WO1980002186A1 - Hose - Google Patents

Abstract

A hose comprising an internal supporting tube (1) and an external protecting envelope (2) both made of an elastic material, at least two pairs (3) and (4) of reinforcing layers (5), (6) and (7), (8) embedded between them and laid on each other and an interlayer (10) made of a non-metallic fabric placed directly onto the surface of the supporting tube (1) and serving for even distribution of stresses arising between the supporting tube (1) and the pairs (3) and (4) of the reinforcing layers (5), (6) and (7), (8) during the exploitation of the hose. Each of the reinforcing layers (5), (6) and (7), (8) is designed as a family of spirally wound interparallel cords (9), whereas each pair (3) and (4) of the reinforcing layers (5), (6) and (7), (8) is designed as a pair of families of symmetrically wound cords (9). The angle of helix of the cords (9) of the lower pair (3) of the reinforcing layers (5) and (6) in relation to the hose geometrical axis is more than the angle of helix of the cords (9) of the upper pair (4) of the reinforcing cords (7) and (8).

Description

 STDG The area of the equipment is not available; the product is available for use on flexible devices, but, specifically, for the operation of the equipment

^' 5 hoses, and the most successful one can be used for working under conditions of high internal pressure and sowing tensile forces in an inert, gas, non-inertial environment

PRESENT TECHNOLOGY

Β neφτyanοy and gazοvοy προmyshlennοsτyaχ πρi eκs- shιuaτatsii sκvazhin neοbχοdimο imeτ κοnsτρuκtsii shlangοv, οbesπechivayuschie ρabοτu in uslοviyaχ vysοκiχ, ^" 'vnuτρenn-iχ davl.eny and οsevyχ ρasτyagivaschiχ effort.

15 Οdnaκο suschesτvuyuschie in nasτοyaschee vρemya κοnsτρuκtsii shlangοv, οbesπechivayuschie ρabοτu in uκazannyχ above uslοviya ^χ, not οbladayuτ dοsτaτοchnοy gibκοsτyu, chτο in znachiτelnοy sτeπeni uelοzhnyaeτ uslοviya'iχ eκs- πluaτatsii and τρansπορτ, iροvκi. The existence of the same in -

20 sτο ^ v ^ her vρemya οnsτρuκtsii shlangοv, οbesπechivayuschie dοsτaτοchnuyu gibκοsτ not ρaeschiτany on ρabοτu in uslοviya vysοκi ^{χ χ} οsevyχ ρasτyagivayuschiχ effort chτο οgρanichivaeτ vοzmοzhnοsτ isποlzοvaniya hose HA πρimeρ, isκlyuchaeτsya sπusκ hose sκvazhinu, shaχ-

.25 τy.

Pροblema sοzdaniya κοnsτρuκtsii gibκοgο schlanga, οbesπechivayuschegο ρabο ^'τu in uslοviyaχ'vysοκiχ vnuτρen- any ^χ pressures and οsevyχ ρasτyagivayuschiχ effort vοz-] niκla sρavniτelnο davnο, οdnaκο dο nasτοyaschegο

30 time is satisfactory unsolved.

,. Damage to the ^' ϊ'a / cm hose is impaired. DESCRIPTION OF THE INVENTION TO THE PATENT OF THE UNITED STATES} £ 3,715,454, Μ. Yuι. Ρ 161, 11/12; publ. 1973 DIRECT CONTAINS INTERNAL OPTIONAL PART, EXECUTED IN THE FORM OF CYLINDER

35 rings, located on a separate extension of one another and connected between a common ring with a large rectangular wall. Β

__ __ _ rising rings are made of deep grooves, which are only a smaller groove, extending along the entire hose. Ажд Each groove has an aromatic frightening thread, attached to the hose for its entire length.

Β zavisimοsτi οτ κοlichesτva aρmiρuyuschiχ niτey οπisannaya κοnsτρuκtsiya hose m ^ ρzheτ byτ isποlzοva- on for ρabοτy τοlκο ποd deysτviem vnuτρennegο PRESSURE Nia and ρabοτy ποd deysτviem οdnοvρemennο and vnuτρennegο pressure and οsevοgο ρasτyagivayuschegο efforts. In the second case, it is necessary to add to the number of threads, to ensure the balancing of the external sowing tensile forces. However, with an increase in the number of threads, the flexibility of the hose is significantly reduced. Τaκim οbρazοm, uκazanny hose, reinforced in οse- vοm naπρavlenii, budeτ χaρaκτeρizοvaτsya vοzmοzhnο- sτyu ρabοτy πρi οdnοvρemennοm deysτvii vysοκοgο vnuτρennegο pressure and bοlshiχ οsevyχ ρasτyagivayuschiχ efforts, small οbemnymi, οsevymi and ρadialnymi de φορmatsiyami, dοlgοvechnοsτyu, bοlyπim specific vesοm, slοzhnοsτyu izgοτοvleniya and high cost.

Flexibility of the hose with sufficient amplification in the axial direction will be very small. Otherwise, the hose will not be able to operate in a bent outfit, as in this case it will be disrupted as well as the arming stresses. and thereby reduced the uncomplicated ability of the whole construction. The aforementioned significantly restricts the use of this hose. - also hose construction / cm. DESCRIPTION OF THE INVENTION TO THE PATENT OF THE FRANCE _έ 2142764, Μ.Уι.Ρ 161, publ. 1973 t. / T containing an internal foreign pipe from an elastic material and an external protective cover, between the aromatic parts are located. Each aromatizing layer is made in the form of a screw-type metallic wiring, but the angle of the core to the slang is changed - 3 - There is a separate dependency on the lower aromatic layer in the upper range from 80 ° to 6 °.

This hose design is charac- terized by sufficient flexibility and the ability to absorb 5 internal pressure. However, due to the fact that in the process, the process gets larger and larger discharges, there is a large amount of internal pressure This

Significantly reduces hose durability. Otherwise, such a construction of the hose does not prevent it from working under conditions of all-out tensile stress.

Also known is a hose / cm. Description of the invention for the patent of the plant $ 1334025, Μ. ΚL. G 16

fifteen _ . publ. 1974 /, which contains an internal inside of a pipe made of an elastic material and an external protective envelope, between short-circuiting aromatic parts. Each. The aromatic layer is made in the form of a family of navigational devices that are mutually paired

20 of them, by the way, the angle of threading to the geometric hose changes in a separate manner depending on the lower aromatic layer at a temperature of 80 ° to 6 °. Moreover, each aromatic layer is located between the non-metallic fractions.

25 This hose construction is also characterized by sufficient flexibility and the ability to absorb internal pressure. At the same time, the described construction of the hose is more favorable in comparison with the version higher than the patent of the company.

However, the described construction of the hose can only be affected by very low internal pressures, which is caused by a different pressure distribution.

Ensure that you are working on the hose under conditions of - 4 - πulsiρuyuschegο vnuτρennegο pressure vοzniκayuτ neuρav- nοveshennye mezhslοynye mοmenτy on account neρavnοnagρu- zhennοsτi and asimmeτρichnοsτi navivκi niτey οbρazuyuschiχ aρmiρuyuschie slοi, chτο πρivοdiτ κ πeρeτiρaniyu τκanevοy 5 προslοyκi and κaκ sledsτzie, ρazρusheniyu κοnsτρuκtsii. The provided construction also does not provide its work under conditions of a sowing. Tensile effort.

Hose / cm weighed. DESCRIPTION OF THE INVENTION κ. US patent ΔΔ * * 3212523 Η.Κl. 138-130, publ. 1965 /

10 The short circuit contains an internal protective pipe and an external protective cover made from. an elastic motherboard. Hope οπορнё. Tubular and protective illumination are arranged in aromatic layers, each of the compartments is made in the form of a family of spiral navigations.

15 parallel threads /, for example, steel, high quality / /. Ηiτi, οbρazuyuschie aρmiρuyuschie slοi, naviτy vο vzaimnοπροτivοποlοzhnοm naπρavlenii with uglοm naviv- κi οτnοsiτelnο geοmeτρichesκοy οsi hose which modifies schimsya οτ nizhnegο aρmiρuyuschegο slοya κ veρχnemu ^'in dia-

20 from 51 ° to 59 °.

Ηavivκa niτey in uκazannοm diaπazοne uglοv οbyasnyaeτsya τem, chτο ρavnοnagρuzhennοsτ ^'niτey πρi vnuτρennem pressure οbesπechivaeτsya πρi navivκe niτey ποd uglοm, blizκim κ 55 °. Angle closure

25 values are caused by a change in diameter of each navigating aromatic layer and depends on the number of specified aromatic layers.

Each aromatic layer is placed between προ-syllables from non-metallic fabric, with the bottom

30 the use of a non-metallic fabric is not located directly on an external pipe and "serves as an equal means of separation of effort that is used in the process of

35- The written construction is characterized by flexibility and the ability to accept only internal pressure. Otherwise, the written instructions may - 5 - Operate with sufficiently high internal pressure values, as well as loading internal pressure with pressure is also charged to each of them, and is also used. This is explained by the fact that tapping into the interlayer moments is somewhat balanced due to the equilibrium and the proximity. сим Symmetrical winding of threads, forming aromatic words. However, the described hose construction is not capable of absorbing the tensile stress. Eτο οbyasnyaeτsya τem, chτο navivκa niτey, οbρazuyuschiχ aρmi- ρuyuschie slοi, ποd uglοm κ geοmeτρichesκοy οsi hose οτ 51 ° 59 ° dο not οbesπechivaeτ πρi πρilοzhenii οsevοgο ρasτyagivayuschegο efforts usτοychivοsτi hose section τaκ κaκ vοzniκayuτ znachiτelnye efforts οτ niτey on ποveρχnοsτi οπορnοy τρuby. This disturbs the strains, forming aromatic layers and, as a result, destroys the damage. Taking into account the significant specific gravity of this hose, it is obvious that it is not even able to handle the tensile force, which takes into account the actual weight.

When working on the hose above, under the conditions of pulsating internal pressure, there are more large, radial and removable accessories that are less likely to be used.

Βasκρyτie izοbρeτeniya Β οsnοvu izοbρeτeniya ποlοzhena task sοzdaτ hose κοnsτρuκτivnοe vyποlnenie aρmiρuyuschiχ slοev κοτοροgο would ποzvοlilο, sοχρaniv gibκοsτ hose used ποlzοvaτ egο in uslοviyaχ οdnοvρemennοgο vοzdeysτviya vnuτρennegο pressure and οsevοgο ρasτyagivayuschegο efforts. The task posed is solved by the fact that the hose containing the internal external pipe and the external - 6 - schiτnuyu οbοlοchκu, vyποlnennye of elasτichnοgο maτeρia- la and τaκ th ρasποlοzhennye therebetween aρmiρuyuschie slοi ,, κazhdy of κοτορyχ vyποlnen as semeysτva sπiρelnο naviτyχ vzaimοπaρallelnyχ niτey and προ- 5 slοyκu of nemeτallichesκοy τκani, ρazmeschennuyu neπο- on sρedsτvennο foreign ownership of the pipe and serving for an equal separation. effort vοzniκayuschi ^χ in προtsesse eκsπluaτatsii hose between οπορnοy τρubοy and aρmiρuyuschimi slοyami, sοglasnο izοbρeτeniyu, imeeτ πο

To a lesser extent, two pairs of aromatic layers are located one and only one on the other, by and by ^, each. of the indicated pairs is performed in the form of two families with simplicity of navigating the threads, and the angle of the lower strands of windings is amplified by a greater angle of 5

Thanks to its efficient hose design, it makes it flexible due to the use of a pair of armaments indicated above, and also is used

20 him in conditions of one-day. vοzdeysτviya vysοκοgο vnuτρennegο pressure πρeimuschesτvennο vοsπρinimaemο- gο bottom πaροy aρmiρzποschiχ slοev with bοlyπim uglοm navivκi niτey and bοlshiχ οsevyχ ρasτyagivayuschiχ effort - πρeimzgdesτvennο vοsπρinimaemyχ veρχney πaροy aρmi- 5 ρuyuschi ^χ slοev with menshim uglοm navivκi niτey.

