CN216255531U - Multilayer composite invisible overlock jacket with wireless charging function - Google Patents

Abstract

The utility model discloses a multilayer composite invisible overlock jacket with a wireless charging function, which comprises a jacket main body, wherein the jacket main body comprises a heat-insulating layer, the heat-insulating layer comprises two basic cloth layers which are sewn together, and a first connecting area is arranged at the edge of the basic cloth layer close to the sewing position; the outer surface of the warm-keeping layer is sleeved with an outer thickening layer, the outer thickening layer comprises two outer thickening cloth pieces which are sewn together, and a second connecting area is arranged at the edge of the outer thickening cloth piece close to the sewing position; the coat main part openly is equipped with the pocket that charges, the pocket that charges includes the outer protective layer, is equipped with wireless charging module in the pocket that charges, the outside of wireless charging module is equipped with the installation space that charges that the space between elasticity hoop spare and the wireless charging module is smart mobile phone. The utility model carries out the invisible overlocking process and can wirelessly charge the smart phone placed in the charging pocket.

Description

Multilayer composite invisible overlock jacket with wireless charging function

Technical Field

The utility model relates to the field of clothes, in particular to a multilayer composite invisible overlock jacket with a wireless charging function.

Background

In cold winter, people usually wear thick coats to keep out the cold when going out, and the warm keeping degree of the coats is greatly related to the thickness of the coats, so that multilayer coats are more and more common in the market. When a common multi-layer coat is produced, a plurality of layers of cloth are mostly stacked together and then sewn, and a large bone line is generated at a sewing line after sewing, so that people can feel great discomfort when wearing the coat. In addition, the electric quantity consumption of smart mobile phone is very fast, so a lot of people can hand-carry the treasured that charges, but will charge treasured and smart mobile phone and put in the pocket simultaneously and charge and can buckle the data line, the data line of breaking easily, can seem the pocket simultaneously and be more bloated, influence the outward appearance.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a multilayer composite invisible overlock jacket with a wireless charging function, which can realize invisible overlock and simultaneously perform wireless charging on a smart phone.

The utility model adopts the following technical scheme:

a multilayer composite invisible overlock jacket with a wireless charging function comprises a jacket main body, wherein the jacket main body comprises a heat-insulating layer, the heat-insulating layer comprises two basic cloth layers sewn together, and a first connecting area is arranged at the edge, close to the sewing position, of each basic cloth layer; an outer thickening layer is sleeved on the outer surface of the warm-keeping layer and comprises two outer thickening cloth pieces which are sewn together, a second connecting area is arranged at the edge, close to the sewing position, of each outer thickening cloth piece, and an inner connecting line and an outer connecting line which are used for sewing the first connecting area and the second connecting area together are arranged between the first connecting area and the second connecting area; the overcoat main part openly is equipped with the pocket that charges, the pocket that charges includes the outer protective layer, and the pocket that charges is equipped with wireless module of charging, the outside of wireless module of charging is equipped with elasticity hoop, elasticity hoop links to each other with wireless module of charging is trilateral, and the space between elasticity hoop and the wireless module of charging is the installation space that charges of smart mobile phone, and only upper portion opening, the upper surface of wireless module of charging and elasticity hoop all is less than the outer protective layer upper surface.

Preferably, the wireless charging module comprises a transmitting circuit, a receiving circuit is arranged on the smart phone, and the transmitting circuit is electrically connected with the receiving circuit; the transmitting circuit comprises a control module, a driving module and a transmitting coil module; the control module is electrically connected with the driving module so as to send a control instruction to the driving module; the driving module is used for outputting a corresponding electric signal after receiving the control instruction, and the driving module is electrically connected with the transmitting coil module so as to drive the transmitting coil module to transmit a wireless charging signal outwards; the receiving circuit comprises a receiving coil module, a boosting rectifying module and a power supply module, wherein the receiving coil module is electrically connected with the boosting rectifying module, and the boosting rectifying module is electrically connected with the power supply module.

Preferably, the power supply module is electrically connected to a power bank built in the inner side of the jacket main body.

Preferably, the inner side of the coat main body is provided with an installation pocket, and the charger baby is detachably installed in the installation pocket.

Preferably, the wireless charging module further comprises a contact plate located outside the transmitting coil module, and the contact plate is in contact with the smart phone.

