CN110623331A - Down jacket liner capable of eliminating static electricity - Google Patents

Abstract

The invention relates to a down jacket liner capable of eliminating static electricity, which comprises a liner main body, wherein the liner main body is arranged in a down jacket surface layer and comprises a liner surface layer and an anti-static layer, the liner surface layer is provided with two layers, the anti-static layer is arranged between the two liner surface layers, the edges of the two liner surface layers are sewn to form a closed structure, a cavity is formed between the liner surface layers, the anti-static layer is arranged in the cavity, the anti-static layer and the upper liner surface layer form an independent down filling chamber, and another independent down filling chamber is formed between the anti-static layer and the lower liner surface layer; the down filling chamber is formed by arranging the liner main body with the three-layer structure, the thickness of the single down filling chamber is reduced, the ratio of the contact area between the down and the surface layer to the contact area between the down is reduced, and the accumulation of static electricity in the liner main body is avoided.

Description

Down jacket liner capable of eliminating static electricity

Technical Field

The invention belongs to the technical field of clothes, and particularly relates to a down jacket liner capable of eliminating static electricity.

Background

The materials of the down jacket are mainly down and coated fabrics. Firstly, down feather: a mixture of small feathers and down (also known as dolomids). The former is called feather, the latter is called velvet. The feather of duck and goose is washed to separate small feather and down feather for down jacket. The down feather is gray and white, and is preferred. The quality of down jackets is related to the down filling and down content. The down filling amount refers to the weight of down filled in one down jacket, expressed by grams, generally about 250 grams, and is small and poor in heat retention; the down content refers to the content of down particles in the down, and is generally 50-80% in percentage. High velvet content and good quality. The down can not easily dissipate the heat of the human body and has soft hand feeling, but is not easy to bulge in time when being pressed and wetted, and the small feather can ensure that the clothes are fluffy and bulge to keep more air in the clothes, thus being beneficial to warm keeping, but the small feather is more, the heat is easy to dissipate and has a fluff feeling. Therefore, the down feather and the small feather must be collected and stored at the same time, and the proportion is proper. Secondly, the coated fabric is made of silk, cotton cloth, cotton polyester and other fabrics with high density of warps and wefts, the gaps between the warps and wefts are reduced through rolling treatment, and then the coated fabric is coated with high polymer slurry to form a cross-linked transparent leather film coating with the fabrics so as to seal the gaps between the warps and wefts of the fabrics.

The down jacket in the prior art adopts the conductive surface layer to solve static electricity in order to avoid static electricity, but although the surface layer is conductive and can dredge static electricity, contact still exists between down jacket inside, because the down jacket needs fluffiness to keep warm, consequently there is a large amount of spaces between the down, and the area of contact between the down is far greater than the area of contact between down and the surface layer to produce the static electricity accumulation effect between the down.

Disclosure of Invention

The present invention is directed to solving the above problems and providing a down jacket liner capable of eliminating static electricity, which prevents the accumulation of static electricity.

The invention realizes the purpose through the following technical scheme:

a down jacket liner capable of eliminating static electricity comprises a liner main body, wherein the liner main body is arranged in a down jacket surface layer and comprises a liner surface layer and an anti-static layer, the liner surface layer is provided with two layers, the anti-static layer is arranged between the two liner surface layers, the edges of the two liner surface layers are sewn to form a closed structure, a cavity is formed between the liner surface layers, the anti-static layer is arranged in the cavity, the anti-static layer and the liner surface layer on the upper layer form an independent down filling chamber, another independent down filling chamber is formed between the anti-static layer and the liner surface layer on the lower layer, down for keeping warm is filled in the down filling chamber, the anti-static layer divides the cavity filled with down in the liner into two independent down filling chambers, the thickness of each layer of down filling can be reduced in a dividing mode on the premise of not changing the down filling amount, the ratio of the contact area between the down and the surface layer to the contact area between the down, improve the electrostatic conductivity and avoid the accumulation of static electricity between down feathers.

