Ready-made workwear patterns. Sewing of overalls to order. Working overalls from mechanical pollution

Sewing workwear a complex process, the success of which depends on the professionalism of the team of participants.

In order to get a finished product, first of all, it is necessary to develop a design and this task is carried out by a designer - constructor. In the future, specialists such as a cutter and a highly qualified seamstress are involved.

It is worth noting here the need for the availability of modern equipment at the production site to ensure the automation of the process. This can only be done by enterprises with large areas for machine tools. After all, it is they who are able to fulfill large orders for sewing protective products in a short time.

Garment factory TD "Spets-Snab" is engaged in the manufacture of special protective and branded clothing for over 16 years.

In the production process, we use special fabric, modern insulation and our own patented patterns.

If there are no special requirements for the product, most of the models are made from cotton. Each suit always has a marking, in addition, washing norms and storage procedures are indicated.

We offer both ready-made product models and custom-cut models according to your requirements, taking into account the individual needs of the client!

Availability own large-scale production - 2 sewing workshops equipped with the latest technology, as well as a fleet of trucks, allow you to fulfill an order of any complexity as quickly as possible.

Therefore, if you need to make an order urgently - be sure that we can help you.

Rules and requirements for the manufacture of PPE

Strictly regulated rules are imposed on the sewing of overalls and protective overalls. Each model must be marked with due regard for the purpose of the protective suit, each product must comply with a certain class of protection provided for by GOST and TU, as well as hygienic requirements.

Not all garment factories fulfill these requirements. Accordingly, the question arises about the reliability of such protective suits.

Any type of personal protective equipment, be it a work shirt and pants, overalls, gloves or knee pads, a helmet, a cap or other headgear, combine requirements such as protection from harmful industrial influences.

A company engaged in the production of PPE should have available the necessary materials that can neutralize the effects of potentially hazardous substances, special patterns that will create a comfortable model that does not restrict the movement of an employee, seamstresses, engineers and technologists who have the knowledge and sufficient experience to produce products of the required class ...

Protective suits Spets-Snab comply with all standards imposed by the state, and guarantee maximum safety for workers.

This is confirmed by quality certificates.

The use of branded special clothing produced at our factory will provide a safe working environment and save the customer's money.

Cost of custom-made overalls

The catalog placed on our website will help the specialist to choose a suitable model of a protective uniform or a corporate suit. Our managers will be happy to answer all questions, calculate the cost of ordering and delivery of products.

Thanks to our own production and minimal costs, our models are distinguished not only by high quality characteristics, but also by a low price.

For example, the cost of sewing one set of overalls for a welder is from 620 rubles.

Remember that there are discounts for regular customers and for large quantities of orders! We are interested in long-term cooperation with wholesale and construction companies and are ready to supply goods on the most favorable terms for you.

You can place an order by calling or using.

We love our clients and are ready to offer them the best solution as soon as possible!

Sewing overalls is a complex technological process, because overalls are among the most widely used personal protective equipment for workers.

She must meet the following basic requirements sewn overalls must:

Ensure the preservation of the normal functional state of a person and his working capacity during the entire period of using it;

Protect from exposure to harmful production factors;

Do not have a general toxic and irritating effect;

Be sufficiently durable and aesthetic.

There is a wide variety of types of sewn workwear, which, depending on the specific working conditions, can be recommended to ensure a safe working environment.

The main ones include: jacket, trousers, overalls, semi-overalls, raincoat, apron, mittens, vest, gloves, gaiters, arm ruffles, shoe covers, various hats, shoulder pads, knee pads, etc.

These types of special clothing can be used both separately and in combination with each other.

Depending on the purpose and in accordance with the requirements of the “Occupational Safety Standards System.

Classification - Special clothing is classified into 14 groups and 36 subgroups. The classification of tailoring of workwear is based on its protective properties from the effects of harmful production factors.

The marking of sewing workwear for protective properties is carried out depending on the factors of industrial hazards in accordance with their symbols. The conventional designation of marking for protective properties is provided in the regulatory and technical documentation for a specific type of product.

The product itself is marked with indelible paint that is resistant to washing and dry cleaning. Thanks to this, it becomes possible to issue special clothing in strict accordance with its purpose.