Preferably, the base cloth layer comprises an inner warm-keeping cloth piece and at least one outer warm-keeping cloth piece sewn together with the inner warm-keeping cloth piece, and the edge of the inner warm-keeping cloth piece is longer than the edge of the outer warm-keeping cloth piece; a warm-keeping cloth piece suture line for sewing the inner warm-keeping cloth piece and the outer warm-keeping cloth piece into a basic cloth layer is arranged between the inner warm-keeping cloth piece and the outer warm-keeping cloth piece.

Preferably, the edges of the inner heat-preservation cloth pieces close to the outer heat-preservation cloth pieces are provided with heat-preservation cloth piece sewing lines for sewing the two base cloth layers into the heat-preservation layers.

Preferably, the first connecting area is formed between the sewing line of the inner thermal cloth piece and the edge of the inner thermal cloth piece on the inner thermal cloth piece.

Preferably, a thickened cloth piece sewing line for sewing the two outer thickened cloth pieces together is arranged between the two outer thickened cloth pieces.

Preferably, the outer gusset forms a second attachment area between the gusset seam and an edge of the outer gusset.

Compared with the prior art, the utility model has the following advantages:

1. the utility model carries out invisible overlocking on the outer sleeve, and can solve the problem of uncomfortable feeling caused by overlarge thickness of the bone line of the multi-layer outer sleeve when the garment is worn.

2. Simultaneously, be provided with the pocket that charges, can directly place the smart mobile phone in the pocket that charges and carry out wireless charging.

3. The upper surface of wireless charging module and elasticity hoop all is less than outer protective layer upper surface, can make and observe the inside wireless charging module that is of unable seeing from the outward appearance.

Drawings

Fig. 1 is a schematic structural view of a jacket body.

Fig. 2 is a schematic structural view of a binding structure.

Fig. 3 is a schematic structural diagram of the charging pocket.

Fig. 4 is a schematic circuit structure diagram of the wireless charging module.

In the figure, the jacket main body 1, the thermal layer 11, the base fabric layer 111, the first connecting area 112, the inner thermal cloth piece 113, the outer thermal cloth piece 114, the thermal cloth piece sewing thread 115, the outer thickened layer 12, the outer thickened cloth piece 121, the second connecting area 122, the thickened cloth piece sewing thread 123, the inner and outer connecting threads 13, the charging pocket 14, the outer protective layer 141, the elastic hoop member 142 and the contact plate 143.

Detailed Description

In order to facilitate understanding of the technical solutions of the present invention, the following detailed description is made with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1-4, a multilayer composite invisible serging jacket with a wireless charging function comprises a jacket main body 1, wherein the jacket main body 1 comprises a thermal insulation layer 11, the thermal insulation layer 11 comprises two base fabric layers 111 sewn together, and a first connecting area 112 is arranged at the edge of the base fabric layer 111 close to the sewing position; an outer thickening layer 12 is sleeved on the outer surface of the warm-keeping layer 11, the outer thickening layer 12 comprises two outer thickening cloth pieces 121 which are sewn together, a second connecting area 122 is arranged at the edge, close to the sewing position, of each outer thickening cloth piece 121, and an inner connecting line 13 and an outer connecting line 13 which are used for sewing the first connecting area 112 and the second connecting area 122 together are arranged between the first connecting area 112 and the second connecting area 122; the existing common multilayer coat mostly overlaps multilayer cloth and then sews together when in production, although the method has the characteristics of simplicity and quickness, the problems of poor elasticity of the coat, low structural strength of the coat and large thickness of bone lines can be caused, so that the coat is not good in comfort and stability when in use, and the situations of discomfort of a wearer, line breakage and the like are easily caused. In the embodiment, the multilayer composite invisible serging boneless overcoat separately sews and connects the thermal insulation layer 11 and the outer thickening layer 12, so that the thickness of the bone line of the overcoat main body 1 is effectively reduced, and the elasticity of the multilayer composite invisible serging boneless overcoat is improved, thereby improving the comfort of a user when wearing the multilayer composite invisible serging boneless overcoat; meanwhile, the structural strength of the coat main body 1 is improved, so that the conditions of line breakage and the like when a user wears the coat are avoided.

