CN219206031U - Inner and outer interface paste clothes structure of cooling protective clothing - Google Patents

Abstract

The utility model discloses an inner and outer interface plaster structure of cooling protective clothing, which comprises a protective clothing lining component and a front and back folding component, wherein the protective clothing lining component consists of a built-in front plaster layer and a built-in back plaster layer, and the front and back folding component is arranged between the built-in front plaster layer and the built-in back plaster layer; through changing the knot seat and putting into each other buckling position of button head, and then partly fold shoulder cloth cover layer and fold tie layer according to user's shoulder thickness, paste the laminating degree with the leather table when keeping wearing through the pasting of the additional strong gluey chamber of putting on with user's clothing front and back side, simultaneously make built-in front of the chest attached layer and built-in back attached layer can not produce loosely because of the fold in the corner under wearing the state owing to the setting of connecting the bordure, make built-in front of the chest attached layer and built-in back attached layer can not cause built-in front of the chest attached layer and built-in back attached layer's too big swing because of the action in wearing the in-process.

Description

Inner and outer interface paste clothes structure of cooling protective clothing

Technical Field

The utility model relates to the technical field, in particular to an internal and external interface sticking structure of cooling protective clothing.

Background

In order to ensure the cool air dispersing effect during use, the air conditioner protective clothing needs to be placed in the lining layer by the air guide pipeline, after the lining is placed in the air guide pipeline and worn on the inner side of the protective clothing, the inner and outer interface parts of the air conditioner protective clothing are not good in the degree of pasting with the protective clothing and the leather surface of a user due to the influence of the pipeline, shake is easily generated on the inner side of the protective clothing when the air conditioner protective clothing moves in a use state, comfort is easily reduced due to loose feeling after the air conditioner protective clothing is worn, and meanwhile, the heat dissipation air guide surface is not stable enough after the position change is not added due to the degree of pasting, so that the use effect is not ideal. Therefore, we propose a cooling protective clothing internal and external interface subsides dress structure.

Disclosure of Invention

The utility model mainly aims to provide an internal and external interface sticking structure of cooling protective clothing.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides an inside and outside interface of cooling protective clothing is pasted and is put up the subassembly, turn over the subassembly around including protective clothing lining subassembly, the protective clothing lining subassembly is by built-in attached layer in front and built-in attached layer in back, turn over the subassembly around turn over in built-in attached layer in front with built-in attached layer in back, turn over the subassembly around by shoulder cloth cover layer and fold link layer and constitute, shoulder cloth cover layer fixed connection in built-in attached layer in front with built-in attached layer in back, fold link layer fixed connection in the inboard of shoulder cloth cover layer, built-in attached layer in front with built-in attached layer in back all is equipped with the ventilative stratum reticulare of gauze that is used for increasing the gas permeability behind the dress, built-in attached layer surface wall position fixedly connected with is used for reinforcing local positioning effect's adhesion laminating layer, the mesh layer before attached layer's of inside position fixedly connected with, preceding attached mesh layer surface fixedly connected with a plurality of is used for increasing contact friction's anti-sticking granule.

The utility model is further improved in that the built-in chest attaching layer and the built-in back attaching layer are both provided with a neck penetrating cavity for penetrating the neck into the wearing, and the inner side of the neck penetrating cavity is fixedly connected with a leather surface clamp attaching edging for anti-wear buffering when the skin of the neck of a user contacts with the built-in chest attaching layer and the built-in back attaching layer.

The utility model is further improved in that a pipeline embedding cavity for providing an embedded installation space of the air guide pipeline is arranged at the inner side of the built-in back attaching layer, and pipeline wrapping interlayers for blocking the embedded rear surface of the air guide pipeline are fixedly connected to the outer sides of the pipeline embedding cavity.

The utility model is further improved in that the connecting binding edges which are distributed in an annular mode are fixedly connected to the outer peripheral sides of the built-in front attaching layer and the built-in back attaching layer, the connecting binding edges are further used for increasing the edge thickness of the built-in front attaching layer, and the air duct binding pad used for limiting closing-up after the air guide pipe is embedded is fixedly connected to the bottom of the built-in back attaching layer.

The utility model is further improved in that the shoulder cloth sleeve layer is fixedly connected with an imbedding buckle head and a plurality of buckling seats which are longitudinally distributed at equal intervals, and the buckling seats are connected with the imbedding buckle head in a clamping manner and are used for adapting to the adjustment of the shoulder thickness and the adjustment of the length interval when the crease connecting layer is worn.

The utility model is further improved in that the surface of the built-in back attaching layer is fixedly connected with a plurality of attaching strong adhesive cavities, and the inner sides of the attaching strong adhesive cavities are used for enhancing the attaching degree of the built-in back attaching layer and the back of a user through placing double-sided adhesive.