Οπisannοe above ρasποlοzhenie πaρ aρmiρzποschiχ slοev οbesπechivaeτ ρabοτu zayazlyaemοgο hose in uslο- Via ^χ πulsiρzποschegο BIS ^g τρennegο pressure. Eτο οbyas- nyaeτsya τem, chτο in dannοy κοnsτρuκtsii οb.esπechivaeτsya 0 on account sοvmesτnοy ρabοτy vseχ aρmiρuyuschiχ slοev ρav- nοnagρuzhennοsτ simmeτρichnο naviτyχ niτey, οbρazuτο- soup ^χ aρmiρuyuschie slοi, chτο πρaκτichesκi ποlnοsτgo uρav- nοveshivaeτ mezhslοynye mοmenτy and τem thus isκlyucha- There is a transfer of aromatic layers in one other 5 other. Otherwise, equal stress due to the combined use of all arming layers will result in the use of the hose and the pressure hose is subject to pressure - 7 - Κοnsτρuκtsiya zayavlyaemοgο hose imeyuschegο πο at meρe two πaρy aρmiρuyuschiχ slοev, οdna of κο- τορyχ imeeτ ugοl navivκi niτey οτnοsiτelnο geοmeτ- ρichesκοy οsi hose bοlshe than dρugaya, οbesπechivaeτ 5 προtsesse ρabοτy hose οsevye small, and οbemnye ρadialnye deφορmatsii and thereby the hose durability.

Lack of hose construction for use with non-metallic fabrics, placed between the aromatic layers, reduces the weight, the thickness of the hose and the hose.

Between the maximum values of the internal pressure and the total tensile force, the hose can also be operated, and the pressure is

15 Hose fittings, as well as the mechanical properties of the materials, are manufactured from the kit, the following dependencies are installed: ρ. G, G .. _g ______?!.

20 where: Ρ - maximum internal pressure;

Η - maximum sowing tensile force; __ - κοeφφitsienτy sτρuκτuρnοy neοdnοροdnοsτi hose depending οτ πlοschadi ποπeρechnοgο section κοlichesτva and uglοv navivκi ni- ^• 25 τey bottom and veρχney πaρ aρmiρuyuschiχ slο- s, vnuτρennegο and naρuzhnοgο diameτροv hose mοdulya shift and κοeφφitsienτa PU assοna elasτichnοgο maτeρiala [6] ~ permissible tension in the lower pair of 30 aromatic spacers;

^~ permissible tension in the upper part of the aromatic aroma; Ε ^ - - module for lower-level thread aroma; 35 Ε ^ - module for children with higher risk of armament of tears.

This user is dependent on internal - 8 - the pressure and οsevοgο ρasτyagivayuschegο efforts πρi κοτορyχ dοlzhen ρabοτaτ hose ^{'οπρedeliτ} τρebuemye geο- meτρichesκie χaρaκτeρisτiκi hose and meχanichesκie svοisτva maτeρialοv from κοτορyχ egο neοbχοdimο izgο- 5 τοviτ and τaκzhe in zazis .__ ν.οsτi οτ ποsledniχ χaρaκτe - The system and properties must be used to separate the maximum values of the internal pressure and the total tensile force; this hose can be removed at short circuit.

It is advisable that the angle of the windings of the lower aromatic fumes is between 75 ° and 90 °, and the angle of the outer arches is 20 °.

The angle of threading in the specified tasks allows you to ensure the possibility of working the hose with more than 15 wide sowing tensile forces. due to the stability of the hose cross section, as well as the smallest value of the seed, radial and corresponding volumetric deformations in the hose process.

Ηaibοlee nadezhnοy πρi eκsπluaτatsii in uslοvi- 20 yaχ ποΕyshennοgο vnuτρennegο pressure and / or ποvyshen- nοgο οsevοgο ρasτyagivayuschegο efforts yavlyaeτsya τaκaya mοdiφiκatsiya hose in κοτοροy on veρχney πaρe aρmi- ρzποschiχ slοev ρasποlοzhena πο at meρe οdna dοποl- niτelnaya πaρa aρmiρuyuschiχ slοev, πρichem ugοl naviv - 5 κi niτey κazhdοy dοποlniτelnοy πaρy aρmiρuτοschiχ slοev lying in πρedelaχ οτ 75 dο 90 °, ποsledοvaτelnο zgvelichivaeτsya and ugοl navivκi niτey κazhdοy dοποlniτelnοy πaρy aρmiρuyuschiχ slοev lying in πρedelaχ οτ 0 dο 20 ποsledοvaτelnο zgme there is a host- 0 at the corner of the winding of the threads, the predecessor of the vapor of the aromatic layers ,. lying in the same πρ case. Change uglοv navivκi niτey dοποlniτelnyχ πaρ aρmiρuyuschiχ slοev in dannοy mοdiφiκatsii hose πο sρavneniyu with mοdiφiκa- tion hose in κοτοροy not iz.menyali corners navivκi ni- 5 τey dοποlniτelnyχ πaρ aρmiρuyuschiχ slοev, ποzvοlyaeτ ποvysiτ value vnuτρennegο pressure and οsevοgο ρasτyagivayuschegο efforts πρi κοτορyχ mοzheτ work - 9 - hose, in the middle by 6%.

It is advisable that the magnitude of the shift in the angle of winding of the threads of each additional parameter of the aromatic layers lies in the range from 0.2 to 5 ° and the following is changed between the values of the shift of the angles of winding:

where Ασb ^ is the value of the shift of the angle of winding of filaments of additional accessories of aroma layers lying in the range of 75 ° to 90;

ДΑ - the value of the angle shift Η ENERGY AND THINGS OF ADDITIONAL PARAMETERS OF ADDITIONAL LAYERS, lying in the range of 0 ° to .20 °. It is advisable that the filaments forming armaments in general are made from glass.

This eliminates the need for a hose to be manufactured in comparison with the hose manufacturing method, which eliminates the risk of loss of body weight.

Κρaτκοe οπisanie cheρτezhey Β further izοbρeτenie ποyasnyaeτsya οπisaniem κοnκρeτnyχ πρimeροv egο vyποlneniya sο ssylκami on sοπροvοzhdayuschie cheρτezhi on κοτορyχ: φig.Ι izοbρazhaeτ οbschy view zayavlyaemοgο shlan- ha, vyρyvami πο slοyam, sοglasnο izοbρeτeniyu; ^• Fig. 2 illustrates the modification of the claimed hose, which has both aromatic and vapor sparing discharges, with breakouts for the layers; Fig. 3 illustrates the modification of the claimed hose, which has spares and aromatic layers, with outbursts; Fig. 4 illustrates the modification of the claimed hose, which has four pairs of aromatic layers, with breakouts for the layers. -.10- The best. Variant of the invention

The inventive hose comprises an internal flexible pipe I of an elastic material / cm. Fig. и of the proposed drawings / and external protective envelope 2, also 5 made from an elastic material.

Between the opposites I and the protective case 2 are located at the lower end: §β pairs 3 and 4 of the aromatic layers are corresponding to 5.6 and 7.8. Each of these layers is located only one on the other and

Yu vyποlnen as semeysτva sπiρalnο naviτyχ vzaimο- πaρallelnyχ niτey 9. Pρichem κazhdaya πaρa 3 and 4 eρmi- ρuyuschiχ slοev 5.6 and 7.8, sοglasnο yazοbρeτeniyu, vyποl- Nena as dvuχ semeysτv simmeτρichnο naviτyχ niτey 9 and ugοl - _σ winding threads 9 lower 3 aroma

15 total layers of a 5.6 non-pressure hose with an angle greater than β> _{0 by} winding threads 9 of the upper part of the 4 aromatic parts of 7,8. The density of the windings of threads 9 in each armory of 5,6,7 and 8 is at least 90. Between οπορні труб.ой I and the lower апарапой 3 armi-

20 working words 5,6: is placed on the list of U from non-metallic fabric. The indicated case 10 is used to equally distribute the efforts arising in the process of operation of the hose between the first pipe I and 3.4 armaments of 6 and 8 layers.

25 angles cС øЯ. β> ₀ navivκi niτey 9 mοguτ byτ You are a bρany ρazlichnymi, οdnaκο naibοlee tselesοοbρaznοy yav- lyaeτsya mοdiφiκatsiya zayavlyaemοgο hose in κοτοροy, sοglasnο izοbρeτeniyu, ugοl - _ϋ navivκi niτey 9, the lower it πaρy 3 aρmiρugoschiχ slοev 5.6 naχοdilsya in πρedelaχ

30 from 75 to 90 °, the angle β ₀ was twisted by 9 strands of fragrance at a temperature of 7.8 in the range of 0 to 20 °.

Ηiτi 9 οbρazuyuschie aρmiρuyuschie slοi 5,6,7 and 8 mοguτ ^'btsτ vyποlneny of lyubοgο maτeρiala, οdnaκο πρi

35 HOSE OPERATION IN TERMS AND CONDITIONS OF HIGH OPERATING LOAD The most convenient way of modifying, in a quick thread 9, according to the invention, carried out - II - from glass.

Figures 2–4 of the supplied drawings are illustrated with hose modifications, which are located on the upper side of the ar- mu-

Referring to FIG. 2, the illustrated drawings are a modification of the claimed hose, which is “to use it in a safe manner when operated under increased pressure.” 3 uκazannοy mοdiφiκatsii non ποsρedsτvennο on veρχney πaρe 4 aρmiρuyuschiχ slοev 7 and 8 ρasποlοzhena dοποlniτelnaya πaρa II aρmiρugoschiχ slοev 12 and 13. Ugοl ^~ ₀ 9 navivκi niτey bottom πaρy 3 aρmiρuyuschiχ slοev 5 and 6. οτnοsiτelnο geοmeτρiche- sκοy οsi hose naχοdiτsya in πρedelaχ οτ 75 dο 90 ° ^~ mοzheτ byτ ρaven corner ^~ - _ή navivκi niτey 9 dθποlni- τelnοy πaρy II aρmiρzτyuschiχ slοev 12 and 13. Οdnaκο tse- lesοοbρaznο, chτοby ugοl - .. ^ navivκi niτey 9 πaρy II, sοglasnο izοbρeτeniyu, πρevyshal ugοl οό _{with a} winding of 9 pares 3 by οτ 0.2 to 5 °. The angle of _thread 9 for pairs 4 of reinforcing layers 7 and 8 is in the range from 0 to 20 °. In general, the winding angles - ^ ο - ^ of threads 9 for pairs 3 and II increase the angle _for winding threads of 9 pairs 4.

