RU2104663C1 - Gloves with protective polymeric covering and covering application method - Google Patents

Abstract

FIELD: protective clothes used in oil production, in particular, manufacture of protective gloves for working with corrosive mediums at low temperatures. SUBSTANCE: gloves have cotton felt coarse napped fabric warp with surface density of 200-250 mg/sq cm and outer layer made from polyesterurethane having tensile strength of 45-57 MPa and specific rupture elongation of 450-500%. Method involves preparing polymeric solution at temperature of 20-25 C with viscosity of 150-200 Pa. Polymeric solution contains, % by weight: plasticizer or dibutyl phthalate 0.5-1.6; rape-seed or hydraulic oil 0.5-1.6; carbon black 0.01-0.02; fat-soluble dye 0.05-0.1; acetone 24-28; polyesterurethane the balance; holding napped fabric warp in water for 1-2 hours at temperature of 20-30 C; squeezing in centrifuge at speed of 1.500-2.500 rev/min for 1.5-2 min; submerging into polymeric solution for 5-10 sec; holding in air for 2-3 min; submerging into water for 2-6 hours at 20-35 C; holding in air for 15-20 min and drying at 50-70 C for 10-12 hours. Method allows gloves service life to be increased to 10-15 days (up to 140 hours) in corrosive mediums at low air temperatures of up to -25 C. EFFECT: increased cold resistance, strength and ergonomy, simplified construction and enhanced reliability in operation. 3 cl, 2 dwg, 1 tbl

Description

 The invention relates to protective work clothing, and in particular, to means of individual protection of human hands, and can be used for the manufacture of mittens with a polymer coating, for work in aggressive environments, at low temperatures, with oil well equipment.

 Known working protective gloves (gloves) containing a fabric base and an outer layer of polymeric material, for example, to protect against pressure (ast. Certificate of the USSR N 435829, class A 62 V 17 / 00.1974), to protect against thermal effects (author certificate N 13134456, class A 62 B 17/00, 1987) for protection against cuts (USSR patent N 1369661, class A 41 D 13/10, 1984), to maintain touch of fingers when isolating the hand from the outside Wednesday (author's certificate. USSR N 1000006, class A 41 D 13/10, 1983).

 However, to work in oil wells with equipment in aggressive environments, at low temperatures, maintaining the elasticity and strength of the protective coating of the fabric base of the mitten is required.

Known oil-resistant mittens (TU 38.444001-93 JSC PTO "Tekhnokomplektoservis") containing a nonwoven fabric base (lining base for clothing) with a cotton non-woven fabric, and an outer layer of a polymeric material - nitrile rubber. Mittens retain elasticity at a temperature of + 30 - (-15) ^o C.

 This technical solution is taken as a prototype.

 However, the nitrile rubber layer is worn and cracked for a period of 2-8 hours. When coating the fabric base, nitrile rubber impregnates it to the surface in contact with the skin of the hands, which worsens the ergonomics of the hand, perspiration is not absorbed, the skin is rubbed, and the heat exchange of the hand is impaired.

 A known method for producing coatings, including applying to a substrate of nitrile rubber a polymer coating, a composition based on a copolymer of trifluorochlorethylene and vinyldenfluoride with additives (ed. Certificate of the USSR N 292012, 1971). The method increases the elasticity, heat and chemoresistance of the coating used as a vibration-absorbing material.

 A known method of coating the surface of the product by repeatedly dipping the product (metal parts) in a polymer solution - thermosetting resin followed by firing (ed. Certificate of the USSR N 637068, class B 05 D 1/18, 1978). The method provides uniform coating thickness when controlling the composition of the polymer solution and the parameters of operations.

 To protect human hands, it is necessary to cover only the surface of the fabric base of the mitten, or at least with the impregnation of the upper, adhesive layer of the fabric base. The polymer layer should be uniform in thickness, strength characteristics, elasticity of heat and chemoresistance.

 The closest technical solution is the method of applying a multilayer elastomeric coating on the fabric base of the glove, designed to protect the hand from cuts, including at low temperatures. The elastomeric coating is made by repeatedly dipping the glove in a liquid coating material and holding it under normal conditions until the polymer layer is polymerized.