The marking of special clothing that simultaneously protects against several hazardous factors includes the designation of all groups and subgroups. In complete items (for example, a jacket with trousers, a jacket with a skirt) designations are placed on each item included in the kit.

For each type of sewing of workwear, specific requirements are presented in accordance with the operating conditions.

1. For clothing that protects against mechanical damage, fabrics with the best mechanical properties (strength at tear, tear, abrasion) are selected. For such clothes, for example, fabrics are recommended: twill, flax-lavsan, etc. The design of this type of clothing provides for special

Elements (for example, linings or polymer coatings) to increase its service life.

2. To clothing that protects against general industrial pollution

nenii, similar requirements are imposed (see P. 1), but when

this can be used materials with slightly lower

strength indicators, for example fabrics diagonal, moles

kin, etc. With oil and water protection impregnations.

Mind Map: Workwear Sewing

3. The quality of clothing to protect against high temperatures

is largely determined by materials and construction. Ma's choice

temperature depends on the nature of the thermal effect (high

convective air temperature, heat radiation, sparks and

splashes of molten metal, etc.).

Sewing of overalls intended, for example, for protection from thermal radiation, is made from materials with low thermal conductivity (material from asbestos, wool, etc.) and high reflective properties (metallized materials). In the manufacture of clothing for protection from high convective air temperature, materials with high air permeability (^ 100 dm3 / (m2-s) and moisture permeability (^ 3.5-4.5 g / (m2-h)) are used. The design of such clothes should also include elements to improve the ventilation of the underwear space, while the allowance for free fitting should be at least 11 cm. In some cases (at particularly high temperatures), we recommend clothes with artificial cooling.

4. The quality of sewing workwear for protection from low temperatures is determined by the compliance of its thermal resistance and air permeability to meteorological conditions, the severity of physical work, and the duration of stay in the cold. Clothing for protection from low temperatures is designed according to the method developed by TsNIISHP.

5. Clothing for protection against non-toxic substances (dust) must be made of materials with a dense structure that prevents the penetration of dust particles into the underwear space (materials such as moleskin). The design of this type of clothing should provide for elements that ensure the closure of the underwear space (cuffs, valves along the lines of fasteners, helmets with caps, etc.).

6. Sewing of overalls for protection against toxic substances (liquid and aerosols) is performed, as a rule, from film materials. Depending on the surface of the human body, which is directly exposed to a harmful factor, suits, aprons, dressing gowns, oversleeves, shoe covers, hats, mittens, etc. can be recommended. ... Operation of these products at elevated air temperatures requires the development of special recommendations for the operating mode in them.

7. The sewing properties of workwear for protection from water are determined by its materials and design, as well as the nature of the impact of the harmful factor. For example, materials with waterproof properties (linen fabrics and fabrics with special impregnations) can be used to protect against short-term exposure to water. To protect against prolonged exposure to water and surfactant solutions, film materials are used.

8. The sewing properties of workwear for protection against acids (and alkalis) are determined mainly by the properties of the materials. The choice of materials is determined by the concentration of the influencing factor. Depending on the contacting surface, various types of clothing can be used (suits, aprons, gowns, suits with overlays made of protective material, etc.).

9. The sewing properties of overalls for protection from oil, oil products, oils, fats and organic solvents are mainly determined by the protective properties of the materials used for its manufacture. Depending on the nature of the influencing factor, fabrics with special impregnations or materials with a film coating can be recommended.

10. Clothing for protection from radioactive substances should provide for complete isolation of a person from the external environment and the creation of an artificial microclimate in the underwear space. Isolation suits are an example of clothing that meets these requirements.

Insulating suits should effectively protect a person from radioactive contamination and maintain conditions to ensure a normal thermal state of the body, be comfortable and reliable in work, and be well cleaned.

Effective protection of a person from radioactive substances by insulating suits is ensured by the properties of the materials from which they are made,

Constructive solutions of parts and assemblies of the suit and methods of their connection.

Taking into account the purpose of this type of clothing, the materials for its manufacture must be air and moisture resistant.

