CN202584961U - Device using ultraviolet light curing technology to synchronously produce a number of fiber insulating sleeves - Google Patents

Abstract

The utility model discloses a device using an ultraviolet light curing technology to synchronously produce a number of glass fiber insulating sleeves. The device comprises a parison tube guide device, a coating device, a light source system, a sleeve traction device and a resin mixing and preheating kettle. The parison tube guide device is located at the most significant front end. The coating device is located behind the parison tube guide device. The light source system is located above the coating device. The sleeve traction device is located at the rearmost end. The resin mixed and preheating kettle is located obliquely above the coating device and is connected with the coating device through a feed tube. The light source system comprises a lens hood, a center lamp tube capable of producing ultraviolet light and reflectors. The lens hood forms a closed box, and the center lamp tube and the reflectors are in the lens hood. The number of the reflectors is at least two. The reflectors are evenly distributed in the same horizontal plane. The cross-section of a reflector is shaped as a semiellipse. One of the focal points of all reflectors is coincided, and the central lamp tube is located at the coincided focal point. According to the utility model, the utilization rate of light sources and energy sources is improved.

Description

Equipment with UV-curing technology synchronous production plurality of fibers insulating sleeve

Technical field

The utility model relates to producd fibers bushing apparatus technical field, particularly relates to a kind of equipment with UV-curing technology synchronous production plurality of fibers insulating sleeve.

Background technology

The method production that present domestic glass fibre sleeve generally adopts solvent type insulating varnish to cure through heating, its shortcoming have " two-supremes one is low ", i.e. highly energy-consuming, high pollution, poor efficiency.And adopt UV-curing technology and solvent-free photocurable formulation well to address the above problem, have the advantage of " two low height " such as low power consuming, low pollution, high efficiency.Patent CN 101665656A discloses a kind of prescription and preparation technology who is used to produce the ultraviolet curable insulating paint of glass fiber insulating sleeve; But accomplish sending into from the tubulose glass; The coating of photocureable coating; Radiation curing to the integrated production of cutting off, pack is online, needs specially, the uv equipment of tubulose efficiently.Curing about the tubular material surface coating; U.S. Pat 20020155229 A1 disclose a kind of ultraviolet light polymerization equipment that is applicable to single continuous tubular material; But what be primarily aimed at is the curing of single tubing (like optical fiber) and thin coating film (＜50 μ m), does not solidify when being suitable for many tubing.Be applied to of the requirement of glassfiber insulation flexible pipe because of mechanical property and insulation property; To the photocuring matrix resin molecular weight, the consumption of reactive diluent, the thickness (about 100 μ m) of filming etc. strict requirement is all arranged, use the equipment that fiber optic, light is solidified can not satisfy of the requirement of glassfiber insulation flexible pipe to film thickness and mechanical property.In addition; The flourishing country of foreign technology is useful on the uv equipment of complex three-dimensional configurations such as automobile, wood furniture; But be applied on the ultraviolet light polymerization product of tubular materials such as glass fibre sleeve, enamelled wire, cost performance is not high, and is unfavorable for the raising of efficient.A kind ofly be applicable to continuous production curing glass fiber hose insulating sleeve; System and the proposition of way of comprise surface-coated, solidifying the photocuring of many tubing still belong to the first time, and the equipment that is used for photocuring technology producd fibers insulating sleeve is not seen relevant manufacturer production and report yet.

The utility model content

The utility model technical problem to be solved is to above-mentioned needs of the prior art and a kind of equipment with many glass fiber insulating sleeves of UV-curing technology synchronous production of designing; This equipment is through mixed with resin and preheat still to the coating unit continuous feeding; When the glass fiber insulating sleeve embryonic tube in coating unit after applying; The high reflective aluminum reflector that is employed in two of even distributions of the center fluorescent tube that is positioned at the center or above half elliptic cross section on every side carries out ultraviolet reflection and solidifies, thus many glass fiber insulating sleeves of synchronous production.

