计创作,主要内容包括:本发明公开了一种智能发热鞋垫模组的成型方法和结构,包括鞋垫成型模具本体,所述鞋垫成型模具本体下表面一侧设置有顶针B,所述鞋垫成型模具本体下表面另一侧设置有顶针A,所述鞋垫成型模具本体下表面两侧均设置有模组定位点,所述鞋垫成型模具本体下表面设置有智能发热模组,所述智能发热模组由发热模块、连接模组、控制模块保护盒和电源模组保护盒组合而成。本发明通过一系列结构的设置,在成型的过程中,极大提高了各个模组安放效率,方便了生产、节约了成本,多点定位的方式完全避免了由于成型过程中模块移位所造成的产品不良,设计方案在PU成型过程中,完全符合一体成型的标准,并且经过量产考验。(The invention discloses a forming method and a structure of an intelligent heating insole module, which comprises an insole forming die body, wherein one side of the lower surface of the insole forming die body is provided with a thimble B, the other side of the lower surface of the insole forming die body is provided with a thimble A, both sides of the lower surface of the insole forming die body are provided with module positioning points, the lower surface of the insole forming die body is provided with the intelligent heating module, and the intelligent heating module is formed by combining a heating module, a connecting module, a control module protection box and a power supply module protection box. According to the invention, through the arrangement of a series of structures, in the forming process, the laying efficiency of each module is greatly improved, the production is facilitated, the cost is saved, the product defect caused by module displacement in the forming process is completely avoided in a multipoint positioning mode, the design scheme completely accords with the standard of integral forming in the PU forming process, and the mass production test is carried out.)
1. A forming method and a structure of an intelligent heating insole module comprise an insole forming die body (1) and are characterized in that a thimble B (13) is arranged on one side of the lower surface of the insole forming die body (1), a thimble A (4) is arranged on the other side of the lower surface of the insole forming die body (1), module positioning points (3) are arranged on two sides of the lower surface of the insole forming die body (1), an intelligent heating module (14) is arranged on the lower surface of the insole forming die body (1), the intelligent heating module (14) is formed by combining a heating module (2), a connecting module (12), a control module protection box (5) and a power supply module protection box (6), the connecting module (12) is arranged on one side of the outer wall of the heating module (2), and the control module protection box (5) is arranged at the other end of the connecting module (12, control module protection box (5) outer wall one side is provided with power module and places the box, power module protection box (6) lower surface is provided with pilot lamp standing groove (15), magnetism and inhales port standing groove (16) and the switch standing groove (17) of charging, pilot lamp standing groove (15), magnetism are inhaled port standing groove (16) and the switch standing groove (17) of charging and from left to right set gradually, connect inside non-woven fabrics A (20) and the non-woven fabrics B (23) of being provided with of module (12), and non-woven fabrics A (20) are located non-woven fabrics B (23) top, it is provided with carbon fiber heater (19) to connect module (12) inner wall one side, the carbon fiber heater other end is provided with silk thread connector link (21), silk thread connector link (21) other end is provided with connecting wire (22).
2. The method and structure for forming an intelligent heating insole module according to claim 1, wherein an indicator positioning point (7), a magnetic attraction charging port positioning point (8) and a switch positioning point (9) are arranged at the bottom of the insole forming mold body (1), and vertical center lines of the indicator positioning point (7), the magnetic attraction charging port positioning point (8) and the switch positioning point (9) coincide with vertical center lines of the indicator placement groove (15), the magnetic attraction charging port placement groove (16) and the switch placement groove (17).
3. The forming method and structure of an intelligent heating insole module according to claim 1, wherein a control module placing groove (11) is arranged on the control module protection box (5).
4. The forming method and structure of an intelligent heating insole module according to claim 1, wherein a power module placing groove (10) is arranged on the power module protection box (6).
5. The forming method and structure of an intelligent heating insole module according to claim 1, wherein the outer wall of the connecting module (12) is provided with a TPU high-low temperature film (18).
Technical Field
The invention relates to the technical field of intelligent wearing equipment, in particular to a forming method and a structure of an intelligent heating insole module.
Background
The problem of foot warming in people in cold winter has been a major concern. As is well known, abundant nervous tissues are distributed on the foot, so that the foot feels strong to the outside. The foot is far away from the heart, the blood circulation is poor, insufficient blood supply is easy to occur on the toe part after sedentary or long standing, and the heat supply is less, so that people feel cold and stabbing bones. In order to keep warm, people usually put up multilayer insoles or put thicker insoles in shoes, the effect that it reaches is not obvious enough to it leaves sweat stain on the insoles easily like this, thereby produces the bacterium, and is great to the harm of human body.
Along with the application of intelligence wearing equipment in the shoes clothes field, the shoe-pad that many initiatively generate heat has appeared on the market, various intelligence on the present market generate heat the shoe-pad homoenergetic and play fine cold-proof effect, nevertheless receive structural design to influence or can't accomplish integrated into one piece, it is good waterproof, thereby restriction user brings the harm to the washing maintenance of shoe-pad, then give people's health, or when integrated into one piece, because the inconvenience of intelligent module laying in the mould, lead to the increase of human cost, influence production efficiency.