The base cloth layer 111 comprises an inner warm-keeping cloth piece 113 and at least one outer warm-keeping cloth piece 114 sewn with the inner warm-keeping cloth piece 113, and the edge of the inner warm-keeping cloth piece 113 is longer than the edge of the outer warm-keeping cloth piece 114; a warm-keeping cloth piece sewing thread 115 for sewing the inner warm-keeping cloth piece 113 and the outer warm-keeping cloth piece 114 into the base cloth layer 111 is arranged between the inner warm-keeping cloth piece 113 and the outer warm-keeping cloth piece 114. Through the specific structure of the basic fabric layer 111 in the embodiment, the basic fabric layer 111 has better heat preservation performance and elasticity, so that the comfort level of a user wearing the multi-layer composite invisible overlock boneless coat is improved.

The edge of the inner warm-keeping cloth piece 113 close to the outer warm-keeping cloth piece 114 is provided with a warm-keeping cloth piece sewing line 115 for sewing the two base cloth layers 111 into the warm-keeping layer 11; through the setting of cold-proof cloth piece stylolite 115 in this embodiment, can sew up two basic cloth layers 111 for cold-proof layer 11, form first connecting region 112 on interior cold-proof cloth piece 113 between the edge that lies in cold-proof cloth piece stylolite 115 and interior cold-proof cloth piece 113, through the setting of first connecting region 112 position in this embodiment, can be comparatively effectual the bone line thickness that reduces the overcoat to the travelling comfort of user when wearing the overcoat has been promoted. A thickened cloth piece sewing thread 123 for sewing the two outer thickened cloth pieces 121 together is arranged between the two outer thickened cloth pieces 121, and the two outer thickened cloth pieces 121 can be sewn into the outer thickened layer 12. The second connecting area 122 is formed between the edge of the outer thickening cloth piece 121 located between the thickening cloth piece sewing line 123 and the edge of the outer thickening cloth piece 121 on the outer thickening cloth piece 121, so that the thickness of the bone line of the coat can be effectively reduced, and the comfort of a user when wearing the coat is improved.

The coat main part 1 openly is equipped with the pocket 14 that charges, the pocket 14 that charges includes outer protective layer 141, can protect the smart mobile phone that charges, is equipped with wireless charging module in the pocket 14 that charges, can be used for charging for the smart mobile phone is wireless, the outside of wireless charging module is equipped with elasticity hoop 142, can be with the contact of smart mobile phone and wireless charging module, elasticity hoop 142 links to each other with wireless charging module is trilateral, and the space between elasticity hoop 142 and the wireless charging module is the installation space that charges of smart mobile phone, only upper portion opening, wireless charging module and elasticity hoop 142's upper surface all is less than outer protective layer 141 upper surface, can make and observe the inside wireless charging module that can't see out from the outward appearance.

The wireless charging module comprises a transmitting circuit, a receiving circuit is arranged on the smart phone, and the transmitting circuit is electrically connected with the receiving circuit; the transmitting circuit comprises a control module, a driving module and a transmitting coil module; the control module is electrically connected with the driving module so as to send a control instruction to the driving module; the driving module is used for outputting a corresponding electric signal after receiving the control instruction, and the driving module is electrically connected with the transmitting coil module so as to drive the transmitting coil module to transmit a wireless charging signal outwards; the receiving circuit comprises a receiving coil module, a boosting rectifying module and a power supply module, wherein the receiving coil module is electrically connected with the boosting rectifying module, and the boosting rectifying module is electrically connected with the power supply module.

The power module is connected with the precious electricity that charges of placing in 1 inboard of overcoat main part in with, 1 inboard of overcoat main part is equipped with the installation pocket, the precious detachable that charges is installed in the installation pocket, can conveniently in time take out the precious that charges, charges the precious. The wireless charging module further comprises a contact plate 143 located on the outer side of the transmitting coil module, and the contact plate 143 is in contact with the smart phone.

The above is only a preferred embodiment of the present invention, and the scope of the present invention is defined by the appended claims, and several modifications and amendments made by those skilled in the art without departing from the spirit and scope of the present invention should be construed as the scope of the present invention.

