CN204938094U - A kind of high-tenacity individual layer aramid fiber conveying belt joint design - Google Patents

Abstract

The utility model relates to a kind of high-tenacity individual layer aramid fiber conveying belt joint design, belongs to rubber conveyor belt product technical field.It comprises individual layer aramid fiber directly through straight latitude canvas apron, described individual layer aramid fiber directly to intermesh splicing through the straight warp straight latitude aramid fiber canvas framework material of straight latitude canvas apron belt body two ends connector area, in stitching portion, canvas framework material upper and lower surface covers one deck sticking adhesive layer respectively, sticking adhesive layer is placed fabric as enhancement layer, enhancement layer covers the rubberizing of one deck for bonding again, then be bonded as one by upper and lower covering glue layer.The preparation-obtained product of the utility model has good strength of joint conservation rate, also can meet the requirement of individual layer aramid fiber conveying belt to dynamic flexural property simultaneously, and preparation method is simple simultaneously, economical and practical.

Description

A kind of high-tenacity individual layer aramid fiber conveying belt joint design

Technical field

The utility model relates to a kind of high-tenacity individual layer aramid fiber conveying belt joint design, and obtained product has good strength of joint conservation rate, also can meet the requirement of individual layer aramid fiber conveying belt to dynamic flexural property simultaneously, belong to rubber conveyor belt product technical field.

Background technology

In recent years, the fast development catalysis of the national economy continuous expansion of the manufacture such as iron and steel, cement scale, the improving constantly of production capacity, these are all that material conveyer belt industry brings larger opportunities and challenges.Client improves constantly belt intension specification requirement, but common plain weave canvas adopts the mode of lamination to improve intensity, and belt body is in the process through head roll, and the difference of each layer skeleton radius of curvature causes stressed difference.Strength specification improves, and the number of plies is more, and dynamic flexing performance is poorer, and belt body is also heavier.

Present stage, individual layer directly solved the problems referred to above well through the application of straight latitude aramid fiber conveying belt.Aramid fiber is a kind of fiber of high temperature resistant, high-modulus, high strength, and its density is only 1/4 of steel, and strength-to-density ratio is high.Individual layer directly can greatly reduce band body weight through straight latitude aramid fiber canvas as load-transfer device framework material, has the advantage that intensity is high, percentage elongation is little, thickness is thin, is very suitable for the comfortable property of long haul distance, large load.

But the structure of aramid fiber conveying belt individual layer casing play makes it be difficult to adopt the joint style of traditional step-lap.Deutsche Normen DIN22121 points out " joint of high strength individual layer or two-layer fabric core conveyer belt all uses finger-type connecting method to connect ", domestic also rarely having research and reporting about aramid fiber conveying belt finger-type joint.And discontinuous due to framework material of the form of finger-type splicing, strength of joint relies on the shearing strength value of sizing material bulk strength and adhesive interface completely, does not utilize the advantage of aramid fiber canvas framework material high-strength and high-modulus completely, and strength of joint conservation rate is low.

Stand in save and use enterprise cost, ensure the angle of its continuous seepage and use safety, develop a kind of more suitable jointing method, improve aramid fiber conveying belt strength of joint conservation rate and just seem particularly necessary.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of high-tenacity individual layer aramid fiber conveying belt joint design, can ensure aramid fiber conveying belt strength of joint conservation rate, meet the requirement of joint to dynamic flexural property.

According to the technical scheme that the utility model provides, a kind of high-tenacity individual layer aramid fiber conveying belt joint design, comprise individual layer aramid fiber directly through straight latitude canvas apron, individual layer aramid fiber directly forms with the upper belt body rubber cover and lower belt body rubber cover being covered in upper and lower two ends by being positioned at middle framework material through straight latitude canvas apron; Described individual layer aramid fiber directly splices mutually through the framework material two ends of straight latitude canvas apron, forms ring-type; In framework material stitching portion, upper and lower surface covers one deck clad respectively;

Described clad comprises overlap film, the first sticking adhesive layer, fabric enhancement layer and the second sticking adhesive layer from top to bottom successively; Described second sticking adhesive layer directly and framework material fit; Described aramid fiber is directly finger-type structure through the stitching portion of the framework material of straight latitude canvas apron.

The described clad being positioned at framework material upper and lower surface, the finger-type structure that framework material is formed all is longer than at two ends.