Based on this, when designing insulating suits in sewing workwear, measures are provided to regulate the microclimate of the undersuit space. This is achieved by supplying clean air necessary for human breathing and removing heat or moisture from the space under the suit. To protect a person from external heat, the temperature of the surface of insulating suits and the space under the suit is reduced with cooling coveralls.

In insulating suits, heat can be removed by using cooling

Screens that are placed on specific areas of the body. In screens

Coolant circulates.

Heat removal with cooling screens is used when sewing workwear (space suits)

The temperature and humidity of the undersuit space determine

The length of time a person has been in an insulating suit and the intensity of the work they do.

According to the values ​​of these parameters, the optimal, permissible and limiting microclimate conditions are distinguished.

Under optimal microclimatic conditions, the duration of a person's stay in insulating suits is not limited. Permissible and limiting microclimatic conditions lead to the accumulation of heat in the body of the worker and to a decrease in his working capacity.

Therefore, under permissible microclimatic conditions, the duration of stay in insulating suits is from 2 to 6 hours, in extreme conditions - from 30 minutes to 2 hours.

Assessment of the quality of tailoring of workwear is based on its classification by protective properties. In accordance with the Occupational Safety Standards System.

Special clothing.

Nomenclature of quality indicators - quality indicators are divided into mandatory for all types and mandatory for certain types, depending on the purpose of special clothing. The quality indicators that are mandatory for all types of sewing workwear include the following:

· Compliance with the quality of materials for the purpose;

· Compliance with the design working conditions;

· Compliance of the design with anthropological measurements;

· Product weight;

· Time of continuous action;

· Stiffness of the seam;

· Artistic and aesthetic indicators (the integrity of the compositional and color scheme of the model);

· Resistant to washing and dry cleaning.

Not all of the listed indicators of the quality of sewing workwear, currently there are standards. Therefore, the number is determined by the physical activity of a person.

For example, for a person at rest, the temperature of air is comfortable, equal to 30-32 ° С (in the area of ​​the body), for a person doing heavy physical work, 15 ° С.

This means that the assessment of the air temperature under clothing should be approached differentially, taking into account the physical activity of a person.

The air temperature indicator in various layers of clothing can be used for a comparative hygienic assessment of sewing workwear for various purposes.

For example, under conditions of exposure to a cooling factor, a greater decrease in air temperature directly under the outerwear (all other things being equal) indicates its lower thermal resistance.

When exposed to wind, a greater decrease in air temperature is observed under clothing that has high air permeability, which is a negative indicator under low air temperature conditions.

In some cases, a decrease in the air temperature under clothing in cold conditions can also be a positive indicator, for example, when it is required to reduce the thermal resistance of clothing during physical work in order to prevent overheating of the body. Under conditions of a heating microclimate, the temperature of the supply air can be judged O the advantages of a particular design of clothing, the correct choice of materials for its manufacture.

Into healthy air through the skin

A person is continuously supplied with various waste products, one of which is carbon dioxide, which is formed in the process of skin respiration. However, due to the ventilation of the underwear space, the content of carbon dioxide can be only slightly higher than its content in the atmospheric air. This also means that other waste products of a person are removed from the underwear space to the proper extent.

Thus, the content of carbon dioxide in the underwear space serves as an indicator of the degree of its contamination with products of skin respiration and ventilation. The ventilation rate depends on the breathability of the garment and the sewing design of the workwear. An increase in the content of carbon dioxide in the underwear space indicates insufficient ventilation (for example, due to a closed structure or sewing of overalls from airtight materials).

Under a multilayer garment, which generally has less air permeability than its individual layers, the carbon dioxide content is higher than under a single layer.

According to Yu. V. Vadkovskaya, the carbon dioxide content under a cotton shirt is 0.15% higher than in the ambient air; if on top of this. Shirts are wearing a jacket and a demi-season coat - by 0.23%, but if a winter coat is worn - by 0.37% more than in the open air.

According to Shirbek's data, the content of CO2 under clothes, exceeding 0.8%, causes poor health in a person, due, in particular, to a deterioration in the thermal state of the body due to a violation of heat exchange with the environment.

The release of carbon dioxide through the skin increases during physical work of a person and in a heating environment. In these cases, it is especially important that the construction of the garment and its materials are conducive to the ventilation of the underwear space.