As a further optimized scheme of the invention, the edge of the anti-static layer and the surface layer of the inner container are sewn and sealed.

As a further optimization scheme of the invention, the antistatic layer is made of antistatic metal cloth or other antistatic cloth materials, and can conduct and eliminate static electricity.

As a further optimization scheme of the invention, a plurality of stitches are arranged between the anti-static layer and the two liner surface layers, and the stitches penetrate through the two liner surface layers and the one anti-static layer, so that on one hand, the secondary conduction is carried out on the static electricity between the down feather, and on the other hand, the conduction can be formed between the liner surface layer and the external down jacket surface layer, the static accumulation is reduced, and the effect of conducting the liner main body to the outside is improved.

As a further optimization scheme of the invention, the inner container main body is provided with a down filling hole, and the down filling hole is connected with a down filling device and can be used for filling down into the inner container main body.

As a further optimization scheme of the invention, the down filling device comprises a pipe body, a piston mechanism, a storage mechanism and an output mechanism, wherein the piston mechanism is arranged in the pipe body and comprises a piston, a piston rod and a handle, the piston is arranged in the pipe body and is in interference fit with the pipe body, the rear end of the piston is connected with the piston rod, and the rear end of the piston rod is connected with the handle. The piston rod is conveniently pulled or pushed through the handle, so that the piston is pushed or pulled, the piston moves in the pipe body, and the inner cavity of the pipe body on the front side of the piston is reduced or enlarged.

The storage mechanism is arranged at the top of the pipe body, a feeding hole communicated with the storage mechanism is formed in the top of the pipe body, the storage mechanism comprises a storage tank, the lower end of the storage tank is connected with the pipe body, an outlet at the lower end of the storage tank is communicated with the feeding hole of the pipe body, an upper cover is arranged at the top of the storage tank, an air pressure balancing hole is formed in the upper cover, and a first one-way mechanism is arranged in the air pressure balancing hole;

the first one-way mechanism comprises a first spring seat, a first spring, a first sliding column, a first valve core and a first valve seat, the first spring seat is arranged at the inner lower part of the air pressure balance hole, a through hole in clearance fit with the first sliding column is formed in the center of the first spring seat, the first sliding column is fixedly provided with the first valve core, the first sliding column between the first valve core and the first spring seat is sleeved with the first spring, the first valve core is matched with the first valve seat, and the first valve seat is arranged at the inner upper part of the air pressure balance hole;

the front end of the tube body is provided with a discharge hole, and the discharge hole is connected with an output mechanism.

As a further optimized scheme of the invention, the output mechanism comprises an output pipe, one end of the output pipe is connected with the pipe body, the other end of the output pipe is sealed by a second spring seat, a second spring and a valve sleeve are arranged in the output pipe, the valve sleeve is arranged in the output pipe and is in interference fit with the output pipe, the second spring is arranged between one side of the valve sleeve, which is close to the second spring seat, and an outlet is formed in one side of the output pipe and is connected with the nozzle. The valve sleeve is pressed to overcome the elastic force of the second spring, so that the valve sleeve is separated from the outlet of the output pipe, the outlet is opened, and the plug nozzle is communicated with the output pipe.

The invention has the beneficial effects that:

1) the down filling chamber is formed by arranging the liner main body with the three-layer structure, the thickness of a single down filling chamber is reduced, the ratio of the contact area between down and a surface layer to the contact area between the down is reduced, and the accumulation of static electricity in the liner main body is avoided;

2) the inner pad can enable a user to fill down through the down filling device, and the down filling amount is controlled to adjust the heat retention property of the inner container main body, so that the inner pad is suitable for the weather with wider temperature.

Drawings

FIG. 1 is a schematic structural diagram of the present invention in accordance with one embodiment;

FIG. 2 is a schematic diagram of a layer structure according to the present invention in one embodiment;

FIG. 3 is a schematic structural diagram of the present invention in a second embodiment;

FIG. 4 is a schematic structural view of the down filling device according to the second embodiment of the present invention;

FIG. 5 is a schematic structural view of a first unidirectional mechanism of the present invention in the second embodiment;

fig. 6 is a schematic structural view of an output mechanism of the present invention in the second embodiment.