 However, the multilayer coating method is complicated, the risk of obtaining a layer of a polymer coating of the fabric base of the mitten (glove), which is heterogeneous in thickness, strength and elasticity, increases.

 The objective of the group of inventions is to increase frost resistance, strength and ergonomics in aggressive environments in the oil fields.

The aforementioned unified technical problem is solved in that in mittens with a protective coating of polymeric material made of an inner fabric base with an outer layer of polymer material, according to the invention, a fabric base made predominantly of cotton fleece fabric has a surface density of m 200- 250 mg / cm ² and the outer layer, made mainly of polyether urethane, has a tensile strength of P 45-57 MPa and an elongation at break of 450-500%.

 This problem was also solved by the fact that the following fabrics were used for the fabric base: diagonal, two-thread, non-woven cotton, or polyester or rayon, or a combination thereof.

The aforementioned single technical problem was also solved by the fact that in a method comprising dipping the fabric base of mittens into a polymer solution and drying, according to the invention, before dipping, a polymer solution is prepared at a temperature of 20-25 ^° C with a viscosity of 150-200 Pa • s, of the following .h .: Edos brand plasticizer or dibutyl phthalate 0.5-1.6; rapeseed oil or hydraulic IGP-20 - 0.5-1.6; carbon black (technical carbon) 0.005-0.015; aluminum powder 0.01-0.02; fat-soluble dye 0.05-0.1, technical acetone 24-28, and Vitur R-0512 polyester urethanes - the rest, and the fabric base of the mittens is kept in water for 1-2 hours before dipping into the polymer solution, at 20- 30 ^o C, then squeezed in a centrifuge at a speed of 1500-2500 rpm for 1.5-2 minutes, and then immersed on a wire frame in a polymer solution for 5-10 s in the "cuff up" position, then kept in air under normal conditions, in the cage positions "cuff up" and "cuff down" for 1.5-2 min and 0.5-1 min, respectively, after which again squeezed into water at 20-35 ^o C for 2-6 hours, then kept in air in the position of the frame "cuff up" for 15-20 minutes, and dried at 50-70 ^o C for 10-12 hours

 The claimed group of inventions meets the requirements of the unity of the invention, since a freshly prepared polyester urethane polymer solution with additives of a selected composition, applied to a pre-moistened cotton base of mittens, alternating the operation of dipping, moistening, drying at the selected optimal temperature, time, viscosity limits, provides the device of mittens in two a layer with reliable adhesion, while the polymer is uniform, the outer layer, with the obtained strength characteristics, elasticity ty, chemoresistance, provides increased operational and ergonomic qualities of gloves. Both objects of the invention are aimed at solving one problem with obtaining a single positive result.

A positive result obtained during the implementation of the invention is to increase the operational properties: temperature range +90 - (-25) ^o С, in an atmosphere of acid vapor, alkali, preservation of elasticity and slight abrasion when working with oil equipment for 10-15 days 140 h, which is 50 times longer than the mittens of the prototype, which is the base object.

 The industrial production of an experimental batch (15OOO units) of mittens and their operation in oil production with positive results allows us to consider the applicant’s proposal to meet the criteria of the invention “industrial applicability”.

 The search by patent and scientific and technical sources cited by the authors did not reveal any analogues for the method and device of the claimed group, characterized by characteristics identical in their properties and the result obtained in their totality to the essential features of known technical solutions in this field of the economy, which allows us to consider the applicant’s proposal to meet the criterion inventions - "inventive step".

 When comparing the applicant’s proposals with the prototype, it was revealed that the proposed device is different in the material of the fabric base of the mitten and the material of the outer layer with optimal characteristics of strength and elasticity, and the method differs in the preliminary operation of preparing a solution of polyester urethane with additives with optimal viscosity and temperature and the preliminary operation of moistening the fabric base of the mitten, the sequence and parameters of the operations of dipping into a polymer solution in - water and drying, which allows us to consider proposal of the applicant corresponding to the criteria of the invention of "novelty."

 The essence of the invention is as follows.