Today, hundreds of enterprises sew special-purpose clothing for various industries. At the same time, there is not so much reliable information about the process of its production and the technologies used .. We reveal all the secrets of production together with the largest domestic company of this profile - SOOO "Stetskevich-Overalls".

The creation of any workwear begins with an analysis of the market and the needs of a potential buyer. Then a sketch is created, it is "born" in the head of a marketer or designer, sometimes - taking into account the requirements of a particular client. In any case, the initial sketch turns into templates, which are sent to the experimental workshop of the enterprise - here the first sample of the future pilot batch of overalls is sewn.

When the prototype is ready, it goes to the Artistic and Technical Council for approval. Here the model is approved or rejected, or changes are made to the sketch. After the model receives the final approval, the process of making templates for the production of a pilot batch begins.

At the first stage, the design engineer, using a special graphic editor, makes patterns, including in the gradation of all sizes. At the same time, a technical sketch of the model is created, which displays all its elements: pockets, cuffs, buttons, stitches, buttons, a layer of insulation, etc.

Next comes the spreader. He takes the patterns created by the designer and makes them a working layout. The process of laying out vaguely resembles the game "Tetris": on a rectangular piece of fabric with a given size, it is necessary to fit the maximum number of elements of future workwear so that as little waste is left as possible. Layout using a usable area of ​​less than 75% is considered ineffective and does not go into operation, only those where this indicator reaches 85-90% are accepted (that is, only 10-15% of the fabric from each specific piece goes to waste). The work of the spreader is very important: if the model contains many large parts (for example, "halves" of a vest), the specialist must find a match among dozens of other models and occupy the free areas of the fabric with smaller elements, for example, collars or cuffs. In this case, it is necessary to take into account the direction of the weaving of the fabric and the "boundary" space between the elements - the gap necessary for the normal operation of the cutting knife. In the case of using an auto-cutting complex, the layout is performed by a computer.

When the layout is fully formed, it is sent to print, where a high-precision plotter prints all the details on a wide, life-sized paper roll (in a 1: 1 ratio). The layout can also be transferred in electronic form to the auto-cutting complex (more on this later).

The layout for hand-cut printed on paper goes to the factory, where templates are cut out of it, which are then worked on the fabric - applied, chalked and manually cut with a special automatic knife. As a rule, manual layouts are used to work with a flap or when cutting small batches of clothing. In most cases, automatic nesting is used. Before submitting the fabric to the auto cutter, it is necessary to check its quality.

For this purpose, a Sirkon grading and grading machine is used. The first function of the machine is to measure the fabric. A coil is placed on the shafts; during winding, an automatic sensor fixes its length, the width is measured manually. The actual length of a roll of fabric sometimes does not correspond to the length stated by the manufacturer, so the measurement is extremely important. The width is no less important: if it is different, it complicates the work of the auto-cutting complex, the fabric flooring has to be done at the smallest width, respectively, the largest width falls into the flap or goes to waste. Unstable width, as a rule, is characteristic of cheap Chinese-made fabrics, but they rarely work with them here, preferring high-quality products of domestic production (the same JSC "Mogotex"), Russian or foreign.

The second component of the machine is a translucent stand. During the measurement, tissue passes through it and the specialist visually determines the presence of a marriage. If there are any holes or defects in weaving, the fabric stops running and a chalk mark is made in the margins. Later, when using this roll of fabric in the layout, the place of the defect is either bypassed or cut out. Thus, thanks to the measuring and grading complex, the fabric undergoes double quality control: in the production of fabric - the first time, and the second - before cutting.

After rejection and measurement, the prepared fabric rises to the production site and goes to the automatic cutting and spreading complex. He does the same thing as the cutters (lay the fabric in layers and cut parts from it), only several times faster and more accurately.

First of all, a certain number of fabric cuts of a given length is tucked into the flooring complex. After that, the mechanism will automatically lay it in even layers. He moves around the stand like a carriage, while laying the fabric more accurately and faster than a person. After the fabric is laid, the stand is blown from below by air, an air cushion is created, which reduces the friction of the fabric on the table and facilitates its transportation to the cutting part of the complex.