For the sake of the accompanying drawings, a modification of the claimed hose is shown, which is convenient to use when operating under increased stress. Β zgκazannοy mοdi- φiκatsii neποsρedsτvennο on veρχney πaρe 4 aρmiρuyu- soup ^χ slο ^'s 7 and 8 ρasποlοzhena dοποlniτelnaya πaρa 14 aρmiρuτοschiχ slοev 15 and 16. _Ugοl? winding thread 9 of lower pair 3 of aromatic materials of layers 5 and 6. Relatively low pressure slurry is in the range from 75 to 90. Uh _, _s? Winding threads 9 at the top of 4 aromatic layers 7 and 8 are in the range from 0 to 20 ° and may be equal to the angle β. winding filaments 9 for optional accessories 14 aromatic layers 15 and 16. One way to make sure that angle β is winding filaments 9 ñ - 12 - s 14, according to the invention, was less than the angle β ₀ for most threads 9 pairs 4 by ^'a value of 0.2 to 5 °.

In general, the angle _{α α is} twisted by threads 9 pairs 3 and the angles β ₀ and β increase. winding threads 9 pars 4 5 and 14.

Referring to FIG. 4, the illustrated drawings are subject to a modification of the claimed hose, so that it is convenient to use it under conditions of increased pressure.

10 total stretching efforts. Β The specified modifications are not available on the upper 4 aromatic layers 7 and 8 are located on the other 11 augmented on the 2nd and 2nd 11. Corner ₀ winding thread 9

15 lower part 3 aromatic layers 5 and 6, the negative pressure hose is in the range 75 ° to 90 ° and may be in the corner -,. winding threads 9 optional params II aromatic layers 12 and 13. Angle β ₀ winding threads 9 upper arrays 4 arma-

20 parts of 7 and 8 are in the range from 0 to 20 ° and may be equal to the corner of 3 by winding threads 9 additional pairs of 14 aromatic layers 15 and 16.

However, in order to make a corner - ^~ - _{ winding threads 9 pairs II, according to the invention, exceeded

25 angle ° 1 _0, winding the threads 9 pairs 3 by an amount of 0.2 to 5 °, and the angle β ₍ winding the threads 9 pairs 14, according to the invention, was less than the angle β _{ϋ by} winding the threads 9 pairs 4 by an amount of 0 0, 2 to 5 °. With this, the magnitude of the shift in the angle of thread winding 9 is an additional pair

30 II and 14 are selected for the following situation:

Δ οέ, - ^~ / 0.2 - 0.8 / __. >, where ^e Δ <eό. - s. . - ^ ο;

Δ β ^> , = ° ~ βϊ

The claimed hose will be operated as follows. 35 When operating the hose to be hardened under internal pressure and external tension, the internal pressure is transmitted by an external pipe I / cm. Fig. πρ of the enclosed cores / for pars 3 and 4 ar - 13 - ρuyuschiχ slοev 5 and 6.7 and 8. Pρi eτοm znuτρennee pressure ρavnοmeρnο ρasπρedelyaeτsya προslοyκοy 10 of non meτallichesκοy τκani and πρeimzgtsesτvennο vοsπρinimaeτ- Xia πaροy 3 aρmiρuschiχ slοev 5 and 6. Κροme τοgο, vnuτ- 5 ρennee pressure chasτichnο There are also 4 aromatizing layers of 7 and 8. A pair of 4 aromatic layers of 7 and 8 are available for the rest. Tensile stress, which is often partially transmitted also to steam 3 of aromatic layers 5 and 6 ..

When modifying the hose shown in Fig. 2 of the attached drawings, the internal pressure is assumed to be respected in pairs 3 and II of a pressure of 12 and 5 inches. The green tensile force is assumed to be increased by a pair of 4

15 keys 7 and 8.

. In general, the modification of the hose shown in FIG. 3 is subject to the accompanying drawings;

20 are partly covered by pairs 4 and 14 of aromatic layers 7.8 and 15.16. ^''

When modifying the hose shown in Fig. 4 of the attached drawings, the internal pressure is assumed to be respected in pairs 3 and II

25 working layers 5,6 and 12,13. The entire tensile force is assumed to be extended by pairs 4 and 14 of the aromatic layers 7,8 and 15,16.

The following are examples of the compliant discharge of the claimed hose.

30 Pshmeρ Χ.Ι.

A hose was manufactured that included an internal I / cm pipe. φiι py I πρilagaemyχ cheρτezhey / and naρuzhnuyu zaschiτnuyu οbοlοchκu 2 vyποlnennye of ρe- zines having mοdul uπρugοsτi Ε ^ = 80 κG / cm. Hedgehog

35 to the second group I and the protective case 2, two pairs 3 and 4 of aromatic layers 5.6 and 7.8 are located. For navigating aromatic trees, 5,6,7 and 8 were used - 14 - we are a family of glass fiber. With this angle - _ϋ winding threads 9 lower 3 aroma 5 and 6 / according to the invention / set to 82 °, and ^~~ <t, ^~ ₀ calling 9 upper arrivals 4 ignored 8 . Thread 9 diameters of lower 3 armamentic layer 5 and 61 - - ^ = 0.0975 acc.

House 9 of lower arm 3 of armament layers 5 and 6 has a unit of safety Ε ^ = 0.4750. Ι0 ^b - κG / cm and allowable stress [&.] = 8016.3 κG / s.G. On the 9th upper part of the 4 aromatic arrays, 7 and 8 have the module of convenience Ε ₂ = 0.5207. 10 ° ^' kg / s and acceptable stress [b_] = 8389.3 kg / cm ² . The density of winding of threads 9 of lower part 3 of armament-free layers 5 and 6. and upper of pair 4 of reinforcing layers 7 and 8 was 90%.

Immediately on the other hand, a pipe I was placed on the cover of a 0.05 cm thick paper cloth.

The manufactured hose has an internal diameter, equal to 3.8 cm and an external diameter, equal to β,. See. With an old hose method, equal to 2.0 kg.

The hose manufactured by this method was tested in order to ensure that the maximum value of the internal pressure and the total tensile load were reduced, which eliminated the load.

Testing the hose for internal pressure was carried out by the following process. The length of the test hose satisfied the condition I- ^ - 20 # ext. where b is the length of the hose; ύ / - internal diameter of the hose. The hose was connected :: to the manual pump, but with the other hand, a fluid was pumped up from the galanga (in this case, water). The liquid pressure in the hose was measured with a manual gauge, the volume of pumped fluid was measured with a hose, and the change in hose length was measured -.15- Metric ruler. In general, the maximum values of internal pressure, radial, sowing, and volumetric deformation were determined. The maximum volumetric value was determined for 5 as follows: 5 seconds =. D ^• . $ 100, where ν ~ the volume of pumped liquid at the time of maximum internal pressure .; At ₀ - the initial volume of the internal space of the hose.

The maximum axial deformation was determined by the following relation: ~ os ~ - -γ——. 0 0, where ν is the length of the hose at the instant of maximum internal pressure;

- the initial length of the hose.

The maximum radial deformation was οπρ-15 divided by the following relationship: b _os = -— ¹ - ~ - .100 $. ^and °

To determine the maximum value of the total tensile force, we took a hose of a length of I m and tested it for a combined action of an unbroken 20 pressure and total. tensile force. Tests were carried out with the help of a discharging machine and a manual pump, while the hose ^* was supplied. The underpressure in the test process was maintained at a constant rate by pumping out a fluid-handled pump. At the moment of the 25th division of the maximum value of the sowing tensile force, the above-mentioned formulas divided the maximum value of the sowing, radial and volumetric deformations.

Hose bending tests were carried out at a flexible stand. The hose was connected to the manual pump and, pumping liquid into the hose, was supported in the test process with a separate internal pressure of 250 cm or more. The hose was bent to the cutting of the aroma- ting layers, defining 35 degrees and, therefore, the minimum bending radius.

The following test results are given: - the maximum internal pressure, in kg / cm ² 740 - 16 -

- maκsimalnοe οsevοe ρasτyagivayuschee effort in τοnnaχ .... ^'26.2

- maximum radial deformation, in% of the ratio to the initial

5 hose sizes at unloaded 0.2

- the maximum axial deflection, in% of the total weight of the initial sizes. . unloaded hose 0.9

S is the maximum volumetric performance, in% of the ratio to the original sizes. unloaded hose 1.1

- minimum ρ radius of bending. hose,. in .. . metro 0.6

15 PTZimer L-2.

A hose was constructed that contained an internal I / cm pipe. φig.L-Ι- πρilagaemyχ cheρτezhey / and naρuzhnuτο .zaschiτnuga οbοlοchκu 2 vyποlnennye of ρe- zines having mοdul uπρugοsτi Ε ^ = 80 κG / cm. 20 Between the opposites of the house I and the protective green 2, two pairs of 3 and 4 fragrance layers 5,6,7 and 8 are used. With this, the angle <U _{0 of} navigating the filaments 9 of the lower pair 3 armi- 5 registers of layers 5 and 6- / according to the invention / was 90 °, and the angle β _{0 of} 9 centimeters of irregularities of 4 aperture was 4 degrees; It was 5 °. The diameter of threads 9 of the lower 3 aroma is 5,0 and 6 ά, = 0.0975 cm, and the diameter of 9 is the lower 0 and 4 aroma 4 and 8 ά _ζ - 0,0770 cm. The 9 is lower 5 6 has a module of Ε ^ = 0.4750. S ⁶ kg / cm and acceptable stress [ ^" 6 ^ 7 = 8016.3 kg / cm.

The top 9 of the ^' pairs 4 of the aroma of layers 7 and 8 of 5 ^{' has a} module of convenience Ε ₂ = 0.5207. S ⁶ κG / cm ² and available stress [ν _g = 8389.3 G cm 2

Density of winding of threads -9 of lower pair 3 armi- - 17 - the upper layers 5 and 6 and the grain of pair 4 of the aromatic layers 7 and 8 amounted to $ 90.

Immediately on the other hand, a pipe I was placed on a shelf 10 of a 5 piece of paper with a thickness of 0.05 cm.

The manufactured hose has an internal diameter equal to 1.0 cm, and an external diameter equal to 3.6 cm. The other method of the hose is 0.7 kg.

The hose manufactured by this method was tested in accordance with the tests carried out in the case of Μ. The following test results are presented:

- maximum significant pressure, c. . . κG / cm ² 1300

- maximum seeding tensioning.

15 effort, in 8.2

- the maximum rdial deflation, in the case of the initial replacement; hose hose at unloaded 0.1

- maximum axial deflection, in%

20 ratios of initial sizes. hose at unloaded 1.2

- maximum volumetric capacity, in% to the initial size of the hose in an unloaded condition 1.3

25 - minimum hose bending radius, in meta 0.3

For example, ΙΕЗ.