Disclosure of Invention
The invention aims to provide a forming method and a structure of an intelligent heating insole module, which aim to solve the problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme: a forming method and a structure of an intelligent heating insole module comprise an insole forming die body, wherein one side of the lower surface of the insole forming die body is provided with a thimble B, the other side of the lower surface of the insole forming die body is provided with a thimble A, two sides of the lower surface of the insole forming die body are respectively provided with a module positioning point, the lower surface of the insole forming die body is provided with an intelligent heating module, the intelligent heating module is formed by combining a heating module, a connecting module, a control module protection box and a power module protection box, one side of the outer wall of the heating module is provided with the connecting module, the other end of the connecting module is provided with the control module protection box, one side of the outer wall of the control module protection box is provided with the power module placement box, the lower surface of the power module protection box is provided with, the utility model discloses a solar energy charging device, including indicating lamp standing groove, magnetism, connection module, carbon fiber heating wire, switch standing groove, pilot lamp standing groove, magnetism are inhaled port standing groove and switch standing groove and from left to right set gradually, connect the inside non-woven fabrics A and the non-woven fabrics B that are provided with of module, and non-woven fabrics A is located non-woven fabrics B top, it is provided with the carbon fiber heating wire to connect module inner wall one side, the carbon fiber heating.
Preferably, the insole forming die body bottom is provided with the pilot lamp setpoint, magnetism and attracts charging port setpoint and switch setpoint, the vertical center line of pilot lamp setpoint, magnetism and inhale charging port setpoint and switch setpoint coincides mutually with the vertical center line of pilot lamp standing groove, magnetism and inhale charging port standing groove and switch standing groove.
Preferably, a control module placing groove is formed in the control module protection box.
Preferably, a power module placing groove is formed in the power module protection box.
Preferably, a TPU high-low temperature film is arranged on the outer wall of the connecting module.
Compared with the prior art, the invention has the beneficial effects that: the insole forming die body is respectively fixed with the heating module, the connecting module, the control module protecting box and the power module protecting box in the left and right directions through the region thimble B and the module locating point to avoid the displacement of the insole forming die body in the forming process, the upper and lower positions of the insole forming die body are located through the magnetic attraction of the charging port locating point to ensure the accurate position of the module in the forming process, the thimble B is mainly used for jacking the heating module in the insole forming die body, enough gaps are reserved in the forming process to avoid the uneven foaming of a forming material, the module locating point is mainly used for avoiding the displacement of the heating module in the forming process, the thimbleA in the region of the control module protecting box and the power module protecting box is mainly used for jacking the control module protecting box and the power module protecting box in the insole forming die body, and enough gaps are reserved in the forming process, the invention avoids the uneven foaming of the molding material, the module positioning point of the control module protection box and the power module protection box area is mainly used for avoiding the displacement of the module protection box and the power module protection box in the molding process, the magnetic attraction charging port positioning point is mainly used for positioning the position of the magnetic attraction charging port of the intelligent heating module, the indicator lamp positioning point is mainly used for positioning the position of the indicator lamp of the intelligent heating module, the switch positioning point is mainly used for positioning the position of the switch of the intelligent heating module, the heating module and the connecting module are of a four-layer structure, firstly, the carbon fiber heating wire is fixed on the non-woven fabric B in a sewing mode by a sewing machine, secondly, the connecting wire is connected with the carbon fiber heating wire through a wire connecting buckle, then, the non-woven fabric A and the non-woven fabric B are pressed in a high-temperature pressing mode, and finally, a layer, the invention adopts a multi-point positioning mode to well fix the intelligent heating module in the insole forming mould body, thereby completely avoiding the product defect caused by module displacement in the forming process, the design scheme of the invention completely accords with the standard of integral forming in the PU forming process, and through mass production test, the invention greatly improves the laying efficiency of each module in the forming process by arranging a series of structures, thereby facilitating the production and saving the cost, and the multi-point positioning mode completely avoids the product defect caused by module displacement in the forming process, and the design scheme completely accords with the standard of integral forming in the PU forming process, and subjected to mass production tests.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
FIG. 2 is a schematic structural diagram of the insole forming mold body according to the present invention.
Fig. 3 is a schematic structural diagram of the heating module according to the present invention.
FIG. 4 is a side cross-sectional view of the heat generating module of the present invention.
In the figure: 1. a shoe pad forming mold body; 2. a heat generating module; 3. positioning points of the modules; 4. a thimble A; 5. a control module protection box; 6. a power module protection box; 7. locating points of the indicator lamps; 8. magnetically attracting a charging port positioning point; 9. a switch positioning point; 10. a power module placing groove; 11. a control module placement slot; 12. a connecting module; 13. a thimble B; 14. an intelligent heating module; 15. an indicator light placing groove; 16. a magnetic charging port placement groove; 17. a switch placing groove; 18. a TPU high and low temperature film; 19. a carbon fiber heating wire; 20. non-woven fabric A; 21. connecting the threads with the buckles; 22. a connecting wire; 23. and (B) non-woven fabric.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 4, in the embodiment of the invention, a method and a structure for forming an intelligent heating insole module include an insole forming
The working principle of the invention is as follows: when in use, the insole forming
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
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