CN115463811A - Ultraviolet glass fiber reinforced plastic curing device - Google Patents

Abstract

The invention relates to the technical field of curing equipment, and discloses an ultraviolet glass fiber reinforced plastic curing device, which comprises: the pipeline roller carrier units are arranged in pairs and are used for supporting the pipeline and driving the pipeline to rotate around the central axis of the pipeline; and the ultraviolet curing lamp unit is arranged on one side of the pipeline roller frame unit and is used for irradiating the glass fiber reinforced plastic heat insulation layer on the curing pipeline in the rotation of the pipeline. This ultraviolet ray glass steel solidification equipment, ultraviolet curing lamp unit can shine pivoted (low temperature) pipeline comprehensively, and the outer glass steel heat preservation of pipeline is effectively solidified to make pipeline, glass steel heat preservation form an organic whole structure. The number of joints of the pre-insulating system is reduced through the integrated design, and the cold leakage risk is reduced fundamentally; the heat conductivity coefficient of the glass fiber reinforced plastic heat-insulating layer is very low, and the heat-insulating effect is good; the service life is prolonged, and the cost of the full service period is reduced. And the labor cost can be reduced, and the manufacturing method is simple and easy to operate.

Description

Ultraviolet glass fiber reinforced plastic curing device

Technical Field

The invention relates to the technical field of curing equipment, in particular to an ultraviolet glass fiber reinforced plastic curing device.

Background

The low-temperature pipeline is a seamless steel pipe for a low-temperature pressure container pipeline and a low-temperature heat exchanger pipeline which are suitable for the temperature of minus 45 ℃ to minus 195 ℃, has the functions of conveying fluid media and transferring fluid power and information, and is suitable for conveying refrigerants in equipment in the industries of petrochemical industry, refrigeration, shipbuilding and the like. Generally, the pipelines need low-temperature heat preservation treatment, otherwise, after external heat penetrates into the pipelines from the surfaces of the pipelines, a large amount of low-temperature fluid media in the pipelines can be gasified to form evaporation gas, the pressure in the pipelines is increased sharply, and risks are caused to normal work of the low-temperature pipelines. When the pressure increases to a certain extent, the safety valve will automatically open to release the pressure, causing a loss of these media. Therefore, the low-temperature pipeline needs to be subjected to heat preservation treatment.

The traditional heat preservation mode is to use half shell-and-tube materials such as polyurethane, polystyrene foam (EPS), foam glass, rubber and plastic sponge to coat on site, and the traditional heat preservation mode has the following problems, such as: the utilization rate of the heat insulation material is low during cutting; the cold insulation material is thrown, and is difficult to transport; the number of seams is large, and the risk of cold leakage is high; a large amount of glue products must be used; the construction period is uncontrollable; the storage space of the on-site heat insulation material is insufficient; the sealing performance of the metal outer protection system fails, and the like.

Disclosure of Invention

The invention aims to provide an ultraviolet glass fiber reinforced plastic curing device, which solves the technical problems that in the prior art, the pipeline is subjected to heat preservation, the number of seams is large, and the cold leakage risk is high. The ultraviolet glass fiber reinforced plastic curing device can be used for manufacturing pre-insulated pipes.

In order to achieve the purpose, the invention adopts the technical scheme that:

an ultraviolet ray glass fiber reinforced plastic curing device comprises:

the pipeline roller carrier units are arranged in pairs and are used for supporting the pipeline and driving the pipeline to rotate around the central axis of the pipeline;

and the ultraviolet curing lamp unit is arranged on one side of the pipeline roller carrier unit and is used for irradiating the glass fiber reinforced plastic heat-insulating layer on the curing pipeline in the rotation of the pipeline.

Preferably, the ultraviolet curing lamp unit is set as an ultraviolet curing lamp unit with an adjustable posture and is used for matching with the pipeline roller frame unit and the pipeline on the pipeline roller frame unit.

Preferably, the ultraviolet curing lamp unit includes a base frame; the main lamp frame moving towards the pipeline roller frame unit is connected onto the underframe in a sliding manner; the main lamp bracket is provided with rows of ultraviolet curing lamps, and the ultraviolet curing lamps are distributed along the length direction of the pipeline.