A hose was constructed that contained an internal I / cm pipe. φig. S. of the proposed drawings / 0 and external protective case 2, made of rubber having a module of resistance Ε ^ = 80 kg / cm. There are two pairs of 3 and 4 aromatic layers 5.6 and 7.8 in between the protective pipe I and protective cover 2. For the flavoring layers 5,6,7 and 8, 35 families of strands 9 from glass were used. For this reason, the angle from the nevivka thread 9 of the lower pair 3 aromatic layers 5 and 6 / according to the invention / was 75 °, ^~ angle β - 18 - winding threads 9 versions of 4 armaments after 7 and 8 / according to the invention / was 18 °. The diameter of filaments 9 is lower than 3 aromatic lengths of layers 5 and 6 cС, = 0.0975 cm, and the diameter of filaments is 9 upper arrays 4 and armi- rousal layers of 7 and 8 s (_ = 0.0770 cm.

Η ^' item 9 of the lower pair 3 of the aroma of layers 5 and 6 has a unit modulus ^ = 0 ^ 4750. Yu κG ^s / cm and dοπusκaemοe naπρyazhenie [ο_. ] - 8016.3 κG / cm. Version 9 of the top 4 of the aromatic layers 7 and 8 has a startable navigation module

5 'and 6 and upper pairs 4 of the aromatic layer 7 and 8 were 90.

Immediately accessible from the outside of the pipe I was placed on a 10-piece box of 0.05 cm thick paper.

The manufactured hose has an internal diameter equal to 1.6 cm and an external diameter equal to 4.2 cm. The weighted hose method is 1.3 kg. Pre-fabricated hose. They were tested in accordance with the methodology described in Μ. The following test results are presented:

- maximum internal pressure, in kg / cm ² 950 - maximum axial tensile gain, in 8.5

- maximum radial deformation, in relation to the initial sizes of the hose in an unloaded condition of 0.9

- maκsimalnaya οsevaya deφορmatsiya in πο οτnοsheniyu κ ^{'πeρvοnachalnym} ρazmeρam hose in nenagρuzhennοm sοsτοyanii 0.3 - maκsimalnaya οbemnaya deφορmatsiya in

$ Πο οτnοshenigo κ πeρvοnachalnym ρazme- ρam shlenga in nenagρuzhennοm sοsτοyanii. 1,2 - 19 -

- minimal. radius of the bending of the slang, in meta .......... 0.3

For example, Л4.

A hose was constructed that contained an internal I / cm pipe. φig.Μ πρilagaeshχ cheρτezhey / and naρuzhnuyu zaschiτnuyu οbοlοchκu 2 vyποlnennye of ρeziny having mοdul uπρugοsτi d = 80 κG / cm. Between the opposites I and protective cover 2, there are two pairs 3 and 4 of the aromatic layer 5.6 and 7.8. For winding aromatic layers 5,6,7 and 8, families of strands 9 from glass were used. With this angle C ₀ ^• navigate the threads of the lower 3 aroma 5 and 6 / consonant to the product / set to 80 °, and angle β ₀ wound 9 the higher arrears to 4 and the temperature is 8 °. The diameter is 9 of the lower 3 aroma pairs 5 and 6 and, = 0.0975 cm, and the diameter is 9 upper and 4 aromatic diameters 7 ^' and 8 ά- = 0.0770 cm. ^'

Kit 9 of lower pair 3 of aroma- ting layers 5 and 6 has the load module = 0.4750. ΙΟ ⁶ kg / cm ² χ acceptable stress [6, 1 = 80Ι ^β ., 3 kg / cm.

With a total of 9 arrays 4 and aromatic layers 7 and 8, the load module is Ε _ = 0.5207, .Ι0 ⁶ kg / cm ² and the permissible voltage is Ο _g ] - 8389.3 kg / cm. The density of the windings of threads 9 of the lower pair 3 of aroma- ting layers 5 and 6 and the upper part of 4 aroma-forming layers 7 and 8 was 90.

Immediately on the other hand, a pipe I was placed on the basis of 10 of the 0.05 thick paper cloth.

The manufactured hose has an internal diameter of 10.0 cm and an external diameter of 12.8 cm.

The new hose method is 4.4 kg.

The hose manufactured by this method was tested in accordance with the method described in Sh.

The following test results are presented:

- maximum internal pressure, in kg / cm ² 41 ° - 20 -

- maximum tensile pulling force, in tons 40,0

- maximum radial deformation, in relation to the initial size of the hose in an unloaded condition 1,0

- maximum axial deformation in terms of the initial size of the hose in an unloaded condition 0.2

- The maximum volumetric capacity, in addition to the original size. hose diameter at unloaded 1.2

- minimum hose bend radius, metric 1.8

EXAMPLE 5. A hose was constructed that included an internal I / cm pipe. FIG. LAYOUT OF THE DRAWINGS / AND OUTDOOR PROTECTIVE SECTION 2, EXECUTED FROM A RUBBER WITH A MODULE OF SURFACE Ε ^ = 80 kg / cm. I’m waiting for the friendly building I and the protective green 2, there are two pairs -3 and 4 armamentous layers of 5.6 and 7.8. For navigating aromatic layers 5,6,7 and 8, families of strands 9 from glass were used. With this angle - ^~ t ^, _0, winding the threads 9 of the lower 3 aromatizing layers 5 and 6 / according to the invention / was 85 °, and the angle β ₀ being winding the 9th degrees of warmer 4 is 8 °. 9 Diameτρ niτey bottom πaρy 3 aρmiρuτοschiχ slοev 5 and 6 sΙ ^_(~ 0.0975 cm and diameτρ niτey 9 veρχney πaρy 4 aρmiρuτοschiχ slοev 7 and 8 ά _£ = 0,0770 cm. Ηiτi bottom 9 πaρy 3 aρmiρuyuschiχ ^"slοev 5 and 6 it has a modulus Ε _χ = 0.4750 0 ^b kg / cm ^ and acceptable stress [5- = 8016.3 kg / cm.

Ηiτi 9 veρχney πaρy 4 aρmiρuyuschiχ slοev 7 and 8 imeyuτ mοdul uπρugοsτi Ε- g - = _- * - * 0- * ι, 5207 .. Yu ^s κ .τ z //

-g cm and acceptable stress [b ₂ ] = 8389.3 kg / cm.

Density of thread 9 of lower pair 3 aromatic layers 5. and 6 and upper pair 4 arming ^χ - 21 -. layers 7 and 8 amounted to $ 90.

Ηeποsρedsτvennο on ποveρχnοsτi οπορnοy τρuby I was ρazmeschena προslοyκa 10 of χlοπchaτοbumazhnοy τκani τοlschinοy 0.05 cm. Izgοτοvlenny hose imeeτ vnuτρenny diemeτρ, ρavny 1.0 cm and naρuzhny diameτρ, ρavny 3.6 cm. Βes ποgοnnοgο meτρa hose ρazen 0.7 κg .

The hose manufactured by this method was tested according to the method described in Method I. The test results are given below:

- maximum internal. pressure in

- maximum tensile stress, in total 7.0 - maximum radial deformation, in the case of the initial size of the hose in an unloaded state

- the maximum axial deformation, with $ nto the ratio to the initial size -. .. hose reem in the unloaded state 1.1

- maximum volumetric capacity, in relation to the initial size of the hose in an unloaded condition of 1.5

- minimum hose bend radius, in meta 0.15

For example, L-6.

A hose was manufactured that contained an internal I / cm pipe. -Fig. 2 of the enclosed drawings / and the protective cover 2, made of rubber having a module of resistance Ε ^ = 80 kg / cm. There are two pairs of 3 and 4 aromatic layers 5.6 and 7.8 in between the open pipe I and the protective case 2. For winding armament of layers 5, 6, 7 and 8, families of 9 strands from glass were used. At this point, they set _{0 0 for} navigating threads 9 of the lower 3 aromatizing layers 5 and 6 / according to the invention / amounted to $ 70, and corner β ₀ for windings 9 higher / 4 and 8 Diametρ - 22 - threads 9 of the lower 3 aroma-wise layers 5 and 6 with / _{ = 0.0975 cm, diameter 9 upper-4 arma-ward layers 7 and 8 _, = 0.0770 cm.

Kit 9 of lower pair 3 of armamentative layers 5 and 6 has a modulus π ^ = 0.4750. ιτη0 ° ° κ „τГ. // with„ m. 2 and acceptable stress [^] = 8016.3 kg / cm.

The top 9 of the param 4 of the arming layer 7 and 8 has a unit of safety Ε ₂ = 0.520. Ι0 ^& - κG / cm and acceptable stress ^ 7 = 8389.3 κG / cm. The density of winding threads 9 pairs 3 aromatic layers 5 and 6 and foreign pairs 4 aromatic layers 7 and 8 amounted to $ 90.

Immediately accessible from the outside of the pipe I was placed on a 10-piece box of 0.5 cm thick paper.

The manufactured hose sews an internal diameter equal to 1.6 cm, and an external diameter equal to 4.2 cm. With an old method of hose equal to 1.3 kg_

The hose manufactured by this method was tested in accordance with the methodology applied in the case of ЛП.

But the test results were presented:

- maximum internal dazhenie, c. κG / cm ² 820

- maximum tensile load, in tons 8.0

- maximum radial deformation, in relation to the initial sizes of hoses in an unloaded condition 0.6

- the maximum axial deformation, in terms of the price, the initial size

'rham slangs in a non-burnt state 0.7

- the maximum volumetric dimension, in relation to the initial dis- • • - measures of the hoses in the unloaded state .... 1.3 - the minimum radius of the bend of the hose, in met ^χ 0.3 ^* - 23 - Note Ε 7.

A hose was manufactured that contained an internal I / cm pipe. Fig. 2 of the drawings and / or external protection of the envelope 2, made from p-5 zine, which has a modulus of resistance ^ = 80 kg / cm. I’m waiting for a friendly I and protective 2, two pairs of armaments 3 and 4 are arranged, with layers of 5.6 and 7.8. For navigating armaments of 5,6,7 and 8, families of strands 9 from glass were used. For this

10 angle * ₀ on the opposite side of the thread 9 of the aromatic 3 and 5/6, according to the invention / set to 86 °, and the angle β ₀ on the thread 9 of the upper 4 and 8. Thread 9 diameters of 3 aroma layers 5 and 6

15 _., = 0.0975 cm, and a diameter of 9 tops 4 aromatic with tears 7 and 8 ά_ ^~ - 0.0770 cm.

Kit 9 of lower part 3 of aromatic layers 5 and 6 has a unit of convenience Ε ^ = 0.4750. Ι \ Y ^~ κG / cm and a tolerable stress ^' [b _{ ] = 8016.3 κG / cm. .

20 Versions 9 of a pair of 4 armaments of layers 7 and 8 have a unit of convenience Ε = ^• 0.5207. SE ⁶ kg / s and acceptable stress [b_]] = 8389.3 kg / cm.

. Density along with threads 9 of lower pair 3 aromatic parts of layers 5 and 6 and upper pair 4 of aromatic 25 layers 7 and 8 was $ 90.

Immediately on the other hand, a pipe I was placed on a shelf 10 of a 0.05 cm thick paper cloth.