The technical problem that the utility model requires to solve can realize through following technical scheme:

A kind of equipment with many glass fiber insulating sleeves of UV-curing technology synchronous production comprises base pipe guiding arrangement, coating unit, light-source system, sleeve pipe draw-gear, mixed with resin and preheats still that said base pipe guiding arrangement is positioned at foremost; Said coating unit is positioned at base pipe guiding arrangement rear, and said light-source system is positioned at the coating unit top, and said sleeve pipe draw-gear is positioned at rearmost end; Said mixed with resin with preheat the oblique upper that still is positioned at coating unit; It is communicated with coating unit through feed pipe, and said light-source system comprises light shield, can produce center fluorescent tube, the reflector of ultraviolet light, and said light shield forms the case shape of a sealing; Said center fluorescent tube and reflector are in light shield; Said reflector is at least two, in same horizontal plane, evenly distributes, and said reflector shape of cross section is the semiellipse shape; And one of them focus of all reflectors overlaps, and said center fluorescent tube is positioned at the along of said coincidence.

Said light-source system also comprises cooling system, and said light-source system also comprises cooling system, and said cooling system comprises fin, blower fan, ajutage, fan housing; Said fin has fin, after its two ends are fixed on reflector, between said reflector the space is arranged; Said blower fan is positioned at each reflector gap; The blower fan front end is connected with ajutage, is covered with fan housing on the ajutage, and said reflector is high reflective aluminum reflector.

Said coating unit has two-layer, and internal layer is for being coated with inflammatory blepharoedema, and skin is a heating bowl; Be inlaid with the heating packing ring in the heating base of said heating bowl bottom, the heating packing ring comprises inside and outside heating ring, and said heating bowl has the hole with the bottom that is coated with inflammatory blepharoedema; Being used for the base pipe passes through; The quantity in hole and the center in hole identical with the quantity of heating panel and another focus of heating panel are positioned on the same vertical curve, and the pore size in said hole can be regulated, and the inside and outside heating ring of said heating packing ring lays respectively at the both sides in said hole; Said being coated with has the solid thermal insulation medium between inflammatory blepharoedema and heating bowl; The said inflammatory blepharoedema top that is coated with is provided with takeoff knife, has on the said takeoff knife and the corresponding hole of base apertures, and the aperture in hole also can be regulated on the said takeoff knife.

The upper and lower of said light-source system all is equipped with the heating muff that temperature can be regulated.

Owing to adopted as above technical scheme, the utlity model has following characteristics:

Overcome the low shortcoming of photocuring light source utilization ratio of the tubular material of traditional multiple light courcess-single tube material, adopted the mode of single fluorescent tube-many tubing to improve the utilization rate of light source, the energy.

Description of drawings

Fig. 1 connects sketch map for the utility model primary structure.

Fig. 2 is the plan structure sketch map of the utility model light-source system.

Fig. 3 is the utility model coating unit plan structure sketch map.

Fig. 4 is the utility model coating unit cutaway view.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and be easy to understand understanding with effect, below in conjunction with concrete diagram, further set forth the utility model.

As shown in Figure 1, the utility model comprises base pipe guiding arrangement 100, coating unit 200, light-source system 300, sleeve pipe draw-gear 400, mixed with resin with preheat still 500.Base pipe guiding arrangement 100 is positioned at foremost; Its rear is provided with coating unit 200; Light-source system 300 be positioned at coating unit 200 directly over, sleeve pipe draw-gear 400 is positioned at the rear of coating unit 200, mixed with resin with preheat the oblique upper that still 500 is positioned at coating unit 200; Be communicated with coating unit 200 through feed pipe 600, guarantee photocureable coating without interruption.

