阅读说明：本技术 一种野战封套制备工艺 (Preparation process of field operation envelope ) 是由 尹正岁 尹杰 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种野战封套制备工艺,属于封套生产技术领域,包括如下步骤：制备整体折叠式框架,准备多根第一支撑杆和第二支撑杆,并将第一支撑杆和第二支撑杆的连接处采用可调节式锁扣连接,并组成双坡面斜墙式结构；制备防护地垫,分别制备内地垫和外地垫,并将内地垫和外地垫之间通过布片连接,在内地垫和外地垫的侧面安装有魔术贴,并将多个内地垫和外地垫折叠拼接成与步骤1制备得到的整体折叠式框架底面积相同。本发明封套主体为弹药器材野外储存提供防潮、防盐雾、防静电功能；折叠式框架,为悬吊封套主体和支撑隔热外罩,提供承受外力和保持稳定性功能,同时折叠式框架便于折叠收纳减少占地面积,便于携带。(The invention discloses a field operation envelope preparation process, which belongs to the technical field of envelope production and comprises the following steps: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure; preparing a protective ground mat, preparing an inner ground mat and an outer ground mat respectively, connecting the inner ground mat and the outer ground mat through cloth pieces, installing magic tapes on the side surfaces of the inner ground mat and the outer ground mat, and folding and splicing the plurality of inner ground mats and the outer ground mat into the same bottom area of the integral folding frame prepared in the step 1. The envelope main body provides moisture-proof, salt mist-proof and anti-static functions for field storage of ammunition equipment; the foldable frame is used for suspending the envelope main body and supporting the heat insulation outer cover, provides the functions of bearing external force and keeping stability, and is convenient to fold, store and reduce the occupied area and convenient to carry.)

1. A field operations envelope preparation technology is characterized by comprising the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, respectively preparing an inner ground mat and an outer ground mat, connecting the inner ground mat and the outer ground mat through cloth pieces, installing magic tapes on the side surfaces of the inner ground mat and the outer ground mat, and folding and splicing the inner ground mat and the outer ground mat into a whole folding frame with the same bottom area as that of the whole folding frame prepared in the step (1);

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

2. The field operations envelope preparation process of claim 1 wherein the first support bar and the second support bar are both movably connected at their interface and both sides of the integral folding frame can be folded into a bundle of support bars by bending inward.

3. The field operations envelope preparation technology of claim 1, wherein one end of the second support rod is of a spherical structure, and both ends of the first support rod are of hemispherical snap fasteners.

4. The field operations envelope preparation technology of claim 3, wherein the first support bar is clamped at both ends of the second support bar, and both the first support bar and the second support bar are rotary telescopic hollow support bars.

5. A field operations cuff preparation process according to claim 1 wherein the sewing process is heat sealing, gluing and sewing.

6. A field operations envelope preparation process as claimed in claim 1 wherein, the inner ground mat is a hard moisture-proof environment-friendly floor, and the outer ground mat is a plastic moisture-proof mat.

7. A field operations cuff preparation process as claimed in claim 6 wherein the mouldable moisture barrier in the outer mat is one of a latex moisture barrier, a rubber moisture barrier or a space clay sand moisture barrier.

8. The field operations envelope manufacturing process of claim 1, wherein the manufacturing envelope body is a seven-piece envelope body suspended from a unitary folding frame by hook and loop fastening straps.

9. A field seal preparation process according to claim 1 wherein a vacuum sealing zipper is attached to the exterior of the insulating enclosure.

Technical Field

The invention relates to a preparation process, in particular to a field operation envelope preparation process, and belongs to the technical field of envelope production.

Background

The field operation envelope is mainly applied to the sealed storage of ammunition, optical equipment and the like under the field operation condition, provides a novel protection packaging means for light and high-rise units, and exerts the guarantee efficiency and the fighting capacity of the ammunition equipment.

The existing envelope preparation has the following defects: (1) the existing field battle sealing sleeve is not easy to store in the using process, needs a large amount of storage space and brings huge burden to march; (2) meanwhile, the existing sealing sleeve can not ensure the temperature inside the sealing sleeve under the condition of severe weather conditions, and can not ensure the rest environment of soldiers.

Disclosure of Invention

The invention mainly aims to solve the defects of the prior art and provide a field battle envelope preparation process.

The purpose of the invention can be achieved by adopting the following technical scheme:

a field operations envelope preparation technology comprises the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, respectively preparing an inner ground mat and an outer ground mat, connecting the inner ground mat and the outer ground mat through cloth pieces, installing magic tapes on the side surfaces of the inner ground mat and the outer ground mat, and folding and splicing the inner ground mat and the outer ground mat into a whole folding frame with the same bottom area as that of the whole folding frame prepared in the step (1);

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

Preferably, the joints of the first supporting rod and the second supporting rod are movably connected, and two side faces of the integral folding type frame can be folded into a bundle of supporting rods after being bent inwards.

Preferably, one end of the second supporting rod is of a spherical structure, and two ends of the first supporting rod are respectively provided with a hemispherical clamping lock catch.

Preferably, the first supporting rod is connected with the two ends of the second supporting rod in a clamping manner, and the first supporting rod and the second supporting rod are both rotary telescopic hollow supporting rods.

Preferably, the sewing process is heat sealing, gluing and sewing.

Preferably, the inner ground mat is a hard moisture-proof environment-friendly floor, and the outer ground mat is a plastic moisture-proof mat.