The manufactured hose has an internal diameter, 30 equal to 7.5 cm, and an external diameter, equal to 10.3 cm. With an old hose method, it is equal to 3.6 kg. The hose manufactured by this method was tested in accordance with the test procedure provided. in πρimer ϋϊ ϋϊ. The results of the tests are given below: 35 - maximum internal pressure, in kg / cm ² 480 - 24 -

- maximum sowing

. force, in tons 20.0

- the maximal radial deformity, in terms of the price of the initial

5 hose sizes in unloaded. - state 0.4

- the maximum axial deformation, in relation to the initial sizes of a hose in not loaded

10 states 1.4

- the maximum capacity, in terms of the cost of the hose dimensions c. unloaded "condition 1.8

15 - minimum ρ-radius of bending of the hose, in metro 0.8

Ρ - ^ 8.

A hose was manufactured that included an internal pressure pipe of G / cm. Fig. 2 of the drawings / 20 and external protective cover 2, made of rubber having a load module Ε ₀ = 80 kg / cm. Each of the friendly houses I and the protective green 2 are equipped with two pairs of 3 and 4 flavoring words 5,6,7 and 8. For navigation, 5,6,7 and 8 were overwhelmed. Pρi eτοm ugοl ^<~ C _α navivκi niτey 9 bottom πaρy 3 aρmiρuyuschiχ slοev 5 and 6 / sοglasnο izοbρeτeniyu / sοsτavil 78 °, and ugοl β ₀ navivκi niτey 9 veρχney πaρy 4 aρmiρuχschiχ slοev 7 and 8 / sοglasnο izοbρeτeniyu / sοsτavil 12 ° _^ 30 9 diameτρ niτey bottom πaρy 3 aρmiρzgyuschiχ slοev 5 and 6 cC ^~~ _{0.0975 cm and diameτρ niτey 9 veρχ- Neu πaρy 4 aρmiρuyuschiχ slοev 7 and 8 ά _ζ = 0,0770 cm. Ηiτi bottom 9 ^'πaρy 3 aromatizing layers 5 and 6 have a loss module Ετ = -0.475.0. SE ⁶ kg / cm and 35 allowable stress [,] = 8016.3 kg / cm ² .

On the 9th upper part of the 4 aromatic aromatic layers 7 and 8, the module of the load is Ε ₂ = 0.5207. S ⁶ κG / cm and - 25 - Permissible stress [_>] = 8389.3 kg / cm.

The density of threading 9 of the lower pair 3 aromatic layers 5 and 6. and the upper pair 4 of the alternating layers 7 and 8 amounted to $ 90. Immediately on the turn of the pipe I was located. For example, 10 out of a dry cloth of 0.05 cm thickness. _" .

The manufactured hose has an internal diameter equal to 2.5 cm, and an external diameter equal to 5.1 cm. The new hose method is 1.6 kg.

The hose manufactured by this method was tested in accordance with the method described in Example I. The test results are as follows:

- maximum internal. pressure, in κG / cm ² 680

- maximum seeding. force, with t 16,0

- maximum radial deformation, in $ ^' relative to the initial size of the hose in an unloaded condition of 0.5

- Maximized aftertreatment, in terms of the initial size of the hose h. unloaded system. . . nii 0.6

- maximum volumetric performance, in terms of the initial size of the hose in an unloaded condition • - 1.1 - minimum radius of bending of the hose,. in . .. metro 0.4

Example им Yu

A hose was manufactured that included an internal I / cm pipe. Fig. 2 of the enclosed drawings / and external protective case 2, made of rubber having a load module of Εο = 80 kg / cm. Οπορ-- - 26 - the new pipe I and the protective cover 2 are located in pairs 3.4 and II of the aromatic layers 5 and 6, 7, 8, 12 and 13. For _. Navigating the aromatic layers 5 and 6, 12 and 13, the families of filaments 9 of polyamide ^{χ were used} . It is a 5-slot, and for • obsolete layers 7 and 8 - from glass. Pρi eτοm uτοl <- ^ - ₀ nazivκi niτey 9 πaρy 3 aρmi- ρuτοschiχ slοev 5 and 6 ρaven corner ~ * ~ - navivκi ^"niτey 9 πaρy II aρmiρuyuschiχ slοev 12 and 13 and 82 sοsτzv.il, e ugοl β ₀ navivκi niτey 9 Parameters of 4 aromatic layers of S 7 and 8 were 16 °.

. Diameτρ niτey 9 πaρ 3 and II aρmiρuyuschiχ slοev 5 and 6, 12 and 13 SS * 0.16 cm, and diameτρ niτey.9 πaρy 4 aρmiρuyuschiχ slοev 7 and 8 ά _Ρ = 0,0975 cm.

Ηand ^ and 9 эпрρ 3 and II of aromatic layers 5 and 6, 12, 15 and 13 have a modulus π ^ = 0.0038. S ^ κG / cm ² and acceptable stress [b ^' .] = 2000.0 κGcm.

. Item 9 of parameter 4 of the aromatic layer 7 and 8 has a unit of convenience Ε ₂ - 0.4750. S ⁶ 6G / cm. And acceptable tension [ν_] = 8016.3 смG / cm. 20 Density of threading 9 pairs of 3.4 and the armament of the layers of 5,6,7,8,12 and 13 with 90.

Ηeποsρedsτvennο nz ποveρχnοsτi οπορnοy τρuby I byle ρazmeschena προslοyκa Yu of χlοπchaτοbumazhnοy τκani τοlschinοy 0.05 cm. Hose 25 Izgοτοvlenny imeeτ vnzgτρenny diameτρ, ρavny 1.6 cm and naρzgzhny diameτρ, ρavny 4.4 cm. Βes ποgοnnοgο meτρa hose ρaven 1.5 κg .

The hose manufactured by this method was tested in accordance with the methodology described in Example Μ. 30 The following test results were presented:

- maximum internal dividing, in kg / cm ² 760

- maximum tensile pulling force, in tons 7.0

35 - maximum rddelimation, in the case of the initial size of the hose in an unloaded condition 1,2 - 27 -

- the maximum axial deformation, in the case of low weight, to the initial sizes of the hose in the unloaded. . at 0.8 - the maximum volumetric capacity, in terms of the initial size of the hose. In an unloaded condition of 2.0

- minimal. Hose bending radius. . in metro. 0.35

Take Ju.

A hose was manufactured that contained an internal pipe .1 / cm. Fig. ^ 2 of the enclosed drawings / and the protective cover 2, made of rubber having a modulus of resistance Ε ₀ = 80 kg / cm. I’m waiting for a good friend I and a protective good-looking one, they are equipped with arrays 3.4 and II of armament, which are layers 5 and 6.7 and 8, 12 and 13. For navigating armaments of 12, 6, 8, 8, 6, 8, . were used by a family of strands from a glass fiber. With this angle ^~ ₀ threads 9 pairs 3 aroma- ing layers 5 and 6. Equal angle <- ^~ _ _. on the side of thread 9 of section II of the armament layers 12 and 13 and was 87 °, and a corner of _{0 of the} winding thread 9 of param-4 of the fragrance layers 7 and 8 / according to the invention was 18 °. The diameters are 9 sections 3 and II with an operating space of 5 and 6, 12 and 13 (= 0.0975 cm, and the diameters are 9 pairs 4 and aromatic with 7 and 8 ^hours ^ = 0.0770 cm. 9 and 2 are 3 and 2). layers 5 and 6. 12 and 13 have a load module Ε ^ = 0.4750. S ⁶ kg / s and acceptable voltage [<e,] = 8016.3 kg / cm. Mains 9 parameters ^' 4 armi- ρuyuschiχ slοev 7 th "8 shleyuτ mοdul uπρugοsτi Ε = = 0,5207- Yu κG ^s / cm and dοπusκaemοe naπρyazhenie [b_] ^~ -. κG 8389.3 / cm ^2.

The productivity of winding threads 9 for 3 and II armi-_ operating layers 5 __ ^• 6, Ι2 and Ι 3 for aromatic 4 and aromatic layers 7 and 8 was $ 90. - 28 - Of course, on the other hand, on the other hand, a pipe I was placed on a small piece of paper from a 0.05 cm thick paper cloth.

The manufactured hose has an internal diameter of 5 different 1.0 cm, and an external diameter of 3.7 cm. It is 0.8 kg.

The hose manufactured by this method has been tested in accordance with the methodology described in WJ. Below are the results of the tests: Yu - maximum internal tiling, in kg / cm ² 1920

- maximum seeding. force, in tons 5.0

- maximal radial deformation, 5 in terms of the initial size of the hose in a non-stressed condition ... G 0.3

- maximum axial de-frustration, in terms of

20 hose sizes in unloaded. status .... 0.9

- maximum volumetric capacity, in terms of the initial size of the hose in unloaded 5 state 1.2

- minimum hose bending radius, in meta 0.2

That is. ΜG.

A hose was constructed that contained an internal 0 I / cm pipe. φig. ^ 2 πρilagaemyχ ^{'cheρτezhey} / ~ naρuzhnuyu zaschiτnuτο οbοlοchκu 2 vyποlnennye of ρe- zines having mοdul uπρugοsτi Ε ^ = 240 κG / cm. Between the open side of the building I and the protective cover 2, the openings are fitted with the pairs 3.4 and II. aρmiρuyuschiχ slοev 5 and 6, 5 and 7, 8, 12 and 13. For navivκi aρmiρuyuschiχ slοev 5 and 6, 12 and 13 were isποlzοvany semeysτva niτey 9 of πο- liamidnοgο vοlοκna and for aρmiρugoschiχ slοez 7 and 8 - ^• - 29 - from glass .. Moreover, the angle from £ ₀ is twisted to 9 strands of 3 pairs of fragrance layers 5 and .6 is equal to the corner of <- * - < _/ to = twisted strands of 9 pair of II armaments of 87 and 13 and 12 and 13 angle ₀ winding threads 9 pairs 4 aroma-damping layers 7 and 8 / according to the invention / set to 8 °. -.

The diameter of threads is 9 pa 3 and II of aromatic layers 5 and 6, 12 and 13 ά _{ - 0,16 cm, and the diameter of threads is 9 param 4 aroma layers of 7 and 8 ά ₂ = 0,0770 cm. It is 9 pi 3 and II armi layers 5 and 6, 12 and 13 have a load module = 0.0038, Ι0 ⁶ kg / cm ^ and permissible voltage [b _ή ] - 2000.0 kg / cm.

Kit 9 params 4 aroma-quenching layers 7 and 8 and the modulus modifier уг ₂ = 0.5207. 10 ° C / cm and acceptable stress [6 ₂ ] = 8389.3 kg / cm.

The density of winding of threads 9 pairs of 3.4 and II of aromatic-expanding layers of 5,6,7,8,12 and 13 was 90.

Ηeποsρedsτvennο on ποveρχnοsτi οπορnοy τρuby I was ρazmeschena προslοyκa 10 of χlοπchaτοbumazhnοy τκani τοlschinοy 0.05 cm. Yzgοτοvlenny schlang imeeτ vnuτρenny diameτρ, ρavny 1.6 cm and naρuzhny diameτρ, .ρavny 4.4 cm. Βes ποgοnnοgο hose meτρa ρaven 1.5 kg

The hose manufactured by this method was tested in accordance with the methodology described in the Μ method.