Preferably, the rows of ultraviolet curing lamps comprise a top row of ultraviolet curing lamps fixed at the top of the main lamp bracket and a bottom row of ultraviolet curing lamps fixed at the bottom of the main lamp bracket; the posture of the bottom row ultraviolet curing lamp is adjustable.

Preferably, the bottom row ultraviolet curing lamps are connected to the lower ends of the bottom row lamp brackets, and the upper ends of the bottom row lamp brackets are hinged with the main lamp bracket; the bottom row lamp holder is provided with an arc-shaped clamping plate, and the clamping plate is provided with a clamping hole.

Preferably, paired sliding strips are fixedly arranged at two ends of the underframe, and the length direction of the sliding strips is perpendicular to the pipeline; and a sliding block connecting rod is connected above each sliding strip through a first sliding block and a second sliding block.

Preferably, the main lamp holder comprises two upright posts; the first ends of the two upright posts are hinged on different sliding block connecting rods and are arranged at the first ends of the sliding block connecting rods in a matching way; the second end of the upright post is hinged with one end of a connecting plate, the other end of the connecting plate is connected with the first end of a groove pipe in a sliding mode, and the second end of the groove pipe is hinged with the second end of the sliding block connecting rod; and the connecting plate and the groove pipe are provided with screw rod assemblies for driving the connecting plate to stretch.

Preferably, a groove plate is arranged between the connecting plate and the upright post, one end of the groove plate is hinged to the upright post, and a groove body is arranged on the groove plate and is movably connected with the connecting plate through the groove body.

Preferably, the pipeline roller frame unit is fixed on the roller frame connecting seat, and each pipeline roller frame unit comprises a first roller assembly and a second roller assembly which are matched with each other.

Preferably, the roller frame connecting seat is respectively provided with a screw rod assembly for driving the first roller assembly and the second roller assembly to move oppositely.

The invention has the beneficial effects that:

this ultraviolet ray glass steel solidification equipment, ultraviolet curing lamp unit can shine pivoted (low temperature) pipeline comprehensively, and the outer glass steel heat preservation of pipeline is effectively solidified to make pipeline, glass steel heat preservation form an organic whole structure. The number of joints of the pre-insulating system is reduced through the integrated design, and the cold leakage risk is reduced fundamentally; the heat conductivity coefficient of the glass fiber reinforced plastic heat-insulating layer is very low, and the heat-insulating effect is good; the service life is prolonged, and the cost of the full service period is reduced. And the labor cost can be reduced, and the manufacturing method is simple and easy to operate.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment and a second embodiment of the present invention;

FIG. 2 is a schematic perspective view of FIG. 1;

reference numerals:

1-top row of ultraviolet curing lamps; 2-bottom row ultraviolet curing lamps; 3-upright column; 4-bottom row lamp holder; 5-connecting plates; 6-a grooved tube; 7-a groove plate; 8-clamping plate; 9-a first screw rod; 10-a first hand wheel; 11-a first slider; 12-a second slide; 13-a slider link bar; 14-a chassis; 15-a slide bar; 16-a brake body; 17-a first brake lever; 18-a second brake lever; 19-a first footing; 20-a first roller; 21-a second roller; 22-a first roller carriage; 23-a second roller carriage; 24-a first motor; 25-a second motor; 26-limit stop; 27-a roller frame base; 28-a second screw rod; 29-a second hand wheel; 30-a third screw rod; 31-a third hand wheel; 32-roller carrier attachment seats; 33-a base; 34-a second footing; 35-third footing; 36-an ultraviolet curing lamp unit; 37-a main lamp holder; 38-a first roller assembly; 39-a second roller assembly; 40-pipeline roller frame unit.

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure of the present invention.

Please refer to the attached drawings. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

Example one

Referring to fig. 1 and 2, the present invention provides an ultraviolet curing apparatus for glass fiber reinforced plastic, comprising: a duct roller frame unit 40, an ultraviolet curing lamp unit 36; the pipeline roller frame units 40 are arranged in pairs and used for supporting pipelines and driving the pipelines to rotate around the central axes; the ultraviolet curing lamp unit 36 is arranged on one side of the pipeline roller frame unit 40 and is used for irradiating and curing the glass fiber reinforced plastic insulating layer on the pipeline in the rotation of the pipeline.