Claims (10)

1. The utility model provides a take compound stealthy overcoat of overlocking of multilayer of wireless function of charging which characterized in that: the jacket comprises a jacket main body (1), wherein the jacket main body (1) comprises a warm-keeping layer (11), the warm-keeping layer (11) comprises two basic cloth layers (111) which are sewn together, and a first connecting area (112) is arranged at the edge of the basic cloth layer (111) close to a sewing position; an outer thickening layer (12) is sleeved on the outer surface of the warm-keeping layer (11), the outer thickening layer (12) comprises two outer thickening cloth pieces (121) which are sewn together, a second connecting area (122) is arranged at the edge, close to the sewing position, of each outer thickening cloth piece (121), and an inner connecting line and an outer connecting line (13) which are used for sewing the first connecting area (112) and the second connecting area (122) together are arranged between the first connecting area (112) and the second connecting area (122);

the coat main part (1) openly is equipped with the pocket (14) that charges, the pocket (14) that charges includes outer protective layer (141), is equipped with the wireless module of charging in the pocket (14), the outside of wireless module of charging is equipped with elasticity hoop (142), elasticity hoop (142) link to each other with wireless charging module is trilateral, and the space between elasticity hoop (142) and the wireless module of charging is smart mobile phone's the installation space that charges, only upper portion opening, the upper surface of wireless charging module and elasticity hoop (142) all is less than outer protective layer (141) upper surface.

2. The multilayer composite invisible serging jacket with the wireless charging function according to claim 1, is characterized in that: the wireless charging module comprises a transmitting circuit, a receiving circuit is arranged on the smart phone, and the transmitting circuit is electrically connected with the receiving circuit; the transmitting circuit comprises a control module, a driving module and a transmitting coil module; the control module is electrically connected with the driving module so as to send a control instruction to the driving module; the driving module is used for outputting a corresponding electric signal after receiving the control instruction, and the driving module is electrically connected with the transmitting coil module so as to drive the transmitting coil module to transmit a wireless charging signal outwards; the receiving circuit comprises a receiving coil module, a boosting rectifying module and a power supply module, wherein the receiving coil module is electrically connected with the boosting rectifying module, and the boosting rectifying module is electrically connected with the power supply module.

3. The multilayer composite invisible serging jacket with the wireless charging function according to claim 2, is characterized in that: the power supply module is electrically connected with the charger baby arranged inside the outer sleeve main body (1).

4. The multilayer composite invisible serging jacket with the wireless charging function according to claim 3, is characterized in that: the utility model discloses a coat, including coat main part (1), precious detachable is installed in the installation pocket, coat main part (1) inboard is equipped with the installation pocket, the treasured that charges is installed in the installation pocket detachably.

5. The multilayer composite invisible serging jacket with the wireless charging function according to claim 2, is characterized in that: the wireless charging module further comprises a contact plate (143) located on the outer side of the transmitting coil module, and the contact plate (143) is in contact with the smart phone.

6. The multilayer composite invisible serging jacket with the wireless charging function according to claim 1, is characterized in that: the basic cloth layer (111) comprises an inner thermal cloth piece (113) and at least one outer thermal cloth piece (114) sewn with the inner thermal cloth piece (113), and the edge of the inner thermal cloth piece (113) is longer than the edge of the outer thermal cloth piece (114); a warm-keeping cloth piece sewing line (115) used for sewing the inner warm-keeping cloth piece (113) and the outer warm-keeping cloth piece (114) into the basic cloth layer (111) is arranged between the inner warm-keeping cloth piece (113) and the outer warm-keeping cloth piece (114).

7. The multilayer composite invisible serging jacket with the wireless charging function according to claim 1, is characterized in that: the edge of the inner warm-keeping cloth piece (113) close to the outer warm-keeping cloth piece (114) is provided with a warm-keeping cloth piece sewing line (115) for sewing the two basic cloth layers (111) into the warm-keeping layer (11).

8. The multilayer composite invisible serging jacket with the wireless charging function according to claim 7, is characterized in that: a first connecting area (112) is formed on the inner thermal cloth piece (113) between the thermal cloth piece sewing line (115) and the edge of the inner thermal cloth piece (113).

9. The multilayer composite invisible serging jacket with the wireless charging function according to claim 1, is characterized in that: a thickening cloth piece sewing line (123) for sewing the two outer thickening cloth pieces (121) together is arranged between the two outer thickening cloth pieces (121).

10. The multilayer composite invisible serging jacket with the wireless charging function according to claim 9, is characterized in that: a second connecting region (122) is formed on the outer panel (121) between the seam (123) and the edge of the outer panel (121).

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