CN210901534U - Sewing structure of front fly of robot protective clothing - Google Patents

Abstract

The utility model discloses a sewing up structure of robot protective clothing door front of a garment belongs to the protection technical field of automation equipment, including nylon fastener tape closed structure, nylon fastener tape closed structure includes nylon fastener tape deckle edge and nylon hasp thorn limit, and nylon fastener tape deckle edge and nylon hasp thorn limit bonding are connected, and nylon fastener tape deckle edge and nylon hasp thorn limit are all installed at door front of a garment subassembly inboardly, and nylon fastener tape deckle edge and nylon hasp thorn limit all utilize fire-retardant suture line to sew up, still includes snap-fastener closed structure, and snap-fastener closed structure includes pin thread and box, and pin thread and box lock of each other are connected, and pin thread and box all set up on door front of a garment subassembly. The utility model discloses an adopt the dual function of nylon fastener tape closed structure and snap-fastener closed structure, inside harmful particulate matter in the abundant prevention environment for example high temperature welding slag, high temperature molten metal splash liquid, dust, steam get into the robot protective clothing, promote the fire resistance of robot protective clothing.

Description

Sewing structure of front fly of robot protective clothing

Technical Field

The utility model relates to an automation equipment's protection technical field specifically is a sewing structure of robot protective clothing door front of a garment.

Background

When the robot is applied to a working environment with high humidity, high heat radiation, welding slag splashing or other high-temperature molten metal splashing liquid, the robot needs to be worn with a functional protective garment to protect the working state of the robot from being affected by a severe environment.

In order to ensure that the robot protective clothing is convenient to put on and take off, a slit is generally designed at the side edge or the bottom of the protective clothing to serve as a front fly of the protective clothing, and the protective clothing is put on and taken off by opening and closing the front fly. The sewing structure of the existing garment front fly is basically in a flat sewing or seam coming and going mode, and is matched with opening and closing auxiliary materials such as a zipper, a button, a hasp or a magic tape, and the like, so that the simple sewing structure cannot avoid burning caused by fine particles in the environment entering the interior of the protective garment from the front fly, and therefore a good protection effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the background art, the utility model provides a sewing structure of robot protective clothing door front of a garment adopts the dual function of nylon fastener tape closed structure and snap-fastener closed structure, and the harmful particulate matter that fully prevents in the environment splashes liquid, dust, steam and gets into inside the robot protective clothing like high temperature welding slag, high temperature molten metal, promotes the fire resistance of robot protective clothing.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a sewing structure of robot protection clothes door front of a garment, includes nylon fastener closure structure, nylon fastener closure structure includes nylon fastener deckle edge and nylon hasp thorn limit, nylon fastener deckle edge and nylon hasp thorn limit bonding connection, nylon fastener deckle edge and nylon hasp thorn limit are all installed at door front of a garment subassembly inboardly, nylon fastener deckle edge and nylon hasp thorn limit all utilize fire-retardant suture to sew up, fire-retardant suture and nylon fastener closure structure are made by fire-retardant high temperature resistant material, still include snap-fastener closure structure, snap-fastener closure structure includes pin thread and box, pin thread and box lock connection of each other, pin thread and box all set up in on the door front of a garment subassembly.

As an optimized technical scheme of the utility model, the door front of a garment subassembly includes left door front of a garment and right door front of a garment, left door front of a garment and right door front of a garment cooperation are used.

As a preferred technical proposal of the utility model, the raw edges of the nylon fastener tapes or the raw edges of the nylon fastener tapes are sewed at the inner side of the left front fly;

when the burr edge of the nylon hasp is sewn on the inner side of the left front fly, the burr edge of the nylon hasp is sewn on the inner side of the right front fly, and a position 1.5-3cm away from one tail end of the burr edge of the nylon hasp and the other tail end of the burr edge of the nylon hasp are sewn by flame-retardant sewing threads;

when the nylon fastener burr edge is sewn on the inner side of the left front fly, the nylon fastener burr edge is sewn on the inner side of the right front fly, and one tail end of the nylon fastener burr edge and a position 1.5-3cm away from the other tail end are sewn by flame-retardant sewing threads.