The long 900-3800mm of described clad, two ends exceed finger-type stitching portion 100-200mm respectively.

Described individual layer aramid fiber is directly through the finger-type structure that the framework material at straight latitude canvas apron two ends is spliced, and finger tip is 600-3500mm to the length of finger root, refers to that the width of root is 50-70mm.

The length of described finger-type structure is that individual layer aramid fiber is directly through 0.8-1.2 times of straight latitude canvas apron strength values.

Described fabric enhancement layer is plain weave aramid fiber canvas, and its warp-wise and individual layer aramid fiber are directly consistent through straight latitude canvas apron service direction, and two ends are waveform buffer structure; The intensity of fabric enhancement layer is that individual layer aramid fiber is directly through the 10%-20% of straight latitude canvas apron intensity.

The waveform semi arch radius at described fabric enhancement layer two ends is that 1/4 finger root is wide, i.e. 12.5-17.5mm.

The thickness of described first sticking adhesive layer is 0.5-1.5mm; The thickness of the second sticking adhesive layer is 0.8-2.5mm.

Described upper belt body rubber cover becomes 45 degree of ramped shaped with lower belt body rubber cover incision.

The preparation method of described high-tenacity individual layer aramid fiber conveying belt joint design, step is:

(1) peel off sizing material: get individual layer aramid fiber to be connected directly through straight latitude canvas apron, two ends connector area upper belt body rubber cover and lower belt body rubber cover are peeled off; After peeling off, remaining upper belt body rubber cover and lower belt body rubber cover end face prune groove at 45 °, and slope width is 50mm; Glue more than framework material surface is prescinded, notes the canvas surface avoiding scratching framework material;

(2) the remaining glue of polishing: step (1) gained individual layer aramid fiber is directly crude through the attached glue polishing of straight latitude canvas apron framework material surface, notes avoiding damaged bone frame material surface, prevents to polish polishing or incipient scorch phenomenon, sizing material around groove of simultaneously polishing; The buffings got off with industrial naptha and soft hairbrush cleaning rasion and dust foreign material, then be applied to framework material blanket surface with 120# aviation kerosene buffings and dust foreign material are volatilized further, keep framework material drying;

(3) finger-type is cut: directly directly docked through straight latitude aramid fiber canvas framework material port alignment through straight latitude canvas apron two ends connector area by individual layer aramid fiber, line of centers is drawn on framework material canvas surface along running direction of conveyor belt, identify every specific Zhi Gen width unit to both sides centered by it, draw finger-type; With cutter cutting, follow during cutting and stay few principle more, redundance is removed, keep the clean, smooth of cloth cover, to facilitate the expansion of splicing operation;

(4) cutting fabric enhancement layer: ensure that the warp direction of fabric enhancement layer is consistent with running direction of conveyor belt, line of centers is drawn on fabric enhancement layer surface, identify to both sides every 1/2 Zhi Gen width unit centered by it at fabric enhancement layer two end surfaces, refer to that root width draws semicircle for radius to be designated the center of circle, 1/4, ensure semicircle convex corresponding between referring to, refer to that the semicircle that root is corresponding concaves; With special cut-off knife cutting arc shape work piece, obtain the fabric enhancement layer with waveform buffer structure;

(5) brushing rubber cement: to step (3) gained individual layer aramid fiber directly through straight latitude canvas apron brushing rubber cement, even brushing rubber cement 2 times, first pass brushing thickness is 0.1mm, second time brushing thickness 0.2mm, ensure non-foaming, do not leak white, note dust and impurity are not mixed; Brush after each inferior rubber cement parches naturally, the tack-free but somewhat viscous of the glued membrane dried is advisable next time again; The mode of drying is that the air-dry or iodine-tungsten lamp of hot hair dryer is dried, and heating and temperature control is below 50 DEG C, and iodine-tungsten lamp power controls at below 50W;

(6) finger-type is spliced: by step (5) gained individual layer aramid fiber directly through the alignment of straight latitude canvas apron belt body joint two ends line of centers, the engagement that intersects is docked, and refers to a slots close split, does not interspace; By the position of finger tip warpage by flattening, prevent from bending occurring covering in glue process;