A cutting map is loaded into the computer memory of the cutting part of the complex, which contains the exact coordinates of all the blanks that the knife will cut.

Before cutting, a paper layout printed on a plotter is placed on a fabric laid out in several layers - for visual control by the operator of the accuracy of the knife. Then all this is covered with a film and sealed with a vacuum, which is created thanks to the built-in compressor.

The lower part of the stand is a breathable canvas of brushes with fine fibers, through which the compressor takes in air. In addition, the villi allow the knife blade to freely penetrate the fabric without resting on the "bottom" of the stand when cutting.

After the flooring is fixed and compacted, a head with a knife, equipped with a separate clamping device, passes along a contour set by the program. Before the incision is made, the tissue section along which the head resembles is additionally pressed. Thanks to the combination of vacuum and pressure device, the fabric is completely immobile during cutting, it does not slip on the bench, which eliminates the likelihood of rejects.

The advantages of such equipment over manual labor are obvious: higher cutting accuracy, increased labor productivity (3-4 times higher than manual cutting) and gap-free (the fabric area is used as efficiently as possible).

The finished cut pieces are removed from the stand and put into boxes for shipment to a sewing factory. The accompanying documents are also put here: a technical sketch, a specification of cut details for the model and a table of measurements of the finished product - what parameters it should correspond to (sleeve length, waist width, shoulder, etc.). The cut pieces of fabric are laid with paper, on which the encoding is indicated. This is done in order to make it easier to lay them out of the box and compare the presence and quantity of all parts of the future product with the specification.

Patchwork may remain during the cutting process. For example, if a 10-meter roll was tucked into the complex, and according to the layout, 7 meters were needed, then a 3-meter cut remains. It is no longer suitable for the subsequent 7-meter filling, therefore it is defined as a flap and stored on a rack for further processing. Most of the flaps are hand-cut at the factory.

An important aid in the production of insulated clothing models is the quilting apparatus. With its help, the so-called quilted bags are formed, in which the lining, spunbond and insulation are sewn together. Sintepon, Fibertek and Thinsulate are used as the main heaters. Spunbond is used as an additional protection from the wind, it also excludes the migration of insulation fibers through the outer layer to the surface of the clothing.

Previously, all these operations had to be performed separately: insulation, lining, spunbond was cut. Then all this had to be folded, stitched, and only then the details of the clothes were sewn together. The use of the quilting apparatus made it possible to significantly increase labor productivity, with the exception of a number of operations.

The principle of operation of the apparatus is simple. First, rolls of stitched materials are "loaded" into it. Synthetic threads in bobbins are installed on a special stand - they will be used for the top of the future seam. On the back of the machine, small metal cocoons are placed in special holders, each of which contains spindle-shaped coils. This is the basis for the bottom of the future seam. When the machine is in operation, the upper and lower threads are intertwined in the quilted fabric and a stitch is formed.

The output is a roll of stitched multilayer material, which can be immediately cut and sewn into a finished product.

Quilted bags vary in thickness and composition. The "recipe" of the layers is compiled by the technologist and varies depending on the tasks and the area of ​​application of the overalls.

Quilted bag rolls are quite bulky, especially if many layers are formed. For ease of transportation to sewing factories, the bags are vacuum packed - their volume is halved.

There is a category of special clothing, the task of which is to completely isolate the wearer from moisture. The fabrics that are used in the production of such clothing are of the membrane type, they allow air to pass through, but do not let moisture inside. Finished products are equipped with buttons, zippers and plastic buttons to prevent rusting. The result is fully waterproof suits that keep workers dry even in the worst rainstorm.

But if there are no problems with the choice of material for such clothes, then the places where the parts of the clothes are attached to each other need additional waterproofing. There are two types of sealed seams: bonded with heat shrink tape and fully welded seams.

The machine for gluing seams works according to the following principle: first, seams are sewn on a sewing machine, then a tape is placed on top, which heats up and "sticks" to the fabric. This completely isolates the holes from the needle, water cannot enter them. After gluing the seams, the finished product becomes completely moisture-proof, and the air passes through without problems, allowing the human skin to breathe.