As shown in Figure 2, the utility model light-source system 300 comprises light shield 310, center fluorescent tube 320, high reflective aluminum reflector 330, fin 340, blower fan 350, ajutage 360, fan housing 370.Light shield 310 surrounds a case shape; High reflective aluminum reflector 330 has three; Being shaped as cross section is that half elliptic cylinder constitutes; A focal line of oval cylinder is as the position of the center line of center fluorescent tube 320, and an other focal line respectively is 120 degree arranges, as the position of center line of glass fiber tubulose base material.The reflector of this single fluorescent tube-many tubing-center fluorescent tube design is the reflectivity properties according to ellipse; Be that the light that sent by the center fluorescent tube 320 that can produce linear ultraviolet light (being a focus of elliptic cylinder) is after high reflective aluminum reflector 330 reflections; Evenly focus to glass fiber tubulose substrate surface (being another focus), accomplish the curing of photocureable coating at substrate surface.Use high reflective aluminum reflector 330, its reflecting rate can reach more than 90%, guarantees the uniformity of irradiation to substrate surface light intensity.High reflective aluminum reflector 330 quantity can be distributed in around the center fluorescent tube 320 for more than two or three.

Light-source system 300 has also comprised the wind formula cooling system that is used for 320 coolings of center fluorescent tube, comprises the fin 340 as the band fin formula of copper matrix, is fixed on the outside of high reflective aluminum reflector 330, uses the mode of spot welding that both are combined closely.Blower fan 350 is positioned at the intersection gap of half and half elliptoid reflector 330, is connected with ajutage 360 before the blower fan, is covered with fan housing 370 before the ajutage 360, and the wind that blower fan 350 is heaved blows on the center fluorescent tube 320 360 through ajutage 360.Fan housing 370 is to reduce in the exhausting cooling procedure, and dust gets into the damage of 300 pairs of ultraviolet lamps of light-source system.Blower fan 350 residing position decentre fluorescent tubes 320 are nearest, help the cooling of center fluorescent tube 320, simultaneously base material do not had direct wind again.

Light-source system 300 can be divided into multilayer as required, the arranging as previously mentioned of each layer, and the mode that multilayer is arranged has improved the irradiation length of tubulose base material, has prolonged exposure time, improves the efficient of the radiation curing of sleeve pipe.

Like Fig. 3, shown in Figure 4; Requirement for mechanical properties such as the pliability that satisfies insulating sleeve, intensity; The matrix resin that is used to prepare curing glass fiber insulation sleeve pipe need reach certain HMW, and the amount of the reactive diluent of the small-molecular weight in the prescription can not be too much, and this often is accompanied by the rising of viscosity; And then the thickness that causes filming rises, and is unfavorable for producing.The rising of temperature can reduce the viscosity of resin, be to reduce the viscosity of resin, adopts the mode to the resin heating, heated type coating unit 200 be positioned at light-source system 300 under,

Coating unit 200 has two-layer, and internal layer is for being coated with inflammatory blepharoedema 210, and skin is a heating bowl 220; Be inlaid with heating packing ring 222 in the heating base 221 of heating bowl 220 bottoms, heating packing ring 222 comprises inside and outside heating ring, and heating bowl 220 has hole 230 with the bottom that is coated with inflammatory blepharoedema 210; Being used for the base pipe passes through; The pore size in hole 230 can be regulated, and the inside and outside heating ring of heating packing ring 222 lays respectively at the both sides in hole 230, adds thermal gradient with minimizing; Be coated with inflammatory blepharoedema 210 and be used for the splendid attire light-cured resin; Thermal insulation medium 240 is positioned at and is coated with 220 of inflammatory blepharoedema 210 and heating bowls; Being used for heat transmits and insulation to light-cured resin; Because of coating unit 200 is upper and lower opening formulas, thermal insulation medium 240 uses solid dielectric, and the temperature of system can be through being arranged in the temp probe monitoring and control that is coated with inflammatory blepharoedema 210.Be coated with inflammatory blepharoedema 210 tops and be provided with takeoff knife 250, have hole 251 on the said takeoff knife 250, the aperture in hole 251 also can be regulated on the takeoff knife 250.The thickness that insulating sleeve is filmed is regulated through the hole 251 that is positioned at the takeoff knife 250 that is coated with inflammatory blepharoedema 210 tops, and the center of the center in hole 251 and base apertures 230 and base tube hub are on same straight line on the takeoff knife 250.