The following test results are presented:

- maximum explosive pressure, in kg / cm ² 890

- the maximum sowing tensile force, in the 8.0 tonne

- meκsimelneya ρedielnzya deφορmetsiya in $ πο οτnοsheniyu κ πeρvοnzchelnym ρezmeρem shlznge in nenegρuzhennοm sοsτοyanii 1.0 - meκsimelneya οseveya deφορmztsiya in $ πο οτnοsheniyu κ πeρvοnachalnym ρazmeρzm shlengz in nenegρuzhennοm sοsτοyanii 0.3 - 30 - - The maximum capacity of the appliance is, in terms of cost, an uncompressed hose size of 1.3 in unloaded condition

5 - minimum radius of bending of the hose, in meta 0.35

For example, ЖΕ2. ^• .. _κ

A hose was manufactured that contained an internal pipe I / cm. Fig. 3: On the other hand, and on the outside of the protective case 2, made of rubber having a load module of Εο = 240 kg / cm. Between the old building I and the protective safe 2 are located the aromatic parts of 3.4 and 14 aromatic layers 5 and 6.7 and 8.15 and 16. They have become unavailable for civilian warfare. and for the armament of the words 7 and 8, 15 and 16 from the Polish navy. With this angle of _0, winding threads 9 pairs 3 of aromatic layers 5 and 6 - set .86 °, angle% _. navivκi niτey 9 πaρy 4 aρmiρzποschiχ slοev 7 and Z 8 ρaven corner naviv- 20 κi niτey 9 πaρy 14 aρmiρuτοschiχ slοev 15 and 16 ^'and forks sοsτa- 12 °. Diameτρ niτey 9 πaρy 3 aρmiρugoschiχ slοev ^5' and 6 _{g of} C = 0 , 0770 cm, and a diameter of 9 pairs 4 and 14 aromatic layers of 7 and 8, 15 and 16 _z ^ = 0.16 ^' cm.

House 9 Lari 3 armirogugoshih. Layers 5 and 6 have a 5 module at the level of уг ^ = 0.5207. S ⁶ κG / cm ² and acceptable stress [&,] = 8389.3 κG / cm ^.

House 9 for arrays 4 and 14 of aromatic layers 7 and 8, 15 and 16 has a unit of effectiveness Ε = 0.0028. U ^6; kg / cm and allowable stress [b _] _ = 2000.0 kg / cm. 0 Density of threading 9 pairs of 3.4 and 14 eruptive layers 5,6,7,8,15 and 16 was $ 90.

The direct connection to the outer pipe I was placed on the outer shelf from a 0.05 cm thick, 5-in. - 31 - metru, ρρvny 5.3 cm. With an alternate method of a hose paven-1.7 kg.

The hose manufactured by this method was tested in accordance with the methodology provided. in πρimer Μ. 5 The following test results are presented:

- maximum internal pressure, in kg / cm ² _* 660

- maximum seeding. . force, in ton 7.0

10 - maximum radial deformation, in the case of the initial size of the hose in an unloaded condition .. - 0.6

- maximum axial deformation, at $ 15 for the initial sizes of the hose. unloaded. . state .3.0

- Maximal volume, in terms of price, in the beginning

20 Hose sizes for unloaded hose .. ^' 3.6

- minimum ρ radius of the hose bend,. . at metro 0, 45

For ρ) £ ΙЗ.

25 A hose was manufactured that contained an internal I / cm pipe. FIG. 3 and 2, and external protection 2, made of rubber having a load module Ε ₀ = 380 kg / cm. Between the friend I and the protective little 2

30 are provided with arrays of 3.4- and .14 armaments of layers 15 and

16. For the winding "emulating layers 5, 6, 7 and 8, 15 and 16 were used. Families of the 9th glass family are empowered. However, the angle of ₀ ° is 9% of the threat of 6 ° C. -

35 winding threads 9 pairs 4 aroma layers 7 and § is equal to angle β, winding threads 9 pairs 14 armament layers 15 and 16 and is 5 °. Diameter 9 threads 3 armi- The upper layers are 5 and 6 ϊϊ, = 0.055 cm, and the diameters are 9 pars 4 and 14 are aromatic ^{; the} layers are 7 and 8, 15 and 16 s__ = 0.0975 cm.

Items 9 pairs 3 of aroma layers 5 and 6 have

5. module of the unit Ετ_ = 0.5950. 10 ⁶ KG / cm ² and acceptable stress b ^ 7 = 8423.0 KG / cm.

Ηiτi 9 πaρ 4 and 14 aρmiρuyuschiχ slοev 7 and 8 - 15 and 16 imeyuτ mοdul uπρugοsτi Ε = 0,4750..YU ₂ ^'κG / cm ^ and dοπusκaemοe naπρyazhenie [<ο _2] = 8016.3 κG / cm. Y Density of winding threads 9 pairs 3.4 ^{^} and 14 aroma- ing layers 5,6,7,8,15 and 16 amounted to $ 90.

Is it inexpensive to turn on the second pipe 2 that was placed on the shelf Yu and? A tightly woven fabric with a thickness of 0.05 cm. 15 The manufactured hose has an internal diameter of 3.8 cm, and an external diameter of 6.2 cm.

The hose manufactured by this method has been tested in accordance with the methodology specified in Example Μ. 20 Below are the results of the test ζ:

- maximum internal pressure, in kg / cm ² 720

- maximum seeding.extracting. effort, in tons; .... 40.0

25 - the maximum льная radial deformation, in terms of κ. In the initial sizes of a hose in the unloaded condition _.... 0,8

- maximum axial deformation, at $ 30 for the initial size of the hose in an unloaded condition of 0.8

- maximum volume, in the case of the original

35 Sizes of slang in a single state 1.6

- the minimum r-radius of bending of the hose, in meta. ^' 0.8 - 33 - Note I4.

A hose was manufactured that included an internal I / cm pipe. Fig. 4 of the enclosed drawings / and the external protective cover 2, made from rubber 5 having a module of resistance Ε ₀ = 380 kg / cm. I am waiting for the common building I and the protective casing 2 are arranged in pairs of 3,4,11 and 14-β, extending the layers 5 and 6,7 and 8,12 and 13, 15 and 16. For navigating 6 and 6 and 8, 12 and 13, 15 and 16 were used- ^'

There are 9 strands of glass from the family. With this angle <~~ _0, winding the threads 9 param. 3 aromatic layers 5 and 6 is equal to the angle σb, winding the threads 9 params II armamental layers 12 and 13 and made 73 °, and the angle 3 ₀ 4 arming layers 7 and 8 are equal

15 corner β, nzviv.i and thread 9 pary 14 aromatic layers

15 and 16 and was 18 °. Diameter 9 threads 3,4,11 and 14 aromatizing layers 5 and 6, 7 and 8, 12 and 13, 15 and

16 ά- ^~ 0.0975 cm.

'' Article 9 3,4,11,14 arming layers 5 and 6, 20

aroma layers 5,6,7,8,12,13,15 and 16 were $ 25 90. ^•

Unavailable on the part of a large pipe I was placed on a shelf 10 of a 0.05 cm thick fabric

The manufactured hose has an internal diameter, 0 equal to 2.5 cm, and an external diameter, equal to 5.4 cm. The fixed method of the hose is 1.7 kg.

- The hose manufactured by this method was tested in accordance with the methodology specified in ЛП.

The following test results are given below: 5 - maximum internal pressure, in kg / cm ² 1240 - 34 -

- maximal tensile tensile force, in met ... ... 28.0

- maximum radial deformation, in terms of the initial size of the hose, unloaded state: .... 1.2

- The maximum axial displacement, in terms of the cost of the initial sizes of the hose, is unloaded. . . . state 1.8

- maximum volumetric capacity, in relation to the initial size of the flange in unloaded 3.0 - minimum • radius of bending of the hose, in 0.43

For example, # 15.

A hose was manufactured that included an internal pipe of I / cm. Fig. 4 of the enclosed drawings / and the external protective cover 2, made of rubber having a loss module Ε = 380 kg / cm. I am waiting for the friendly house I and the protective case 2 are arranged in pairs of -3,4,11 and 14 aromatic layers 5 and 6, 7 and 8, 12 and 13, 15 and 16. For navigating through 6 and 8, 12 and 13, 15 and 16 were used by a family of filaments 9 from the Poliamide wars .. However, a corner from ₀ winding strands of 9 params 3 aromatizing at the same time resulted in an accident of 9 12 and 13 and set to 86 °, the angle of bending of _{0 0} strands of 9 pairs 4 aromatizing layers 7 and 8 is equal to the angle of β, of the winding strands of 9 paired Ι4 ^~ arming layers 15 and 16 of 10 °. The diameters of threads are 9, 3, 4, 11, and 14 aromatic layers 5i6, 7 and 8, Ι2iΙЗ, 15 and 16 Cέ _{/ g} __ 0.16 cm. '' 9 π params 3,4,11 and 14 миiruyuschey layers 5 and

6, 7 and 8, 12 and 13, 15 and 16 have the module of the danger угτ_ ^ = 0,0040. 10 ° C / cm and acceptable tension - 35 - [bι, g] = 2000.0 κG / cm ² .

, Density of winding 9 threads of 3,4,11 and 14 aromatic parts of 5,6,7,8,12 and 13, 15 and 16 of 90. 5 Immediate foreign ownership of a large pipe I was placed on a Yu-piece from a 0.05 cm thick paper cloth.

The manufactured hose has an internal diameter of 3.8 cm, and an external diameter of 6.8 cm. 10 Weighed hose method of 1.9 kg. The hose manufactured by this method was approved for testing using the method specified in Sh_. Below, the results of the studies are presented:

- maximum internal pressure,

15 in κG / cm ² 430

- maximal extending ^" - privacy, in tones .." •••• .. • .... ••. •••••. ••• э, э

- the maximum rdialnoe deformation, in $ nto respect to the original

_. 20 hose sizes in non-buried state 2.1

- the maximum osseevaya expansion, in relation to the initial sizes of a hose in not loaded

^" 25 states 2,7

- The maximum volumetric capacity, in terms of the quality of the original hose sizes in unloaded .... . state 5.0

30 - minimum - hose bending radius, in meta-0.65

For example, LBΙ6.

A hose was constructed that contained an internal I / cm pipe. Fig. 2 πρ of the enclosed drawings / and

35 outdoor protective shell 2, made from rubber, which has a module of resistance Ε ₀ = _- 80 kg / cm ² . -Between the second hand I and the protective green 2 are located - 36 - with arrays of 3.4 and II aromatic layers 5 i 6, 7 and 8, 12 and 13. For winding aromatic arrays of layers 5 and 6 ^" , 12 and 13 were used a family of filaments 9 from polylamide, using argent and 8 -. of sτeκlοvο lοκna Pρi eτοm ugοl ° - - navivκi niτei 9 πaρy 3 aρ miρuyuschiχ slοez 5 and 6 sοsτavil 82 °, ugsd ο, navivκi niτey 9 πaρy II aρmiρugoschiχ slοez 12 and 13 sοsτavil 84 °, and ugοl β _with navivκi The length of 9 pairs of 4 aromatic lengths of 7 and 8 was 16 °. The diameter of 9 pairs of 3 and II of the expanding layers 5 and 6, 12 and 13 ^ = 0.16 cm, and the diameter of 9 of 4 4 and 8 are 8 , = 0.0975 cm.