As a preferred technical solution of the present invention, the male buckle or the female buckle is sewn outside the left front fly, the installation positions of the snap fastener closure structure and the hook and loop fastener closure structure are staggered, and the snap fastener closure structure is located on one side of the hook and loop fastener closure structure;

when the male buckle is sewed outside the left placket, the female buckle is sewed between the inner side of the right placket and the bottom of the movable thorn edge of the nylon fastener tape;

when the female buckle is sewed outside the left placket, the male buckle is sewed between the inner side of the right placket and the bottom of the movable stabbing edge of the nylon fastener tape.

As a preferred technical scheme of the utility model, snap-fastener closure structure sets up to one row or multirow.

As a preferable technical proposal of the utility model, the distance between two adjacent snap fastener closed structures in the same row is between 5 and 10 cm.

Compared with the prior art, the beneficial effects of the utility model are that:

1. adopt the closed dual fail-safe structure of nylon fastener and snap-fastener, fully prevent harmful particulate matter in the environment such as high temperature welding slag, high temperature molten metal splash liquid, dust, steam entering robot protective clothing inside, promote robot protective clothing's fire resistance.

2. The left and right lappets are more tightly attached, and are not easy to tear when being subjected to external force.

3. The left and right front fly of the utility model is more smooth and beautiful.

4. The utility model discloses the department of sewing up of suturing up the structure no longer exposes outside, reduces piling up that welding slag or metal splashes.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a middle left placket;

fig. 3 is a schematic structural view of the right middle fly of the present invention.

In the figure: 1. a left placket; 2. a right placket; 3. rough edges of the nylon fastener tapes; 4. the nylon buckle thorn edge; 5. a flame retardant suture; 6. a male buckle; 7. and (4) a female buckle.

Detailed Description

The invention is further explained below with reference to examples and figures. The following examples are provided only for illustrating the present invention and are not intended to limit the scope of the present invention.

Example (b):

referring to fig. 1-3, the utility model provides a sewing structure of robot protective clothing door front of a garment, including nylon fastener closure structure, nylon fastener closure structure includes nylon fastener deckle edge 3 and nylon fastener thorn limit 4, and nylon fastener deckle edge 3 and nylon fastener thorn limit 4 adhesive bonding are connected, and nylon fastener deckle edge 3 and nylon fastener thorn limit 4 all install at the door front of a garment subassembly inboardly. The rough edges 3 of the nylon fastener tape and the stabbing edges 4 of the nylon fastener tape are sewn by the flame-retardant suture lines 5, and the flame-retardant suture lines 5 and the closed structure of the nylon fastener tape are both made of flame-retardant high-temperature-resistant materials. Still include snap-fastener closed structure, snap-fastener closed structure includes pin thread 6 and box 7, and pin thread 6 and box 7 lock of each other are connected, and pin thread 6 and box 7 all set up on the door front of a garment subassembly.

As shown in fig. 2 and fig. 3, in the specific implementation process, the fly assembly includes a left fly 1 and a right fly 2, and the left fly 1 and the right fly 2 are used in cooperation.

In the specific implementation process, the rough edge 3 of the nylon fastener tape or the thorn edge 4 of the nylon fastener tape is sewed on the inner side of the left placket front 1: when the rough edge 3 of the nylon hasp is sewn on the inner side of the left placket 1, the barbed edge 4 of the nylon hasp is sewn on the inner side of the right placket 2, and one tail end of the barbed edge 4 of the nylon hasp and a part 1.5-3cm away from the other tail end are sewn by a flame-retardant suture line 5; when the nylon fastener burr edge 4 is sewed on the inner side of the left front fly 1, the nylon fastener burr edge 3 is sewed on the inner side of the right front fly 2, and one end of the nylon fastener burr edge 3 and a position 1.5-3cm away from the other end are sewed by a flame-retardant suture line 5. In this embodiment, the raw edge 3 of the nylon fastener tape is sewn on the inner side of the left fly 1, the barbed edge 4 of the nylon fastener tape is sewn on the inner side of the right fly 2, and the one end and a position 1.5-3cm away from the other end of the barbed edge 4 of the nylon fastener tape are sewn by the flame-retardant suture 5.