In the figure: the device comprises a pipe body 1, a piston 2, a piston rod 3, a handle 4, a feeding hole 5, a storage tank 6, an upper cover 7, an air pressure balance hole 8, a first one-way mechanism 9, a first spring seat 10, a first spring 11, a first sliding column 12, a first valve core 13, a first valve seat 14, an output pipe 15, a second spring seat 16, a second spring 17, a valve sleeve 18, a nozzle 19, an inner container main body 100, an inner container surface layer 101, an anti-static layer 102, a down filling chamber 103 and a down filling hole 104.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example one

As shown in fig. 1-2, a down jacket liner capable of eliminating static electricity comprises a liner main body 100, the liner main body 100 is arranged in a surface layer of the down jacket, the liner main body 100 comprises a liner surface layer 101 and an anti-static layer 102, the liner surface layer 101 is provided with two layers, the anti-static layer 102 is arranged between the two liner surface layers 101, the edges of the two liner surface layers 101 are sewn to form a closed structure, a chamber is formed between the two liner surface layers, the anti-static layer 102 is arranged in the chamber, the anti-static layer 102 and the upper liner surface layer 101 form an independent down filling chamber 103, another independent down filling chamber 103 is formed between the anti-static layer 102 and the lower liner surface layer 101, the down filling chamber 103 is filled with down for keeping warm, the anti-static layer separates the chamber filled with down in the liner into two independent down filling chambers 103, and can reduce the thickness of each layer of down through a separation mode without changing the down filling amount, the ratio of the contact area between the down feather and the surface layer to the contact area between the down feather is reduced, the electrostatic conductivity is improved, and static accumulation between the down feather is avoided.

Preferably, the edge of the antistatic layer 102 and the inner liner surface layer 101 are sewn and sealed.

Preferably, the material of the anti-static layer 102 is anti-static metal cloth or other anti-static cloth, which can conduct and eliminate static electricity.

Preferably, a plurality of stitches are arranged between the anti-static layer 102 and the two liner surface layers 101, the stitches penetrate through the two liner surface layers 101 and the one anti-static layer 102, on one hand, the stitches conduct the static electricity between the down feather for the second time, on the other hand, the stitches can conduct between the surface of the liner surface layer 101 and the outer down jacket surface layer, the static electricity accumulation is reduced, and the effect of conducting the liner main body 100 to the outside is improved.

Further, conductive fibers are used for the suture.

Further, the stitches are distributed in a net shape.

Furthermore, the stitches are distributed in a rhombic cross way.

The down filling chamber is formed by arranging the liner main body 100 with the three-layer structure, so that the thickness of a single down filling chamber is reduced, the area of down which is not contacted with a surface layer is reduced, and the accumulation of static electricity in the liner main body 100 is avoided.

Example two

As shown in fig. 3-6 and 1-3, the liner of the down jacket capable of eliminating static electricity comprises a liner main body 100, the liner main body 100 is arranged in a surface layer of the down jacket, the liner main body 100 comprises a liner surface layer 101 and an anti-static layer 102, the liner surface layer 101 is provided with two layers, the anti-static layer 102 is arranged between the two liner surface layers 101, the edges of the two liner surface layers 101 are sewn to form a closed structure, a chamber is formed between the two liner surface layers, the anti-static layer 102 is arranged in the chamber, the anti-static layer 102 and the upper liner surface layer 101 form an independent down filling chamber 103, another independent down filling chamber 103 is formed between the lower liner surface layer 101, the down filling chamber 103 is filled with down for keeping warm, the anti-static layer separates the chamber filled with down in the liner into the two independent down filling chambers 103, and can reduce the thickness of each down filling layer by a separation mode without changing the down filling amount, the ratio of the contact area between the down feather and the surface layer to the contact area between the down feather is improved, the electrostatic conductivity is improved, and static accumulation between the down feather is avoided.