The utility model further improves that the built-in chest attaching layer is fixedly connected with a lower periphery weight piece for increasing the weight of the lower hem so as to reduce the generation of wearing gaps.

Compared with the prior art, the utility model changes the mutual buckling positions of the buckling seat and the imbedding buckle head, further partially folds the shoulder cloth sleeve layer and the fold connecting layer according to the thickness of the shoulder of a user, enables the distance between the imbedded chest attaching layer and the imbedded back attaching layer to be more fit with the body shape of the user, keeps the length fit of the imbedded chest attaching layer and the imbedded back attaching layer behind the front side and the back side of the user, and then after the head of the user penetrates into the cavity through the neck, keeps the fit degree with the leather surface through the adhesive attaching layer and the adhesive attaching strong adhesive cavity and the adhesion of the front side and the back side of the clothing of the user, simultaneously, the corner of the imbedded chest attaching layer and the imbedded back attaching layer in the wearing state can not be loose due to folds, further keeps certain perpendicularity under the action of the lower peripheral weight piece, enables the imbedded chest attaching layer and the imbedded back attaching layer not to cause excessive swing of the imbedded chest attaching layer and the imbedded back attaching layer in the wearing process, further keeps the heat dissipation distribution of the clothing in a stable state.

Drawings

Fig. 1 is a composition diagram of an inner and outer interface patch structure of a cooling protective garment according to the present utility model.

Fig. 2 is a schematic diagram of a state of the inner and outer interface patch structure of the cooling protective clothing according to the present utility model after the protective clothing is put in.

In the figure: 1. a protective garment liner assembly; 11. a chest attachment layer is built in; 111. connecting and wrapping edges; 12. a back attaching layer is built in; 121. a wind conduit positioning pad; 122. attaching an additional strong adhesive cavity; 13. a gauze breathable netting layer; 14. adhering the bonding layer; 15. the neck penetrates into the cavity; 151. the leather surface is clamped and stuck with a binding; 2. front and back turnover components; 21. a shoulder cloth cover layer; 22. a crimped connection layer; 23. a buckling seat; 24. placing a buckle head; 3. a front pasting mesh layer; 31. anti-slip particle patches; 4. placing the pipeline into the cavity; 41. the pipeline wraps the interlayer; 5. and the lower circumference is provided with weight pieces.

Detailed Description

The present utility model will be further described with reference to the following detailed description, wherein the drawings are for illustrative purposes only and are shown in schematic drawings, rather than physical drawings, and are not to be construed as limiting the present utility model, and in order to better explain the detailed description of the utility model, certain components of the drawings may be omitted, enlarged or reduced in size, and not represent the actual product, and it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted, and that all other embodiments obtained by those skilled in the art without making creative efforts fall within the scope of protection of the utility model based on the detailed description of the present utility model.

Examples

Referring to fig. 1-2, an inner and outer joint patch structure of a cooling protective garment comprises a protective garment lining component 1 and a front and back folding component 2, wherein the protective garment lining component 1 is composed of a built-in front attached layer 11 and a built-in back attached layer 12, the front and back folding component 2 is arranged between the built-in front attached layer 11 and the built-in back attached layer 12, the front and back folding component 2 is composed of a shoulder cloth cover layer 21 and a fold connecting layer 22, the shoulder cloth cover layer 21 is fixedly connected between the built-in front attached layer 11 and the built-in back attached layer 12, the fold connecting layer 22 is fixedly connected to the inner side of the shoulder cloth cover layer 21, the built-in front attached layer 11 and the built-in back attached layer 12 are both provided with gauze breathable woven mesh layers 13 for increasing ventilation performance after the garment, the surface wall position of the built-in front attached layer 11 is fixedly connected with an adhesive bonding layer 14 for enhancing local positioning effect, the inner side position of the built-in front attached layer 11 is fixedly connected with a front mesh layer 3, and the surface of the front mesh layer 3 is fixedly connected with a plurality of anti-slipping particles 31 for increasing contact friction force.