The ultraviolet curing lamp unit 36 is an ultraviolet curing lamp unit 36 with an adjustable posture, and is used for matching with the pipeline roller frame unit 40 and the pipeline thereon. Specifically, the ultraviolet curing lamp unit 36 includes a base frame 14; a main lamp bracket 37 moving towards the pipeline roller bracket unit 40 is connected on the underframe 14 in a sliding way; the main lamp holder 37 is provided with rows of ultraviolet curing lamps, and the ultraviolet curing lamps are distributed along the length direction of the pipeline. The rows of ultraviolet curing lamps comprise a top row of ultraviolet curing lamps 1 fixed at the top of the main lamp bracket 37 and a bottom row of ultraviolet curing lamps 2 fixed at the bottom of the main lamp bracket 37; the posture of the bottom row ultraviolet curing lamp 2 is adjustable. Further, the bottom row ultraviolet curing lamps 2 are connected to the lower ends of the bottom row lamp frames 4, and the upper ends of the bottom row lamp frames 4 are hinged to the main lamp frame 37; an arc-shaped clamping plate 8 is arranged on the bottom row of lamp frames 4, and clamping holes are formed in the clamping plate 8.

In addition, paired sliding strips 15 are fixedly arranged at two ends of the underframe 14, and the length direction of the sliding strips 15 is perpendicular to the pipeline; a slide block connecting rod 13 is connected above each slide bar 15 through a first slide block 11 and a second slide block 12.

Moreover, the main lamp holder 37 includes two columns 3; the first ends of the two upright posts 3 are hinged on different sliding block connecting rods 13 and are arranged at the first ends of the sliding block connecting rods 13 in a matching way; the second end of the upright post 3 is hinged with one end of a connecting plate 5, the other end of the connecting plate 5 is connected with the first end of a groove pipe 6 in a sliding manner, and the second end of the groove pipe 6 is hinged with the second end of a slide block connecting rod 13; and the connecting plate 5 and the groove pipe 6 are provided with screw rod assemblies for driving the connecting plate 5 to stretch.

A groove plate 7 can be arranged between the connecting plate 5 and the upright post 3, one end of the groove plate 7 is hinged on the upright post 3, and a groove body is arranged on the groove plate 7 and is movably connected with the connecting plate 5 through the groove body.

Furthermore, the duct roller frame units 40 are fixed on the roller frame connecting base 32, and each duct roller frame unit 40 includes a first roller assembly 38 and a second roller assembly 39 which are matched with each other.

Finally, the roller frame connecting seat 32 is respectively provided with a screw assembly for driving the first roller assembly 38 and the second roller assembly 39 to move towards each other.

The operation of the UV GRP curing apparatus is described in example II below.

Example two

Referring to fig. 1 and 2, the present invention provides an ultraviolet curing apparatus for glass fiber reinforced plastic, which is described below in terms of industrial application.

The invention provides an ultraviolet glass fiber reinforced plastic curing device for manufacturing a pre-insulated pipe, which comprises an ultraviolet curing lamp unit 36 and a pipeline roller frame unit 40; the ultraviolet curing lamp unit 36 comprises a top row of ultraviolet curing lamps 1, a bottom row of ultraviolet curing lamps 2, a stand column 3, a bottom row of lamp frames 4, a connecting plate 5, a groove tube 6, a groove plate 7, a clamping plate 8, a first screw rod 9, a first hand wheel 10, a first sliding block 11, a second sliding block 12, a sliding block connecting rod 13, a bottom frame 14, a sliding strip 15, a brake main body 16, a first brake rod 17, a second brake rod 18 and a first foot 19; the pipeline roller frame unit 40 comprises a first roller 20, a second roller 21, a first roller bracket 22, a second roller bracket 23, a first motor 24, a second motor 25, a limit stop 26, a roller frame base 27, a second screw rod 28, a second hand wheel 29, a third screw rod 30, a third hand wheel 31, a roller frame connecting seat 32, a base 33, a second foot 34 and a third foot 35; as shown in fig. 1.