(7) shaping joint: overlay on step (6) gained individual layer aramid fiber directly through the upper and lower surface of straight latitude canvas apron finger-type framework material with the second sticking adhesive layer that thickness is 0.8-2.5mm, with cylinder roll extrusion sizing material surface back and forth, to drive the air be mingled with out of; Be covered with the fabric enhancement layer of step (4) gained after compacting again, ensure that the line of centers of fabric enhancement layer overlaps with the line of centers of framework material; Cover on fabric enhancement layer surface the first sticking adhesive layer that a layer thickness is 0.5-1.5mm again, after compacting, be covered with overlap film again;

(8) vulcanized joint: with two with individual layer aramid fiber directly through the iron holder for pile permanent joint both sides that straight latitude canvas apron belt body is contour, prevent finger-type joint design in sulfuration pressure process pressed to both sides occur lateral deformation; Finger-type joint is put into mobile vulcameter Pressurized-heated and carry out sulfuration; Wherein conditions of vulcanization should adopt the conditions of vulcanization consistent with individual layer aramid fiber conveying belt belt body, and namely temperature, time and pressure carry out sulfuration sizing; Curing temperature is 145-155 DEG C, and time of cure is 30-40min, and sulfide stress is 8-10MPa.

The beneficial effects of the utility model: the utility model adopts plain weave aramid fiber canvas as the fabric enhancement layer of finger-type joint; Plain weave aramid fiber canvas warp-wise intensity is high, experimental results demonstrate that the intensity compensation effect of fabric enhancement layer to finger-type joints method mainly relies on the intensity of fabric warp-wise, and plain weave canvas is compared cord fabric have better dimensional stability in broadwise, can compensate the longitudinal deformation of finger-type joint; Aramid fiber plain weave canvas is compared with EP canvas when thickness is identical simultaneously, has higher warp-wise intensity, at utmost can meet the requirement of individual layer aramid fiber conveying belt to dynamic flexural property.

The conveying band joint fabric enhancement layer two ends that the utility model provides adopt waveform buffer structure; Considerable damage experiment shows, the fracture position of finger-type joint occurs in fabric enhancement layer both sides, and this causes because the stress at bonding material place is concentrated.Wave semi arch structure design makes junction stress seamlessly transit while protection finger-type joint design, obtains good deflecting performance while ensureing strength of joint.

Accompanying drawing explanation

Fig. 1 is that individual layer is directly through the interlayer structure cutaway view of straight latitude aramid fiber canvas apron finger-type joint design.

Fig. 2 is that individual layer is directly through straight latitude aramid fiber canvas apron finger-type joint design birds-eye view.

Fig. 3 is that individual layer is directly through straight latitude aramid fiber canvas apron fabric enhancement layer waveform buffer structure schematic diagram.

Description of reference numerals: 1, overlap film; 2, the first sticking adhesive layer; 3, fabric enhancement layer; 4, the second sticking adhesive layer; 5, upper belt body rubber cover; 6, lower belt body rubber cover; 7, framework material.

Detailed description of the invention

Below by embodiment, the utility model is described further, but not as to restriction of the present utility model.

Embodiment 1

As Figure 1-3: a kind of high-tenacity individual layer aramid fiber conveying belt joint design, comprise individual layer aramid fiber directly through straight latitude canvas apron, individual layer aramid fiber directly forms with the upper belt body rubber cover and lower belt body rubber cover being covered in upper and lower two ends by being positioned at middle framework material through straight latitude canvas apron; Described individual layer aramid fiber directly splices mutually through the framework material two ends of straight latitude canvas apron, forms ring-type; In framework material stitching portion, upper and lower surface covers one deck clad respectively;

Described clad comprises overlap film, the first sticking adhesive layer, fabric enhancement layer and the second sticking adhesive layer from top to bottom successively; Described second sticking adhesive layer directly and framework material fit; Described aramid fiber is directly finger-type structure through the stitching portion of the framework material of straight latitude canvas apron.

The described clad being positioned at framework material upper and lower surface, the finger-type structure that framework material is formed all is longer than at two ends.

The long 900-3800mm of described clad, two ends exceed finger-type stitching portion 100-200mm respectively.

Described individual layer aramid fiber is directly through the finger-type structure that the framework material at straight latitude canvas apron two ends is spliced, and finger tip is 600-3500mm to the length of finger root, refers to that the width of root is 50-70mm.

The length of described finger-type structure is that individual layer aramid fiber is directly through 0.8-1.2 times of straight latitude canvas apron strength values.