Preferably, the plastic moisture-proof pad in the outer ground mat is one of a latex moisture-proof pad, a rubber moisture-proof pad or a space clay sand moisture-proof pad.

Preferably, the preparing envelope main body is a seven-piece envelope main body, and the envelope main body is suspended on the integral folding frame through a magic tape type fixing band.

Preferably, a vacuum sealing zipper is mounted on the outer part of the heat insulation outer cover.

The invention has the beneficial technical effects that: according to the field operation envelope preparation process, the envelope main body provides moisture-proof, salt fog-proof and anti-static functions for field storage of ammunition equipment; the foldable frame is used for hanging the envelope main body and supporting the heat insulation outer cover, provides the functions of bearing external force and keeping stability, and is convenient to fold, store, reduce the occupied area and carry; the heat insulation outer cover provides a cover type frame, forms an air layer with the envelope main body, and has the functions of reducing the temperature in the envelope, preventing corrosion, disguising and the like; the protection ground mat is divided into an inner ground mat and an outer ground mat, is used for protecting the envelope, and has the function of preventing ground broken stones, sharp branches, ammunition equipment in the envelope main body and the like from damaging the envelope.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail with reference to the following examples, but the embodiments of the present invention are not limited thereto.

The field operations envelope preparation process provided by the embodiment comprises the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, respectively preparing an inner ground mat and an outer ground mat, connecting the inner ground mat and the outer ground mat through cloth pieces, installing magic tapes on the side surfaces of the inner ground mat and the outer ground mat, and folding and splicing the inner ground mat and the outer ground mat into a whole folding frame with the same bottom area as that of the whole folding frame prepared in the step (1);

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

The joints of the first supporting rod and the second supporting rod are movably connected, and two side faces of the integral folding type frame can be folded into a bundle of supporting rods after being bent inwards. One end of the second supporting rod adopts a spherical structure, and both ends of the first supporting rod adopt hemispherical clamping buckles. The first supporting rod is connected with the two ends of the second supporting rod in a clamping mode, and the first supporting rod and the second supporting rod are rotary telescopic hollow supporting rods.

The sewing process comprises heat seal, gluing and sewing. The inner ground mat adopts a hard dampproof environment-friendly floor, and the outer ground mat adopts a plastic dampproof mat. The plastic moisture-proof pad in the outer ground mat is one of a latex moisture-proof pad, a rubber moisture-proof pad or a space clay sand moisture-proof pad. The preparation envelope main body is a seven-piece envelope main body, and the envelope main body is suspended on the integral folding frame through the magic tape type fixing belt. The outside of the heat insulation outer cover is provided with a vacuum sealing zipper.

Example 1:

a field operations envelope preparation technology comprises the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, namely preparing an inner ground mat and an outer ground mat respectively, connecting the inner ground mat and the outer ground mat through cloth pieces, mounting magic tapes on the side surfaces of the inner ground mat and the outer ground mat, folding and splicing the inner ground mat and the outer ground mat into a structure which is the same as the bottom area of the integral folding frame prepared in the step 1, wherein the outer ground mat is a plastic moisture-proof mat and is a latex moisture-proof mat;

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

Example 2:

a field operations envelope preparation technology comprises the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, namely preparing an inner ground mat and an outer ground mat respectively, connecting the inner ground mat and the outer ground mat through cloth pieces, mounting magic tapes on the side surfaces of the inner ground mat and the outer ground mat, folding and splicing the inner ground mat and the outer ground mat into a whole folding frame with the same bottom area as that of the whole folding frame prepared in the step 1, wherein the outer ground mat is a plastic moistureproof mat and is a rubber moistureproof mat;

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

Example 3:

a field operations envelope preparation technology comprises the following steps:

step 1: preparing an integral folding frame, preparing a plurality of first supporting rods and a plurality of second supporting rods, and connecting the joints of the first supporting rods and the second supporting rods by adopting adjustable latches to form a double-slope inclined wall type structure;

step 2: preparing a protective ground mat, namely preparing an inner ground mat and an outer ground mat respectively, connecting the inner ground mat and the outer ground mat through cloth pieces, mounting magic tapes on the side surfaces of the inner ground mat and the outer ground mat, folding and splicing the inner ground mat and the outer ground mat into an integral folding frame with the same bottom area as that of the integral folding frame prepared in the step 1, wherein the outer ground mat is a plastic moisture-proof mat and is one of space clay sand moisture-proof mats;

and step 3: preparing an envelope main body which is of an integral structure formed by a plurality of layers of composite films and is adaptive to the shape of an integral folding frame;

and 4, step 4: preparing a heat insulation outer cover, cutting the digital camouflage polyester oxford fabric into cloth required by the heat insulation outer cover according to the integral folding type frame, and preparing the cut cloth into the heat insulation outer cover by adopting a sewing process;

and 5: and (4) assembling and splicing the envelope components prepared in the steps 1-4 to prepare the field operation envelope.

In summary, in this embodiment, according to the field operations envelope manufacturing process of this embodiment, the field operations envelope manufacturing process provided in this embodiment is known from embodiments 1 to 3, the plastic moisture-proof pad is used as the foreign pad, and the plastic moisture-proof pad is a latex moisture-proof pad, a rubber moisture-proof pad or a space clay sand moisture-proof pad, which can satisfy the flatness of the envelope in different terrains to ensure the protection floor mat, and satisfy the use requirements.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.