Wherein, the first lead screw 9 is connected with the first hand wheel 10. One end of a first screw rod 9 is fixed on the groove pipe 6, the other end is fixed on the connecting plate 5, and the irradiation angle of the top row ultraviolet curing lamp 1 is adjusted by rotating the first screw rod 9. The first screw rod 9, the first hand wheel 10 and the fixing base connected with the groove pipe 6 and the connecting plate 5 form a screw rod component.

The clamping plate 8 is connected with the bottom row of lamp racks 4. The irradiation angle of the ultraviolet curing lamp 2 in the bottom row is adjusted by pushing the clamping plate 8.

The main lamp holder 37 slides on the slide bar 15 through the first slide block 11 and the second slide block 12 to adjust the distance between the ultraviolet curing lamp unit 36 (and the top row of ultraviolet curing lamps 1 and the bottom row of ultraviolet curing lamps 2) and the pipeline. The main lamp holder 37 fixes the position of the main lamp holder 37 through the brake main body 16, the first brake lever 17 and the second brake lever 18.

In the duct roller frame unit 40, the second screw 28 is connected to the second wheel 29. The third screw 30 is connected with a third hand wheel 31. The distance between the first roller 20 and the second roller 21 is adjusted by a third screw rod 30 and a second screw rod 28. The second lead screw 28 and the second hand wheel 29 can form a lead screw component which is matched with the second roller component 39 (mainly composed of the second roller 21, the second roller bracket 23 and the second motor 25), and the third lead screw 30 and the third hand wheel 31 can form a lead screw component which is matched with the first roller component 38 (mainly composed of the first roller 20, the first roller bracket 22 and the first motor 24).

The connection relationship between some parts is simple, and is shown clearly in fig. 1 and 2, and is not described again.

The ultraviolet glass fiber reinforced plastic curing device has the working conditions that:

the pipeline is placed on the pipeline roller frame unit 40 to be driven to rotate by the pipeline roller frame unit 40. And the ultraviolet curing lamp unit 36 may be adjusted to maintain a proper distance from the pipe by sliding the first and second sliders 11 and 12 on the slide bar 15. After the position of the main lamp holder 37 is determined, the main lamp holder 37 is fixed by the brake main body 16, the first brake lever 17 and the second brake lever 18 to be prevented from moving back and forth. Then, the first hand wheel 10 is shaken to drive the connected first screw rod 9 to rotate, and the top row ultraviolet curing lamp 1 can be adjusted to a proper irradiation angle to irradiate the pipeline on the pipeline roller frame unit 40; and the bottom row ultraviolet curing lamps 2 can be adjusted to a proper irradiation angle to correspond to the pipeline by pushing the clamping plate 8. The pipeline finishes the solidification of the glass fiber reinforced plastic heat-insulating layer in the rotation process.

In the pipe roller frame unit 40, the first roller 20 is driven by the first motor 24 to roll, the second roller 21 is driven by the second motor 25 to roll, and the pipe is rotated by the rolling of the rollers. The second connecting screw 28 is driven by shaking the second hand wheel 29, and the third connecting screw 30 is driven by shaking the third hand wheel 31, so as to adjust the distance between the first roller 20 and the second roller 21, thereby adapting to different pipe diameters.

Compared with the prior art, the ultraviolet glass fiber reinforced plastic curing device for manufacturing the pre-insulated pipe has the following advantages:

(1) By adjusting the distance between the main lamp holder 37 and the pipe in a sliding manner, after the position of the main lamp holder 37 is determined, the brake main body 16 and the brake lever fix the lamp holder to prevent the lamp holder from moving back and forth.

(2) The roller is driven to roll by the motor, so that the pipeline is driven to rotate, the glass fiber reinforced plastic is fully irradiated by ultraviolet rays, and the curing effect is better.

(3) The irradiation angle of the top row ultraviolet curing lamp 1 is adjusted by the rotation of the screw rod.