The second way to create airtight seams is to fasten clothing parts with a high frequency current. Such seams are made on the appropriate equipment located in the city of Chechersk.

In order to reduce transport costs, the waterproofing garment material is delivered directly here. The process of creating future clothes begins traditionally: the cutter cuts the blanks from the material according to the patterns. Cutting is carried out on a 6-meter stand, manually, using an electric cutting knife.

The cut blanks go to the high frequency current (high frequency current) machines made in Poland, where they are soldered in the places specified by the clothing model. The operator places the material, "takes aim", presses the pedal - the protective shield is lowered. Then a current flows through the contact electrode inside the chamber, soldering the parts of the clothing. The machines allow you to adjust the frequency and current strength for a specific material so that a high-quality soldering occurs, and the material itself is not burned. Similarly, the attachment points for pockets and locks are soldered.

All of the above actions are only the first part of the process of creating clothes. Both the formed quilted bags and the finished cut details go further - to the sewing industry. In Rogachev, Borisov, Novogrudok and Lepel there are garment factories of Stetskevich-Spetsodezhda JLLC equipped with a modern ETON transportation system. These automated production lines from Sweden help to optimize the sewing workflow "from" to "to".

First, the details of clothing go through the procurement section - pockets, cuffs, collars are harvested. Almost all of these processes are automated. For example, a separate machine is responsible for the production of buttonholes. A fabric blank is inserted into it, the pedal is pressed - the foot is lowered and the loop is being sewn (in this case, its right and left sides are sewn immediately). After that, bartacks are made here (the seams are strengthened in the places of the greatest tension of the fabric), and the entrance to the loop is cut with a special knife.

Buttons are sewn on a semiautomatic button nearby. The algorithm of actions is similar: a button is tucked into a special holder, the pedal is pressed - one side of the button is sewn, then the other is sewn in the same way, after which the threads are automatically cut.

After the procurement section, all items of clothing are sent to the conveyor. The entire technological sequence of sewing the product is set by the technologist, this program is entered into the computer, where its time in seconds is prescribed for each operation. The types of operations, in turn, are distributed according to the "stations" - the seamstresses' workplaces. One sews the cuffs to the sleeves, the other sews the sleeves to the top, etc. Thus, the process of sewing any type of workwear becomes clearly regulated both in terms of operations and time.

At the beginning of the technological chain of the transport system, the master hangs the prepared parts on special hangers with clothespins. On each hanger, he forms a strictly defined set of parts for stitching - in accordance with the operations performed by this or that "station". The master hangs one set - and he leaves for the "station", while it is being processed there, the master hangs the second set, etc.

The hangers travel along the conveyor to a place determined by the program, where the seamstress removes them, sews them and sends them to the next station ... Thus, the continuity of the garment is achieved.

In the stream, from 700 to 1000 parts are simultaneously "spinning", and the average output from the conveyor is 500-700 suits per shift. All operations are evenly distributed among the seamstresses. If one of them does not keep up (spends a little more time on the operation), hangers with details begin to accumulate around it. The technologist-operator sees this on the computer and immediately redirects the accumulated hangers to that “station” / seamstress, which copes faster. This eliminates downtime, all seamstresses are evenly loaded. The downstream time savings are up to 30%.

In addition, the use of the ETON system allows you to avoid unnecessary movements of workers: they are in one place and do not waste time transferring parts from the procurement area to the workplace. In the end, due to the minimization of movements on the line, the optimal number of workers always works, there are simply no extra people here.

If at the “start” of an automated line, details of future clothes are hung, then at the “finish” a completely finished product comes off, which is loaded onto a trolley and taken to the packaging area. There, the clothes undergo final quality control, they are labeled, folded and sent to the finished product warehouse.

As a result, the widest assortment of overalls, for every taste and color, for any needs and requirements, gets on store shelves. Clothes, all elements of which are made of high quality materials and sewn using the most modern equipment. Clothes that are pleasant to wear at work, whether you are a pediatrician, a lumberjack, or a construction worker. Clothes that protect you.

Pattern of a man's semi-overalls.

Chest circumference 104cm,

Waist circumference 94cm.

The pattern is given with seam allowances!