The fabric base has a surface density of 200-250 mg / cm ² . A density of less than 200 mg / cm ² allows the polymer solution to penetrate when dipping the entire thickness of the fabric base, which impairs the ergonomic properties of the mitten (the occurrence of scuffs and corns on the arm due to perspiration when in direct contact with the polymer coating). Density greater than 25O mg / cm ² leads to a decrease in arm mobility. The pile (fleece) of the cotton fabric base is directed inside the mitten, which also improves its ergonomic properties (the hand of the worker gets a feeling of softness "velvety").

 The outer layer based on polyester urethane has characteristics whose optimal values are clear from the table.

Thus, the use of a coating of polyether urethane increases operation up to 140 hours at -25 ^o С and ergonomic properties of the mitten.

 Along with the predominantly used fleece cotton cloth, the fabric formulas specified in clause 2, namely: diagonal, two-thread, non-woven cotton or polyester and viscose fabric, or a combination thereof, also provide adhesion of the polyester urethane polymer coating as the fabric base with additives by passing the latter into the fabric base at (1 / 3-1 / 2) of its thickness.

The invention also consists in the fact that, as experimentally established, only a solution of polyether urethane, prepared immediately before dipping the fabric base with the necessary additions, at 20-25 ^o C, diluted with acetone, to a viscosity of 150-200 Pa • s, provides the necessary operational and ergonomic properties of the glove with a protective coating of a polymer material. The addition of plasticizers "Edos" or dibutyl phthalate in an amount of 0.5-1.6 wt.h. increases the frost resistance of the coating to -25 ^o C. The absence of plasticizer reduces the frost resistance to -15 ^o C. An increase in the plasticizer solution to 5 wt.h. does not increase the frost resistance of the coating, but leads to an increase in the cost of the coating composition.

 The rapeseed oil (hydraulic) introduced into the solution in an amount of 0.5-1.6 wt.h. increases the elasticity of the coating by 5-7% in relation to the base case. An amount greater than 1.6 parts by weight leads to a decrease in the strength of the polymer coating. Soot introduced into the solution in an amount of 0.005-0.015 wt. including increases the wear resistance (abrasion) of the coating by 4-5% in relation to the base case. The increased content of soot, 0.015 wt.h. does not increase wear resistance, but worsens the elasticity of the coating.

 The introduction of aluminum powder in an amount of 0.01-0.02 wt.h. makes the polymer coating smooth, without air bubbles and sinks, and also increases the resistance of the polymer coating to mechanical stress. The amount of powder, greater than the limit value of 0.02 parts by weight, reduces the elasticity of the coating, and less than 0.01 parts by weight. amount does not provide 100% removal of air bubbles, shells. Dye 0.05-0.1 parts by weight fat-soluble, mostly bright colors, for example, orange, increases the attention of workers and contributes to the safe conduct of work.

Moistening the fabric base of the mitten by soaking in water and centrifuging creates a water barrier in the tissue, which prevents the polymer solution from penetrating the entire thickness of the fabric base. The polymer solution coagulates in the upper boundary layer of tissue. An intermediate adhesive layer of the polymer is created, occupying 1/3 of the thickness of the fabric. The final coagulation of the polymer solution occurs when the dipped gloves are soaked in water at 20-35 ^o C for 2-6 hours. The polymer solution drains on the surface of the gloves, respectively, in the "cuff up" position for 1.5-2 minutes and in the " cuff down "for 0.5-1 minutes will make the polymer coating uniform in thickness on the entire surface of the mitten.

 Example. 1. Acetone is poured into the hermetically sealed opening of the reactor with a stirrer in an amount of 24-28 wt.h. of the total amount of solution.

 2. Consistently pour into the same hole, parts by weight: plasticizer 0.5-1, rapeseed oil 0.45-0.5, fall asleep, parts by weight: carbon black 0.05-0.1, aluminum powder 0 01-0.02, fat-soluble dye 0.05-0.1.

 3. Close the hole and turn on the stirrer of the reactor. Mixing time 10 min.

 4. Turn off the stirrer, open the hole and pour the remaining amount of a solution of polyether urethane of the Vitur R-0512 grade up to 100 parts by weight into it. the total mixture.