(4) The irradiation angle of the ultraviolet curing lamp 2 in the bottom row is adjusted by pushing the clamping plate 8.

(5) The distance between the rollers is adjusted through the screw rod, so that the diameter of the pipeline from 2 inches to 50 inches is adapted.

In general, the ultraviolet curing lamp in the device is used for irradiating and curing the glass fiber reinforced plastics (the glass fiber reinforced plastics are mainly made of glass fiber cloth, surfacing felt and resin) outside the low-temperature pipeline. The number of joints of the pre-insulating system is reduced through the integrated design, and the cold leakage risk is reduced fundamentally; the heat conductivity coefficient of the glass fiber reinforced plastic heat-insulating layer is very low, and the heat-insulating effect is good; the service life is prolonged, and the cost of the full service period is reduced. And the labor cost can be reduced, and the manufacturing method is simple and easy to operate.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. An ultraviolet ray glass steel curing device is characterized by comprising:

the pipeline roller carrier units are arranged in pairs and are used for supporting the pipeline and driving the pipeline to rotate around the central axis of the pipeline;

and the ultraviolet curing lamp unit is arranged on one side of the pipeline roller carrier unit and is used for irradiating the glass fiber reinforced plastic heat-insulating layer on the curing pipeline in the rotation of the pipeline.

2. The UV GRP curing apparatus of claim 1, wherein the UV lamp unit is configured as a posture-adjustable UV lamp unit for engaging the duct roller frame unit and the duct thereon.

3. The UV GRP curing apparatus of claim 1 or claim 2, wherein the UV curing lamp unit comprises a base frame; a main lamp frame moving towards the pipeline roller frame unit is connected on the underframe in a sliding manner; the main lamp bracket is provided with rows of ultraviolet curing lamps, and the ultraviolet curing lamps are distributed along the length direction of the pipeline.

4. The UV GRP curing apparatus of claim 1, wherein the rows of UV curing lamps comprise a top row of UV curing lamps mounted on the top of the main lamp frame and a bottom row of UV curing lamps mounted on the bottom of the main lamp frame; the posture of the bottom row ultraviolet curing lamp is adjustable.

5. The ultraviolet ray glass reinforced plastic curing device as claimed in claim 4, wherein the bottom row ultraviolet curing lamps are connected to the lower ends of the bottom row lamp brackets, and the upper ends of the bottom row lamp brackets are hinged with the main lamp bracket; the bottom row lamp holder is provided with an arc-shaped clamping plate, and the clamping plate is provided with a clamping hole.

6. The ultraviolet ray glass reinforced plastic curing device as claimed in claim 3, wherein paired slide bars are fixedly arranged at two ends of the underframe, and the length direction of the slide bars is perpendicular to the pipeline; and a sliding block connecting rod is connected above each sliding strip through a first sliding block and a second sliding block.

7. The ultraviolet ray glass reinforced plastic curing device as claimed in claim 6, wherein the main lamp holder comprises two upright posts; the first ends of the two upright posts are hinged on different slide block connecting rods and are arranged at the first ends of the slide block connecting rods in a matching way; the second end of the upright post is hinged with one end of a connecting plate, the other end of the connecting plate is connected with the first end of a groove pipe in a sliding mode, and the second end of the groove pipe is hinged with the second end of the sliding block connecting rod; and the connecting plate and the groove pipe are provided with screw rod assemblies for driving the connecting plate to stretch.

8. The ultraviolet curing device for glass fiber reinforced plastics as claimed in claim 7, wherein a trough plate is arranged between the connecting plate and the upright, one end of the trough plate is hinged to the upright, and a trough body is arranged on the trough plate and is movably connected with the connecting plate through the trough body.

9. The UV GRP curing apparatus of claim 1, wherein the duct roller frame units are fixed to the roller frame connecting base, and each duct roller frame unit comprises a first roller assembly and a second roller assembly that are engaged with each other.

10. The ultraviolet ray glass fiber reinforced plastic curing device as claimed in claim 9, wherein the roller frame connecting base is respectively provided with a screw assembly for driving the first roller assembly and the second roller assembly to move in opposite directions.

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