The inner container main body 100 is provided with a down filling hole 104, and the down filling hole 104 is connected with a down filling device to fill down into the inner container main body 100.

Preferably, the down filling holes 104 are provided with plugs. Blocking the down-filling holes 104 to avoid leakage.

The down filling device comprises a pipe body 1, a piston mechanism, a storage mechanism and an output mechanism, wherein the piston mechanism is arranged inside the pipe body 1 and comprises a piston 2, a piston rod 3 and a handle 4, the piston 2 is arranged in the pipe body 1 and is in interference fit with the pipe body 1, the rear end of the piston 2 is connected with the piston rod 3, and the rear end of the piston rod 3 is connected with the handle 4. The piston rod 3 is conveniently pulled or pushed through the handle 4, so that the piston 2 is pushed or pulled, the piston 2 moves in the pipe body 1, and the inner cavity of the pipe body 1 on the front side of the piston 2 is reduced or enlarged.

The storage mechanism is arranged at the top of the pipe body 1, a feed hole 5 communicated with the storage mechanism is formed in the top of the pipe body 1, the storage mechanism comprises a storage tank 6, the lower end of the storage tank 6 is connected with the pipe body 1, the lower end outlet of the storage tank 6 is communicated with the feed hole 5 of the pipe body 1, an upper cover 7 is arranged at the top of the storage tank 6, an air pressure balance hole 8 is formed in the upper cover 7, and a first one-way mechanism 9 is arranged in the air pressure balance hole 8;

preferably, the upper lid 7 is detachably connected to the storage tank 6. The detachable connection may be a threaded connection.

The first check mechanism 9 comprises a first spring seat 10, a first spring 11, a first sliding column 12, a first valve core 13 and a first valve seat 14, the first spring seat 10 is arranged at the lower part of the inside of the air pressure balance hole 8, a through hole in clearance fit with the first sliding column 12 is formed in the center of the first spring seat 10, the first sliding column 12 is fixedly provided with the first valve core 13, the first sliding column 12 between the first valve core 13 and the first spring seat 10 is sleeved with the first spring 11, the first valve core 13 is matched with the first valve seat 14, and the first valve seat 14 is arranged at the upper part of the inside of the air pressure balance hole 8. The first check mechanism 9 can perform a function of making the air pressure equalizing hole 8 intake air in one direction.

The front end of the pipe body 1 is provided with a discharge hole, the discharge hole is connected with an output mechanism, the output mechanism comprises an output pipe 15, one end of the output pipe 15 is connected with the pipe body 1, the other end of the output pipe 15 is sealed by a second spring seat 16, a second spring 17 and a valve sleeve 18 are arranged in the output pipe 15, the valve sleeve 18 is arranged in the output pipe 15 and is in interference fit with the output pipe 15, the second spring 17 is arranged between one side, close to the second spring seat 16, of the valve sleeve 18 and the second spring seat 16, one side of the output pipe 15 is provided with an outlet. The valve sleeve 18 is moved under pressure against the force of the second spring 17, so that the valve sleeve 18 is released from the outlet of the outlet pipe 15, which is opened and the mouthpiece 19 is connected to the outlet pipe 15.

Further, the valve sleeve 18 is integrally cup-shaped, so that the contact area between the valve sleeve 18 and the output pipe 15 can be increased, and the second spring 17 can partially extend into the valve sleeve 18, thereby reducing the space required by the two.

Further, the output pipe 15 is perpendicular to the pipe body 1. The plug 19 can be parallel to the axial direction of the tube body 1, so that the plug is convenient to insert.