The heating muff 700 of filming that the below of light-source system 300 has temperature to regulate, the reprocessing heating muff 800 that the top has temperature to regulate.The heating muff 700 of filming is used to improve curing temperature, and then improves the conversion ratio of cured film and be used to reduce the thickness of filming, and temp probe places the inboard monitoring of sleeve pipe heating-up temperature; Reprocessing heating muff 800 is equipped with in the top of light-source system, is used for the thick reprocessing of filming of photocuring to reduce thick internal stress of filming and to can be used for the hot curing in light-Re dual cure later stage.

Production procedure: glass fiber base pipe gets into coating unit 200 through 100 guiding of base pipe guiding arrangement; Japanning in coating unit 200, through the thickness of takeoff knife 250 adjusting paint films, the back is just like light-source system 300; The base pipe that applies light-cured resin is through light-source system 300 film-formings; After 400 guiding of sleeve pipe draw-gear are collected rolling, whole process of production just is through with.

More than show and described the advantage of basic principle, principal character and the utility model of the utility model.The technical staff of the industry should understand; The utility model is not restricted to the described embodiments; The principle of describing in the foregoing description and the specification that the utility model just is described; The utility model also has various changes and modifications under the prerequisite that does not break away from the utility model spirit and scope, and these variations and improvement all fall in the utility model scope that requires protection.The utility model requires protection range to be defined by appending claims and equivalent thereof.

Claims (4)

1. the equipment with many glass fiber insulating sleeves of UV-curing technology synchronous production is characterized in that, comprises base pipe guiding arrangement, coating unit, light-source system, sleeve pipe draw-gear, mixed with resin and preheats still; Said base pipe guiding arrangement is positioned at foremost, and said coating unit is positioned at base pipe guiding arrangement rear, and said light-source system is positioned at the coating unit top; Said sleeve pipe draw-gear is positioned at rearmost end, said mixed with resin with preheat the oblique upper that still is positioned at coating unit, it is communicated with coating unit through feed pipe; Said light-source system comprises light shield, can produce center fluorescent tube, the reflector of ultraviolet light; Said light shield forms the case shape of a sealing, and said center fluorescent tube and reflector are in light shield, and said reflector is at least two; In same horizontal plane, evenly distribute; Said reflector shape of cross section is the semiellipse shape, and one of them focus coincidence of all reflectors, and said center fluorescent tube is positioned at the along of said coincidence.

2. the equipment with many glass fiber insulating sleeves of UV-curing technology synchronous production as claimed in claim 1 is characterized in that said light-source system also comprises cooling system; Said cooling system comprises fin, blower fan, ajutage, fan housing, and said fin has fin, after its two ends are fixed on reflector; Between said reflector the space is arranged, said blower fan is positioned at each reflector gap, and the blower fan front end is connected with ajutage; Be covered with fan housing on the ajutage, said reflector is high reflective aluminum reflector.

3. the equipment with many glass fiber insulating sleeves of UV-curing technology synchronous production as claimed in claim 1 is characterized in that said coating unit has two-layer; Internal layer is for being coated with inflammatory blepharoedema, and skin is a heating bowl, is inlaid with the heating packing ring in the heating base of said heating bowl bottom; The heating packing ring comprises inside and outside heating ring; Said heating bowl has the hole with the bottom that is coated with inflammatory blepharoedema, is used for the base pipe and passes through, and the quantity in hole and the center in hole identical with the quantity of heating panel and another focus of heating panel are positioned on the same vertical curve; The pore size in said hole can be regulated; The inside and outside heating ring of said heating packing ring lays respectively at the both sides in said hole, and said being coated with has the solid thermal insulation medium between inflammatory blepharoedema and heating bowl, and the said inflammatory blepharoedema top that is coated with is provided with takeoff knife; Have on the said takeoff knife and the corresponding hole of base apertures, the aperture in hole also can be regulated on the said takeoff knife.

4. like claim 1 or 2 or 3 described equipment, it is characterized in that the upper and lower of said light-source system all is equipped with the heating muff that temperature can be regulated with many glass fiber insulating sleeves of UV-curing technology synchronous production.

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