Model presented men's semi-overalls is primarily intended for winter recreation and sports. In the previous article, we presented you with a pattern, and this semi-overalls can serve as a worthy companion to this vest.

Bib size(as well as a vest) is designed for men with a chest circumference of 104cm, a waist circumference of 94cm.

Men's insulated semi-overalls with a wide waistband in the front and a trimmed back in the back.

Straps with elastic bands stretched through them in front, they are sewn directly into the upper seam of the belt.

Clasp in the middle of the front there is a zipper and buttons.

On the front halves of the trousers welt pockets with leaf.

Pants bottom with slits at the back with zippers. Wedges-valances are inserted under the zipper.

On the back along the waistline, you can attach a regular elastic band or stitch a drawstring 1-1.5 cm and pull in an elastic cord with clamps.

The selection of fabric for the top of the semi-overall depends on the purpose of this product. For winter recreation (skiing, sledging and just playing snowballs), it is better to opt for a water-repellent synthetic fabric. Today's markets offer us the widest selection of fabrics with a variety of characteristics, so there should be no problems with the lining and insulation material either. It all depends on the client's wishes.

THE PATTERN IS GIVEN WITH ALLOWANCE ON THE SEAMS !!!

for seams 1cm,

for facing 0.7cm,

on the hem of the bottom 3 - 5cm.

Preparing a pattern for work is extremely simple. Click on the diagram at the end of the article and pattern of men's semi-overalls will open in a new window.

Print the pattern sheets on the printer, connect them in accordance with the diagram.

Be sure to check the scale is correct. On the printed sheet with the 10x10 cm square shown, the sides of 10 cm should correspond exactly to 10 centimeters.

Cut out the details of the semi-overalls and you can get to work. The patterns are ready.

Important! Before cutting, check that the measurements taken are consistent with the parameters of the pattern. Pay particular attention to the length of the semi-overalls (keep in mind that the pattern already has allowances, including for hemming the bottom). If necessary, correct the pattern and only then proceed to cutting.

The details of the cut-up back are cut from the main fabric. Although, if desired, the bottom part can be cut from the lining fabric.

We lay out the patterns on the fabric, observing the direction of the share thread, embellish and cut out down the line shampooing (the patterns already contain seam allowances).

Additionally to the main details you need to cut out shoulder strap 89x7.5cm 2 pieces.

Cut details are given only for the top of the product.

Lining and insulation are cut according to the main patterns.

After cutting, sweep the details, try on the fit of the semi-overalls on the figure, make all the necessary amendments and start sewing.

NOTE. You can use the proposed pattern as a ready-made pattern, or you can use it as a basis for modeling. Those. without changing the main structural lines, divide (draw additional lines and cut) the front and (or) the back halves of the semi-overalls into several parts, add pockets, flaps, yokes, knee pads and other details to your taste. Do not forget along the cut lines give seam allowances.

Be creative and enjoy the results of your creativity.

I wish you courage in making decisions and decisiveness in your actions, and you will succeed!

Patterns for menswear have always been prized by wives doing needlework for their families. In general, needlework among the female population of the Russian Federation has always been welcomed, but how else. Imagine such a picture that suddenly you ran out of money, but you need to dress the whole family for spring or winter, it doesn't matter, just dress people close to you, what should you do? And here the wife of her own person sews men's clothes with her own hands, that is, for you, uses patterns for children's clothes, that is, for children, and so on. This is really a surprise.

It is a very pleasant surprise, especially when the problem is solved in the simplest way, which does not require additional intervention from external forces that can affect the outcome of events in a completely unpredictable manner. So, what do we need, dear girls, who want to start sewing men's clothes with their own hands, to get started? Of course, a part necessary for any sewing, which can so easily end up in the hands of the user only on this site. These are patterns for men's clothing that have already become a hit on the Internet in a very short time.

You can download patterns for men's clothing, as I said, completely free of charge, spending about two or three minutes on this action. After this time, you will have a printed pattern of clothing on your hands, which can be outlined more accurately using the measurements of the body of your man or husband. A few more days of painstaking work, and everything is ready.

That is why we say that men's patterns are an excellent way, an excellent tool for solving important family problems, concerning not only from a psychological but also from a financial point of view of your relationship.