 5. Close the hole again and turn on the mixer. Mixing time 0.1-1.5 hours

 6. Turn off the stirrer and pour the finished solution into a closed container for degassing the solution. The degassing time of 1-1.5 hours

 7. Simultaneously with the preparation of the solution, the fabric base is kept in water for 1-2 hours, followed by centrifugation (speed 1500-2500 rpm) for 1.5-2 minutes.

 8. The wet fabric base is pulled onto a wire frame with a fingertip and a cuff strut installed in the cassette.

 9. Wet fabric bases of the gauntlet on the cassette are dipped into the solution, leaving the edge of the cuff 15-25 mm wide unsealed for 5-10 seconds.

 10. Suspend the cartridge over the container (cuff up) and allow the solution to drain from the mittens for 1.5-2 minutes.

11. Turn the cassette with mittens 180 ^o (cuff down), ensuring the return of the remaining solution on the surface of the mittens (to the base of the cassette) and hold the cassette in this position for 0.5-1 min.

12. Repeatedly turn the cassette 180 ^o (cuff up) and gently lower it into water so that the edges of the gloves are below the water level, allow water to flow into the internal cavities of the gloves.

13. The gloves are kept in water at 20-35 ^o C for 2-6 hours

 14. Drain the water from the mittens, hold the cassette with mittens cuff down for 15-20 minutes.

15. Dry the gloves on the cartridge at 50-70 ^o C for 10-12 hours

 In FIG. 1 shows a mitten with a protective coating of polymer material, where the fabric base 1, a thickness of 0.3-0.5 mm is the inner surface of the mitten, and the outer layer 2 is made of polyester urethane with a thickness of 0.25-0.3 mm.

 Approximately 1/3 of the boundary layer with a polymer coating of the fabric layer impregnated with polyester urethane is adhesive layer 3, cuff 4 is not covered.

 For uniform and high-quality polymer coating of the fabric base, the gloves are worn on the frames installed in the cassettes, as shown in FIG. 2.

 The wire frame 5 with a fingertip 6 and a retainer 7 is placed inside the fabric base of the mitten. In this case, the "top" position corresponds to the installation of the gauntlet cuff (open part) above the surface of the polymer solution and vice versa. The wire frame has an insulating braid 8 made of fluoroplastic or polyvinyl chloride, which reduces the friction of the frame on the inner surface of the fabric base, facilitates the installation of mittens in the cassette, improves the quality at the radial folds and seams of the mitten.

Claims (2)

1. Mittens with a protective coating of a polymeric material, made of an inner fabric base with an outer layer of a polymeric material, characterized in that the fabric base, made mainly of harsh cotton with cloth, has a surface density of 200 to 250 mg / cm ² and the outer a layer made mainly of polyether urethane has a tensile strength of 45 57 MPa and an elongation at break of 450 500
2. Mittens according to claim 1, characterized in that the fabric base is made of a "diagonal", or "two-thread", or of a non-woven cotton or polyester and viscose fabric, or a combination thereof. 3. A method of coating mittens, including dipping the fabric base of the mittens into a polymer solution and drying, characterized in that before dipping a polymer solution is prepared at a temperature of 20 25 ^o With a viscosity of 150 to 200 Pa • with the following composition, wt.h. Plasticizer brand "Edos" or dibutyl phthalate 0.5 1.6
Rapeseed or hydraulic oil (IGP 20) 0.5 1.6
Soot (technical carbon) 0.005 0.015
Aluminum powder 0.01 0.02
Fat soluble dye 0.05 0.1
Technical Acetone 24 28
Polyether urethane brand Vitur R-0512
and the fabric base before dipping into the polymer solution is kept in water for 1 2 hours at a temperature of 20 30 ^o C, then squeezed in a centrifuge at a speed of 1500 2500 rpm for 1.5 2 min, and then immersed in a wire frame in a solution polymer for 5 10 s in the "cuff up" position, then incubated in air under normal conditions in the frame position "cuff up" and "cuff down" for 1.5 2 min and 0.5 1 min, respectively, after which they are again immersed into water at a temperature of 20 - 35 ^o C for 2 to 6 hours, then incubated in air in the position of the frame "about bhlag down "for 15 to 20 minutes and dried at a temperature of 50 to 70 ^o C for 10 to 12 hours

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