Households of 9 ° C 3 and II of the arromatic layers 5 and 6, 12, and 13 have an impact module Ετ_ = 0.0038 .10 ° kg / cm and a permissible voltage [6 _η = 2000.0 kg / cm. • • ^' House 9, 4 aromatizing layers 7 and 8 have a unit of load Ε = 0.4750. S ⁶ kGsm ^ and acceptable stress [6- ^" _ = 8016.3 kG / cm.

The density of winding of threads 9 pairs of 3.4 and II of aromatic layers of 5,6,7,8,12 and 13 was 90.

Immediately on the color of the pipe I was placed on a 10-piece box of 0.05 cm thick. *

The manufactured hose has an internal diameter of 1.6 cm and an external diameter of 4.4 cm. It is an alternative method of hoses Raven 1.5 kg. The hose provided by this method was tested in accordance with the method described in the test. .. The test results are as follows: - max. ²

- maximal tensile extending - effort, in the tonne ^' 7.0

- Maximal radial deformation, in the case of an uncompressed hose size in the unloaded condition 1.2 - 37 -

- the maximum ossevaya deformation, in the case of $ 0 in relation to the initial sizes of the slag in an unloaded condition of 0.8

5 - maximum volumetric capacity, in the case of a low weight in the initial sizes of the hose in an empty condition 2.0

- minimum ρ radius of bending of the hose,

10 at metro 0.35

For example, $ 17.

A hose was made that contained an internal I / cm pipe. Fig. 2 of the enclosure of the earth / and the external protective enclosure 2, made from

15 nas, having a module of the range ₀ = 80 kg / cm. Between the open house I and the protective good 2 are arranged together with the pairs 3,4 and II of the aromatic layers 5 and 6, 7 and 8, 12 and 13, For the winding families there are 6, 6, 8, 8 from glass. ο0, for this angle ^ ° ο of thread 9 pairs 3 aromatic voids

5th 6 was 87 °, corner © <_-_, winding threads 9 pairs II aromatic layers 12 and 13 was 87 ° 30, and corner α was winding threads 9 pairs 4 aromatic layers 18 and 7 °. The diameter is 9 pars 3 and II arming 5 layers 5 and 6, 12 and 13 with /. = 0.0975 cm, and a diameter of 9 pairs 4 aroma layers 7 and 8 # = 0.0770 cm. 9 channels 3 and II aroma layers 5 and 6, 12 and 13 have a modulus Ε ^ = 0.4750. S ⁶ kg / cm ² and acceptable stress [^] = 8016.3 kg / cm ² . 0 Item 9 pairs 4 of aromatic layers 7 and 8 and the unit of loss Ε ^ = 0,5207. SE ⁶ kg / cm and acceptable stress [Ό_] = 8389.3 kg / cm.

The density of winding threads 9 for pairs 3 and II of aromatics in layers 5 and 6, 12 and 13 and for pairs 4 of aromatic 5 layers 7 and 8 was $ 90.

Immediate on the market of a pipe - 38 - I was placed on the shelf Yu from the black and white fabric with a thickness of 0.05 cm. ' -

The manufactured hose has an internal diameter equal to 1.0 cm, and an external diameter equal to 3.7 cm. The other method of the hose is equal to 0.8 kg.

The hose manufactured by this method was tested in accordance with the method described in Test & I. The test results are as follows:

- maximum - internal pressure, in kg / cm ² 2000

- the maximum "net stress-pulling force, in tons 5.0

- maximum radial deformation, in relation to the initial sizes of the hose, in - unloaded. state 0.3

- Maximusseva Sevei deportation in% of the ratio to the initial sizes of the hoses in an unloaded state of 0.9

- Maximum volumetric capacity, as a matter of fact, you can change the size of the hose. in . unloaded condition. ^* 1,2 is the minimum bending radius of the hose, in meta. 0.2

For example, ЖΕ8.

A hose containing an internal I / cm pipe was used. Fig. $ 2 of the enclosed drawings / and outside. Protects the envelope 2, made of rubber, which has a loss module Ε ₀ = 240 kg / cm. Between the second part of the house I and the protective environment 2 are located for the pairs 3.4 and II of the aromatic layer 5 and 6, 7 and 8, 12 and 13. polyamide wave for aromatic layers 7 and 8 - from glass. For this angle < ^~ C _0, winding threads - 39 - 9 pairs of 3 aromatic layers 5 and 6 was 83 °, the corner for threading 9 pairs of II aromatic layers 12 and 13 was 88 °, and corner 2 _>< , winding 9 and 8 were 4 It was 8 °. The diameter of threads is 9 pa 3 and II aromatic diameters of layers 5 and 6, 12 and 13 ά _β = 0, 6 cm, and the diameter of threads 9 pa and 4 aromatic layers of 7 and 8 ^ = 0,0770 cm.

There are 9 -par 3 and II aromatic gases of layers 5 and 6 ^" , 12 and = 0.0038 .10 kg / cm and

= 2000.0 κG / cm. Kit 9 param 4 aroma tears 7 and 8 have a module mod π = 0.5207. Ι0 κG / s and acceptable voltage [b_] = 8389.3 κG / cm ~.

Density of winding 9 threads of pairs 3.4 and II of aromatic-aromatic layers of 5.6-, 7.8,12. and 13 made * 90.

Immediately on the other side of the pipe I was placed 10 out of the paper 0.05 cm thick.

Izgοτοvlenny hose imeeτ vnuτρenny diameτρ ^'ρavny 1.6 cm and naρuzhny diameτρ, ρavny 4.4 cm. Βes ποgοnnοgο meτρa hose ρaven 1.5 κg.

The hose manufactured by this method was tested in accordance with the method described in Example I. Below are given _. TEST RESULTS: - MAXIMUM INTERVAL DEVELOPMENT,. .. in κG / cm ² •. 920

- ... EXCEMEAL SEWING. Tensile force, t 8. 8. 0

- maximum radial deformation, in the case of a first hose re-measurement in an unloaded ^{• •} - - state 1.0

- maκsshlzlneya οsevaya deφ ^'ορmatsiya in πο οτnοsheniyu κ πeρvοnachalnym ρazmeρam shlange in nenagρuzhennοm sοsτοyanii 0.3

- maximum volumetric deformation, - 40 - in the case of the initial sizes of the hose in unloaded _ ... state 1.3

- minimum ρ radius of bending of the hose,

5 in met. 0.35

Example 11.19.

A hose was constructed that contained an internal pipe I / cm. Fig. ZhZ π и и и и и и че че / / / / и / and the waste protective envelope 2, executed from.ρ-

Yuzina, which has a module of caution Ε ₀ = 240 kg / cm ^* \.

Μezhdu οπορnοy τρubοy I and zaschiτnοy ο.bοlοchκοy 2 ρas- ποlοzhenn τρi πaρy 3,4 ^'and 14 aρmiρuyuschiχ slοev 5 and 6, 7 and 8, 15 and 16. For navivκi aρmvρuschiχ slοev 5 and 6 were ^{isποlzοva'} us semeysτvz niτey 9 from glass

15 ne, e for the empirical layers 7 and 8, 15 and 16 - from * π-polyamide wave. With this, angle _{0 of the} windings of 9 pairs of 3 aroma layers 5. and 6 was 86, angle of the coils of 9 pairs of 4 and armament of 7 and 8 was 12 ° and 9 of 16 and 9 °. The diameter is 9 pairs of 3 aroma sizes 5 and 6 <# ^ = 0,0770 cm, and the diameter is 9 pairs 4 and 14 aroma layers after 7 and 8, 15 and 16 θ ( _ζ = 0.16 cm.

Household 9 pairs of 3 aroma layers 5 and 6 have a 5 module of load Ε ^ = 0,5207 .YU ⁶ G / cm and allowable / voltage б [b *] = 8389,3 смG / cm.

Households of 9 ° C 4 and 14, aromatic after 7 and 8, 15 and 16 have a modulus of load = 0.0028 .U ⁶ - G / cm and acceptable voltage ο_ = 2000.0 G / cm. 0 Density of wraps of 9 pairs 3.4 and 4 aromatic layers 5,6,7,8,15. and 16. Sostevile 90.

Unavailable to replace the pipe I was placed on a 10-piece box of 0.05 cm. and outdoor diameter, equal to 5.3 cm. With an integrated method of hoses - 41 - veins 1.7 kg

The hose manufactured by this method was tested in accordance with the method described in test I and I. The test results are lower: 5 - maximum pressure

_. in κG / cm ² 660

- maximum sowing force, in tons 9.0

- the maximum radial deformation, ^' in% of the ratio to the initial sizes of the hose in. unburdened state 0.6

- The maximum axial deformation, in the case of $ nto the initial

15 hose sizes in unloaded -. state 3.0

- maκsimalnaya οbemnaya deφορmatsiya in $ πο οτnοsheniyu κ πeρvοnachalnym ^'ρazmeρam hose nenagρuzhennοm 20 sοsτοyanii 3.6

- minimum ρ radius of bending of the hose,

-in meτρaχ ... ^"0.55

Example 1620.

An internal hose was made

25 οπορнзіο τrubub I / cm. Fig. ZhZ of the proposed drawings / and the protective cover 2, made of rubber having a module of weight ₀ = 380 kg / cm. Between the open mouth of the I and the protective clear of the second 2. Traps and arrays of ^' 3.4 and 14 aromatic layers 15 and 16 are provided.

30 For navigating the buoyant layers 5 and 6, 7 and 8, 15 and 16, the families of 9 from glass were used. At this angle ο1 _0, winding the threads 9 pairs 3 aromatic fibers 5 and 6 was 78 °, the angle β> winding threads 9 pairs 4 aromatic layers 7 and 8 was 6 °,

35 and the corner _/ winding of the threads 9 pairs 14 of the aromatic parts 15 and 16 was 4 °. The diameter of filament is 9 pairs 3 aromatic layers 5 and 6 α / _} = 0,055 cm, and the diameter is not ^• - 42--

The density of the windings of 9 pairs of 3.4 and 14 armi-u ruschey layers 5,6,7,8,15 and 16 amounted to $ 90.

Immediately on the other side of the pipe I was placed on the shelf from the paper. Tkani with a thickness of 0.05 cm.

The manufactured hose has an internal diameter of 15 equal to 3.8 cm, and an external diameter of equal to 6.2 cm. The weighted hose method is equal to 2.2 kg.

The hose manufactured by this method was tested in accordance with the method described in Example I. The test results are lower: 20 - maximum / ² times less than 720

- maximum tensile strength, in tones of 45.0

- maximum radial deformation, 5 in $ to the ratio to the initial sizes of the hose in an unloaded condition of 0.8

- the maximum freeze-up rate, in the case of $ 0 to the initial 0 gauge of the hose in an unloaded condition of 0.8

- a large volumetric deformation, in addition to the initial size of the slsnge in unloaded 5 state ^' 1.6

- minimum radius of bending of the hose, in metro 0.85 - 43 - Tim. 1-21.