In this embodiment, the mutual fastening positions of the fastening seat 23 and the placement fastening head 24 can be changed by the longitudinal distribution state of the fastening seats 23 when a user wears the device, so that the shoulder cloth cover layer 21 and the crease connecting layer 22 can be partially folded according to the shoulder thickness of the user, the wearing interval between the front built-in attaching layer 11 and the back built-in attaching layer 12 is more fit with the body shape of the user, the length fitting property of the front built-in attaching layer 11 and the back built-in attaching layer 12 on the front and back sides of the user is kept, the circulation effect of the heat dissipation of the air guide pipe is prevented from being influenced due to loose length after the user wears the device, after the wearing interval between the front built-in attaching layer 11 and the back built-in attaching layer 12 is adjusted, the head of the user is penetrated into the cavity 15 through the neck, at this time, the bonding degree between the bonding layer 14 (PET adhesive tape) and the bonding strong adhesive cavity 122 and the front and back sides of the clothing of the user is kept when the clothing is worn, and the bonding strength between the bonding strong adhesive cavity 122 and the leather surface is kept when the clothing is worn, and the bonding strong adhesive cavity is used for reinforcing the hardness of the bonding edge 111 at the edge positions of the inner chest bonding layer 11 and the inner back bonding layer 12, so that the corners of the inner chest bonding layer 11 and the inner back bonding layer 12 cannot be loosened due to wrinkles in the wearing state, the inner sides of the inner chest bonding layer 11 and the inner back bonding layer 12 can keep ventilation performance through the gauze breathable mesh layer 13 and normal air circulation when the pipeline is supplied, and after the clothing is worn, the inner chest bonding layer 11 can keep the verticality of the use state of the inner chest bonding layer 11 under the weight of the lower peripheral weight plate 5, and after the anti-slip particle adhesive 31 arranged on the inner side of the auxiliary mesh layer 3 increases the movable friction force, the built-in front attaching layer 11 and the built-in back attaching layer 12 can not cause excessive swing of the built-in front attaching layer 11 and the built-in back attaching layer 12 due to actions in the wearing process, so that the attaching performance in a using state is maintained, and the using comfort and the stability of the air-out heat dissipation surface of the pipeline are ensured.

The inner chest attaching layer 11 and the inner back attaching layer 12 are respectively provided with a neck penetrating cavity 15 for penetrating the neck into the wearing, and the inner side of the neck penetrating cavity 15 is fixedly connected with a leather surface clip binding edge 151 for anti-wear buffering when the neck skin of a user contacts the inner chest attaching layer 11 and the inner back attaching layer 12; the neck penetrates the chamber 15 and is used for using stretching into of personnel's neck to realize wearing to built-in attached layer 11 behind the back attached layer 12 behind the chest behind the built-in, simultaneously through the design of the skin table clamp subsides bordure 151 bordure can keep the personnel's action in-process neck penetrate chamber 15 with patient's neck contact cushioning effect, when keeping with skin table contact degree of adherence, avoid built-in attached layer 11 behind the chest behind the back attached layer 12 directly to contact with the skin table and appear wearing and tearing.

The inner side of the built-in back attaching layer 12 is provided with a pipeline imbedding cavity 4 for providing an air guide pipeline imbedding installation space, and the outer sides of the pipeline imbedding cavities 4 are fixedly connected with a pipeline wrapping interlayer 41 for blocking the air guide pipeline imbedding rear surface; the pipeline is put into the chamber 4 and is set up in the built-in attached layer 12 position in back and is used for the installation of putting into of air conditioner air ducting, simultaneously after the pipeline of built-in attached layer 12 setting is put into the pipeline is put into the chamber 4 inboard, the dress is put into the attached layer 12 behind the built-in behind the outside part of chamber 4 with pipeline parcel intermediate layer 41 seam through the mode of attaching of sewing, and then restraint the position through pipeline parcel intermediate layer 41 to the pipeline, avoid wearing the in-process because of pipeline and built-in attached layer 12 behind the back the non-integral influence to the degree of adherence in the removal use.

The outer peripheral sides of the built-in front attaching layer 11 and the built-in back attaching layer 12 are fixedly connected with connecting binding edges 111 which are distributed in an annular mode, so that the thickness of the edge of the built-in front attaching layer 11 is increased, and the bottom of the built-in back attaching layer 12 is fixedly connected with an air duct binding pad 121 used for limiting the closing-up of an air duct after being embedded; the connection edging 111 is used for edging and reinforcing the peripheral side strength of the built-in front attachment layer 11 and the built-in back attachment layer 12, and can keep the middle parts of the built-in front attachment layer 11 and the built-in back attachment layer 12 naturally drooping due to the influence of the thickness and weight of the edges after improving the edge thickness of the built-in front attachment layer 11 and the built-in back attachment layer 12, so that the influence on cold air flow caused by the expansion of the range of folds is reduced, meanwhile, the air duct binding pad 121 is made of a silica gel material, and has a wrapping protection effect on the pipe joint part, and the effect of keeping comfort is achieved by avoiding the direct contact with users without producing the sense of collision.