In the specific implementation process, the male buckle 6 or the female buckle 7 is sewn on the outer side of the left placket 1, the installation positions of the snap closing structure and the nylon fastener closing structure are staggered, and the snap closing structure is positioned on one side of the nylon fastener closing structure: when the male buckle 6 is sewed outside the left placket 1, the female buckle 7 is sewed between the inner side of the right placket 2 and the bottom of the movable thorn edge of the nylon fastener tape; when the female buckle 7 is sewed outside the left placket 1, the male buckle 6 is sewed between the inner side of the right placket 2 and the bottom of the movable thorn edge of the nylon fastener tape. In the embodiment, the male buckle 6 is sewed outside the left placket 1, and the female buckle 7 is sewed between the inner side of the right placket 2 and the bottom of the movable thorn edge of the nylon fastener tape.

In particular implementations, the snap closure structures are arranged in one or more rows. Preferably two adjacent snap closure structures in the same row are between 5-10cm apart.

The working process is as follows:

the method comprises the steps of firstly attaching rough edges 3 of the nylon fastener tape and the barbed edge 4 of the nylon fastener tape together, then bending the left front fly 1, placing the bent left front fly between the inner side of the right front fly 2 and the bottom of the barbed edge 4 of the nylon fastener tape, and fastening the male buckle 6 and the female buckle 7 to complete the closing of the left front fly 1 and the right front fly 2.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a sewing structure of robot protective clothing door front of a garment, includes nylon fastener closure structure, nylon fastener closure structure includes nylon fastener deckle edge and nylon hasp thorn limit, nylon fastener deckle edge and nylon hasp thorn limit adhesive connection, nylon fastener deckle edge and nylon hasp thorn limit are all installed at door front of a garment subassembly inboardly, nylon fastener deckle edge and nylon hasp thorn limit all utilize fire-retardant suture to sew up, fire-retardant suture and nylon fastener closure structure are made its characterized in that by fire-retardant high temperature resistant material: still include snap-fastener closed structure, snap-fastener closed structure includes pin thread and box, pin thread and box lock connection of each other, pin thread and box all set up in on the door front of a garment subassembly.

2. The sewing structure of the robot protective clothing fly according to claim 1, wherein: the top fly assembly comprises a left top fly and a right top fly, and the left top fly and the right top fly are matched for use.

3. The sewing structure of the robot protective clothing fly according to claim 2, wherein: the rough edges of the nylon fastener tapes or the burr edges of the nylon fastener tapes are sewn on the inner side of the left front fly;

when the burr edge of the nylon hasp is sewn on the inner side of the left front fly, the burr edge of the nylon hasp is sewn on the inner side of the right front fly, and a position 1.5-3cm away from one tail end of the burr edge of the nylon hasp and the other tail end of the burr edge of the nylon hasp are sewn by flame-retardant sewing threads;

when the nylon fastener burr edge is sewn on the inner side of the left front fly, the nylon fastener burr edge is sewn on the inner side of the right front fly, and one tail end of the nylon fastener burr edge and a position 1.5-3cm away from the other tail end are sewn by flame-retardant sewing threads.

4. The sewing structure of the robot protective clothing fly according to claim 3, wherein: the male buckle or the female buckle is sewn on the outer side of the left placket, the installation positions of the snap fastener closing structure and the nylon hasp closing structure are staggered, and the snap fastener closing structure is positioned on one side of the nylon hasp closing structure;

when the male buckle is sewed outside the left placket, the female buckle is sewed between the inner side of the right placket and the bottom of the movable thorn edge of the nylon fastener tape;

when the female buckle is sewed outside the left placket, the male buckle is sewed between the inner side of the right placket and the bottom of the movable stabbing edge of the nylon fastener tape.

5. The sewing structure of the robot protective clothing fly according to claim 1, wherein: the snap closure structures are arranged in one or more rows.

6. The sewing structure of the robot protective clothing fly according to claim 5, wherein: the distance between two adjacent snap closure structures in the same row is between 5 and 10 cm.

Images