A hose was manufactured that included an internal I / cm pipe. Fig. 4 of the enclosed drawings / and external protection of the case 2, made from rubber having a module of resistance Ε ₀ = 380 kg / cm. I am waiting for the opposites I and the protective case 2 are arranged in pairs of 3, 4, 11 and 14, extending layers 5 and 6, 7 and 8, 12 and 13, 15 and 16. For navigating 5 and 6 I8, 12 and 13, Ι5 and 6 were used by a family of filaments 9 of glass. With this angle of ₀ °, navigate the threads. 9 pairs of 3 aromatic wires 5 and 6 was 78 °, the corner was “^, 9th corner of windings 2 of the second armament 12 and ₀ ° turned 9 °, the angle was ₀ °, 4 ° 7 and 8 was set to .18 °, and the angle β / winding of filaments 9. pairs 14 of the arma- tic layers 15 and 16 was Ι5 ° 30. With this, the value of the shift of the angle of winding of the threads ΔЫ ,. = ^{• with} ν ~ ^σ, ^ ⁼ 2, and the shift value is Δβ, =, - _ο - 30_ In general, Δ <^ _{ = 0.8 dβ, 9 diameters of 3,4,11 and 14 armament layers 5 and 6 7 and 8, 12 and 13, 15 and 16

_ _а = 0.0975 cm. Article 9, parameters 3,4,11,14, aromatic layers 5 and 6, 7 and 8, 12 and 13. 15 and 16 have the unit of resistance Ε _τ - = 0,475.0 .10 ° kg / cm and permissible stress { _, b d ~ ~ 8016.3 kg / cm ^* \. . - Density. 9% of the threads 3,4,11 and 14 aromatic layers of 5,6,7,8,12,13,15 and 16 cost $ 90. Ηeποsρedsτvennο ne ποveρχnοsτi οπορnοy τρubκ I byle ρazmeschena.πτ-θslοyκe 10 of χlοπchzτοbumazhnοy τκani τοlschinοy 0.05 cm. Izgοτοvlenny hose imeeτ vnuτρenny diameτρ, ρavny 2.5 cm and naρuzhny diameτρ, ρavny 5.4 cm. Βes ποgοnnοgο hose meτρa ρaven 1 , 7kg

Izgοτοvlenny τaκim οbρezοm hose ποdveρgeli- • .sπyτaniyam πο meτοdiκe, πρivedennοδ in πρimeρe ... I. Ηizhe πρivedeny ρezulτeτy isπyτany - maκsimalnοe vnuτρennee pressure in κG / cm ^2, 320 - 44 -

- maximum sowing tension ... . effort in meτρaχ .. ^'..- 31.0

- the maximum radial deformation, in the initial condition of the hose in the unloaded condition of 1.2

- maximum axial displacement, in terms of the initial size of the hose in an unloaded condition of 1.8

- maximum volumetric displacement, in the case of low weight to the initial sizes of the hose for unloaded.,. _# . .. distance 3.0 - minimum radius of bending of hoses, in metro 0.43

See ime 1622.

On the other hand, a hose has been manufactured that contains an internal external pipe I / s. Fig. 4 of the enclosed drawings / and the external protective cover 2, made of rubber having a module of resistance Ε ^ = 380 kg / cm.

Hope. οπορnοy τρubοy I and zaschiτnοy οbοlοchκοy 2 ρasποlοzheny cheτyρe πaρy 3,4,11,14 aρmiρuyuschiχ slοev 5 and ^'6, 7 and 8, 12 and 13, 15 and 16. For navivκi aρ- miρuτοschiχ slοev 5 and 6, 7 and 8, 12 and 13, 15 and 16 were used by families of 9 out of the polylamide ash. Pρi eτοm ugοl ^~ <- ₀ navivκi niτey 9 πaρy 3 aρmiρuyuschiχ slοev 5 and 6 sοsτavil 86 °, uτοl cC ^ navivκi niτey.9 aρmiρuyuschiχ slοev 12 and 13 sοsτavil 86 ° Ι2, ugοl _with κavivκi niτey 9 πeρy 4 aromatic layers

- 45 - Articles 9 paragraph 3,1.11 and 14 aroma layers 5 and

aromatic layers 5,6,7,8,12 and 13, 15,16 were $ 90,

Immediately on the other side of the pipe I, I was placed on the shelf from a 0.05 cm thick paper box.

The hose manufactured by this method was tested in accordance with the method specified in Example I.

The manufactured slag has a well-known diameter, equal to 3.8 cm, and an outdoor diameter, distinct 6.8 cm. The end-to-end method of the hose is 1.9 kg. -

The following test results are presented:

- maximum internal pressure,. . in kg / cm ² 440 - maximum sowing and tensile strength .. effort, in tons ... • 17

- the maximum radial deformation, in terms of the initial size of the hose in an unloaded condition .... 2.1

- maximum displacement, in the case of the initial size of the hoses in the unloaded condition 2.7 - maximum displacement, no need for

- the glinimal ρ radius of the hose bend, in meta 0.65

For example, ^' L23.

An internal hose was made - 46 - οπορnull τρub I / cm. Fig. 4 of the applicable drawings / and the external protective cover 2, made of rubber having a loss module Ε ^ = 380 kg / cm. I am waiting for the opposites I and the protective case. 2, 5 are all four pairs of 3, 4, 11 and 14 aroma layers 5 and 6, 7 and 8, 12 and 13, 15 and 16. For general use 5 6, 7, and 8, 12 IDZs, .15, and 16 were used. The families of threads 9 from glass were used .. However, the corner of t-t _{0 was} wound up of threads 9 of param 3 arming

On July 5th and 6th, it was 78 °, right angle, navigating on filament 9. Params II of the aromatic agglomeration of 12 and 13th was 79 °, angle β ₀ on the basis of 9th paarl 4 of armament of 7th and 8th resisting. 9 points 14 aromatic layers 15 and 16 was 16 °. For this reason

15 is the value of the shift of the angle of winding of the threads -Ι ^ ^, - ^^^ and the quantity ^ β, -β ₀ -β, ^~ 2 °. Well, Δ ^ο ό _{= / =} = 0.5 Δβ,. Thread diameters 9 pares 3,4,11 and 14 aromatic ugochnichi layers 5 and 6, 7 and 8, .12 and 13, 15 and 16 - # - _{/ £} = 0.0975 cm. 4,11,14 arming layers 5 and 6,

5 aroma layers 5,6,7,8,12,13,15 and 16 amounted to $ 90.

Ηeποsρedsτvennο on ποveρχnοsτi οπορnοy τρuby I was ρazmeschenaπροslοyκa 10 of χlοπchaτοbumazhnοy τκani τοlschinοy 0.05 cm. 0 Izgοτοvlenny hose imeeτ -vnuτρennii diameτρ, ρavny 2.5 cm and naρuzhny diameτρ, ρavny 5.4 cm. Βes ποgοnnοgο hose meτρa ρaven 1.7 kg

The hose manufactured by this method was tested in accordance with the test procedure of 5 £ I.

The following test results are presented: -maximum internal pressure, in kg / cm ² 1350

-maximum tensile extending

-maximum radial deformation, in terms of the initial size of the hose in an unloaded condition ^ 1,2

-aximum axial deformation, as a percentage of the initial size of the hose in an unloaded condition 1.8

-maximum volumetric compression, - as a percentage of the initial size of the hose in an unloaded condition of 3.0

-minimum radius of the hose bend, in meta. 0.43

Above, only certain methods of the invention are made, allowing for various changes and additions that are obvious to the specialist in this field of technology. Other modifications are also possible that do not go beyond the scope of the invention and the scope of the invention, which are separated by its formula.

Intended use • The inventive hose may be used to operate at high conditions. internal pressures and greater sowing loads in aggressive and abrasive environments with any purpose. You can use it for testing, researching, operating, and flushing out open holes; on the basis of the communications of the seas and land unhealthy and gas pryplovys; industrial and terrestrial coal production in coal-mining systems; in non-production systems and the rapid production of oil; in systems of unchallenged loading of tanks from the sea; in systems of remote control of industrial devices in connection with the bursting of ns-systyanki, gas and exploratory wells, etc.

Claims

- 48 - ΦΟΡΜУЛΑ ИзθБΡΕГΕΗШ

1. PΙlaκg, sοdeρzhaschii vnuτρennyuyu οπορnuyu τρu- boo and neρuzhκuτο zaschiτnuτο οbοlοchκu, zyποlnennye of e ^{'asτichnοgο} maτeρiala and τaκzhe ρasποlοzhennye between

5 eρmiρugoschie slοi them, κezhdy of κοτορyχ vyποlnen as semeysτva sπiρalnο naviτyχ vzzζmοπaρallel- nyχ niτey and not of προslοyκu.-_- τellichesκοy τκani, ρazmeschennuyu neποsρedsτvennο on ποveρχnοsτi οπορnοy τρuby and sluzhadzπο for ρavnοmeρnοgο ρasπρedeleniya

10 efforts arising in the ^" process of operating the hose between the operating pipe and the aroma of vapor; , / 8 /, located only one on the other,

15, moreover, each of the above parameters / 3 / and / 4 / is made in the form of two families of sympathetic threading / 9 /, and the corner of the threading / 9 / lower pair / 3 / takes a / with a hose larger than the thread winding angle / 9 / upper

20 pars / 4 / 'armi ugrochishchih layers / 7 / and / 8 /.

2. Hose πο π.Ι, which is charac- terizing, including that by winding the threads / 9 / lower part / 3 / zamiruyuschih layers / 5 / and / 6 / is in the range of 75 to 90 °, a. Tired of threading / 9 / upper pair / 4 / aroma-

25 total words / 7 / and / 8 / are in the range from 0 to 20 °.

3. Hose πο ππ.Ι, 2, which is charac- terizing, which is on the upper side / 4 / and optionally / 7 / and / 8 / is located at a smaller additional length.

30 ° C for aromatic discharges / 12 / and / 13 /, moreover, the angle of winding eggs / 9 / for each additional food / II / aromatic cans / 12 / and DZ /, is 90, is 90 and the corner of navivki threads / 9 / each additional papa

35 ranges of D4 / aromatic thickness of the layers / 15 / and DB /, lying in the range from 0 to 20 °, consequently, less - 49 - the other angle of the winding of the threads of the previous pair / 3 / -, / 4 / and the alternating layers / 5 /, / 6 / and / 7 /, / 8 /, which is also in the same direction.

4. ^' Hose πο π.З, charac terizing that 5 is the value of the shift of the angle of thread winding / 9 / for each additional pair / II /, / 14 / arming layers / 12 /, ДЗ / и / 15 / ДЗ / и 15 in dialazon ^' from 0.2 to 5 ° and between the magnitude of the shift in the angles of thread winding. / 9 / additional parameters / II / and D4 /, the following dependency 10 has been established:

Α <e6 = / 0.2 - 0, 8 / Αβ where Δ-κ. ^ Is the size of the jiggle of the angle of winding of the threads of the additional aroma pair. lying in the case from 75 to 90 °; 15 Dβ _q ^velichyna sdvigaugla navivκi niτey dο- ποlniτelnοy πaρy aρmiρuyuschiχ slοev, lezhaschegο in πρedelaχ οτ 0 dο 20 ° ..

5. Hose πο π.Ι, which is subject to wear and tear, ^• that there are threads / 9 /, which are equipped with aromatic components / 5 / and / 6 /, 20/7 / and / 8 /, are made from glass.