The invention relates to a down filling method, which comprises the following steps:

firstly, opening the upper cover 7 of the storage tank 6, adding down into the storage tank 6, then closing the upper cover 7, and inserting the inserting nozzle 19 of the output pipe 15 into the down filling hole 104 of the liner main body 100;

secondly, pulling the handle 4 to drive the piston 2 to move backwards, and allowing air to enter the tube body 1 to push down to enter the tube body 1;

thirdly, the handle 4 is pushed to drive the piston 2 to move forwards, the down feather in the piston 2 is pushed to enter the discharge pipe, and due to the fact that the space is reduced, the air pressure is increased to push the valve sleeve 18 to move, and the down feather is output into the liner main body 100 from the plug nozzle 19 along with the air;

fourthly, repeating the second step and the third step to fill the down feather into the liner main body 100.

The volume of the liner main body 100 can be controlled by injecting down, the adjustment is moderate, the thickness of the liner main body 100 is adjusted, the heat retention property is increased and decreased, and the adaptability to weather temperature is improved.

Preferably, the amount of fluff added to tank 6 in step one is less than 1/2 of the volume of tank 6.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. A can eliminate down coat inner bag of static, its characterized in that: the down jacket comprises a liner main body, the liner main body is arranged in a down jacket surface layer, the liner main body comprises a liner surface layer and an anti-static layer, the liner surface layer is provided with two layers, the anti-static layer is arranged between the two layers of liner surface layers, the edges of the two layers of liner surface layers are sewn to form a closed structure, a cavity is formed between the two layers of liner surface layers, the anti-static layer is arranged in the cavity, the anti-static layer and the upper liner surface layer form an independent down filling chamber, another independent down filling chamber is formed between the anti-static layer and the lower liner surface layer, the down filling chamber is filled with down used for keeping warm, the chamber filled with the down inside the liner is divided into the two independent down filling chambers by the anti-static layer, and the thickness of each layer of down filling can be reduced through a dividing mode on the premise of.

2. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: the edge of the anti-static layer and the surface layer of the inner container are sewn and sealed.

3. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: the antistatic layer is made of antistatic metal cloth or other antistatic cloth.

4. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: and a plurality of stitches are arranged between the anti-static layer and the two liner surface layers and penetrate through the two liner surface layers and the anti-static layer.

5. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: the down filling hole is formed in the inner container main body and connected with the down filling device, and the down filling device can fill the down into the inner container main body.

6. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: the down filling device comprises a pipe body, a piston mechanism, a storage mechanism and an output mechanism, wherein the piston mechanism is arranged in the pipe body and comprises a piston, a piston rod and a handle;

the storage mechanism is arranged at the top of the pipe body, a feeding hole communicated with the storage mechanism is formed in the top of the pipe body, the storage mechanism comprises a storage tank, the lower end of the storage tank is connected with the pipe body, an outlet at the lower end of the storage tank is communicated with the feeding hole of the pipe body, an upper cover is arranged at the top of the storage tank, an air pressure balancing hole is formed in the upper cover, and a first one-way mechanism is arranged in the air pressure balancing hole;

the first one-way mechanism comprises a first spring seat, a first spring, a first sliding column, a first valve core and a first valve seat, the first spring seat is arranged at the inner lower part of the air pressure balance hole, a through hole in clearance fit with the first sliding column is formed in the center of the first spring seat, the first sliding column is fixedly provided with the first valve core, the first sliding column between the first valve core and the first spring seat is sleeved with the first spring, the first valve core is matched with the first valve seat, and the first valve seat is arranged at the inner upper part of the air pressure balance hole;

the front end of the tube body is provided with a discharge hole, and the discharge hole is connected with an output mechanism.

7. The liner of the down jacket capable of eliminating static electricity as claimed in claim 1, wherein: the output mechanism comprises an output pipe, one end of the output pipe is connected with the pipe body, the other end of the output pipe is sealed through a second spring seat, a second spring and a valve sleeve are arranged in the output pipe, the valve sleeve is arranged in the output pipe and is in interference fit with the output pipe, the second spring is arranged between one side, close to the second spring seat, of the valve sleeve and the second spring seat, an outlet is formed in one side of the output pipe, and the outlet is connected with the plug.