The shoulder cloth sleeve layer 21 is fixedly connected with an imbedding buckle head 24 and a plurality of buckling seats 23 which are longitudinally distributed at equal intervals, and the buckling seats 23 are in clamping connection with the imbedding buckle head 24 and are used for adapting to the adjustment of the shoulder thickness and the adjustment of the length interval of the crease connecting layer 22 when the shoulder cloth sleeve layer is worn; the buckling seats 23 are longitudinally arranged in a plurality, and the shoulder cloth cover layer 21 and the fold connecting layer 22 can be partially folded according to the thickness of the shoulders of a user, so that the wearing distance between the built-in chest attaching layer 11 and the built-in back attaching layer 12 can be adjusted and controlled flexibly by the body type of the user.

Wherein, the surface of the built-in back attaching layer 12 is fixedly connected with a plurality of attaching reinforcing glue cavities 122, and the inner sides of the attaching reinforcing glue cavities 122 are used for reinforcing the attaching degree of the built-in back attaching layer 12 and the back of a user by putting double-sided adhesive; after the double-sided adhesive is placed in the adhesive attaching and attaching cavity 122, the adhesive attaching and attaching cavity is fixed at the back clothes position of a user in an adhesive bonding mode, and in the process that the user needs to move for a long time in a staff working state, in order to keep the attaching degree of the built-in back attaching layer 12 and the back of the user, the built-in back attaching layer 12 and the back of the user are fixed through the operation, so that the built-in back attaching layer 12 cannot move, and the comfort degree in use can be ensured.

Wherein, the built-in chest attaching layer 11 is fixedly connected with a lower periphery weight piece 5 for increasing the weight of the lower hem and further reducing the wearing clearance; due to the arrangement of the lower periphery weight piece 5, the weight of the lower hem of the built-in chest attaching layer 11 is increased compared with other parts, and the ventilation effect is prevented from being influenced after a plurality of folds appear due to the fact that the part of the built-in chest attaching layer 11 is in an unnatural sagging state when the waist of a user is bent.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an inside and outside interface of cooling protective clothing is attached and is put forth structure, turns over subassembly (2) including protective clothing lining component (1) and front and back, its characterized in that, protective clothing lining component (1) by built-in front attached layer (11) and built-in back attached layer (12) are constituteed, turn over subassembly (2) around set up in built-in front attached layer (11) with between built-in back attached layer (12), turn over subassembly (2) around by shoulder side cloth cover layer (21) and fold articulamentum (22) are constituteed, shoulder side cloth cover layer (21) fixed connection in built-in front attached layer (11) with between built-in back attached layer (12), fold articulamentum (22) fixed connection in the inboard of shoulder side cloth cover layer (21), built-in front attached layer (11) with built-in back attached layer (12) all are equipped with and are used for increasing mesh netting layer (13) behind the subsides, built-in front attached layer (11) position (11) are used for increasing the fixed position of ventilative mesh surface-mounted adhesive layer (3) and are connected with a plurality of fixed layers (31) of fixed surface-mounted adhesive layer (3).

2. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the chest-embedded attaching layer (11) and the neck penetrating cavity (15) for penetrating the neck into wearing are arranged, and the leather surface clamp binding (151) is fixedly connected to the inner side of the neck penetrating cavity (15).

3. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the inner side of the built-in back attaching layer (12) is provided with a pipeline imbedding cavity (4) for providing an air guide pipeline imbedding installation space, and the outer sides of the pipeline imbedding cavities (4) are fixedly connected with a pipeline wrapping interlayer (41) for blocking the rear surface of the air guide pipeline imbedding.

4. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the novel air duct binding cushion is characterized in that the inner front attaching layer (11) and the inner back attaching layer (12) are fixedly connected with connecting binding edges (111) which are distributed in an annular mode, and the bottom of the inner back attaching layer (12) is fixedly connected with an air duct binding cushion (121) used for restricting the closing-up after the air duct is embedded.

5. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the shoulder cloth cover layer (21) is fixedly connected with an imbedding buckle head (24) and a plurality of buckling seats (23) which are longitudinally distributed at equal intervals, and the buckling seats (23) are in clamping connection with the imbedding buckle head (24).

6. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the surface of the built-in back attaching layer (12) is fixedly connected with a plurality of attaching strong adhesive cavities (122), and the inner sides of the attaching strong adhesive cavities (122) are used for reinforcing the attaching degree of the built-in back attaching layer (12) and the back of a user through placing double-sided adhesive.

7. The cooling protective clothing inner and outer interface attaching structure according to claim 1, wherein: the embedded chest attaching layer (11) is fixedly connected with a lower periphery weight piece (5) for increasing the weight of the lower hem and further reducing the wearing clearance.

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