Described fabric enhancement layer is plain weave aramid fiber canvas, and its warp-wise and individual layer aramid fiber are directly consistent through straight latitude canvas apron service direction, and two ends are waveform buffer structure; The intensity of fabric enhancement layer is that individual layer aramid fiber is directly through the 10%-20% of straight latitude canvas apron intensity.

The waveform semi arch radius at described fabric enhancement layer two ends is that 1/4 finger root is wide, i.e. 12.5-17.5mm.

The thickness of described first sticking adhesive layer is 0.5-1.5mm; The thickness of the second sticking adhesive layer is 0.8-2.5mm.

Described upper belt body rubber cover becomes 45 degree of ramped shaped with lower belt body rubber cover incision.

Embodiment 2

The preparation method of described high-tenacity individual layer aramid fiber conveying belt joint design, step is:

(1) peel off sizing material: get individual layer aramid fiber to be connected directly through straight latitude canvas apron, two ends connector area upper belt body rubber cover and lower belt body rubber cover are peeled off; After peeling off, remaining upper belt body rubber cover and lower belt body rubber cover end face prune groove at 45 °, and slope width is 50mm; Glue more than framework material surface is prescinded, notes the canvas surface avoiding scratching framework material;

(2) the remaining glue of polishing: step (1) gained individual layer aramid fiber is directly crude through the attached glue polishing of straight latitude canvas apron framework material surface, notes avoiding damaged bone frame material surface, prevents to polish polishing or incipient scorch phenomenon, sizing material around groove of simultaneously polishing; The buffings got off with industrial naptha and soft hairbrush cleaning rasion and dust foreign material, then be applied to framework material blanket surface with 120# aviation kerosene buffings and dust foreign material are volatilized further, keep framework material drying;

(3) finger-type is cut: directly directly docked through straight latitude aramid fiber canvas framework material port alignment through straight latitude canvas apron two ends connector area by individual layer aramid fiber, line of centers is drawn on framework material canvas surface along running direction of conveyor belt, identify every specific Zhi Gen width unit to both sides centered by it, draw finger-type; With cutter cutting, follow during cutting and stay few principle more, redundance is removed, keep the clean, smooth of cloth cover, to facilitate the expansion of splicing operation;

(4) cutting fabric enhancement layer: ensure that the warp direction of fabric enhancement layer is consistent with running direction of conveyor belt, line of centers is drawn on fabric enhancement layer surface, identify to both sides every 1/2 Zhi Gen width unit centered by it at fabric enhancement layer two end surfaces, refer to that root width draws semicircle for radius to be designated the center of circle, 1/4, ensure semicircle convex corresponding between referring to, refer to that the semicircle that root is corresponding concaves; With special cut-off knife cutting arc shape work piece, obtain the fabric enhancement layer with waveform buffer structure;

(5) brushing rubber cement: to step (3) gained individual layer aramid fiber directly through straight latitude canvas apron brushing rubber cement, even brushing rubber cement 2 times, first pass brushing thickness is 0.1mm, second time brushing thickness 0.2mm, ensure non-foaming, do not leak white, note dust and impurity are not mixed; Brush after each inferior rubber cement parches naturally, the tack-free but somewhat viscous of the glued membrane dried is advisable next time again; The mode of drying is that the air-dry or iodine-tungsten lamp of hot hair dryer is dried, and heating and temperature control is below 50 DEG C, and iodine-tungsten lamp power controls at below 50W;

(6) finger-type is spliced: by step (5) gained individual layer aramid fiber directly through the alignment of straight latitude canvas apron belt body joint two ends line of centers, the engagement that intersects is docked, and refers to a slots close split, does not interspace; By the position of finger tip warpage by flattening, prevent from bending occurring covering in glue process;

(7) shaping joint: overlay on step (6) gained individual layer aramid fiber directly through the upper and lower surface of straight latitude canvas apron finger-type framework material with the second sticking adhesive layer that thickness is 0.8mm, with cylinder roll extrusion sizing material surface back and forth, to drive the air be mingled with out of; Be covered with the fabric enhancement layer of step (4) gained after compacting again, ensure that the line of centers of fabric enhancement layer overlaps with the line of centers of framework material; Cover on fabric enhancement layer surface the first sticking adhesive layer that a layer thickness is 0.5mm again, after compacting, be covered with overlap film again;

(8) vulcanized joint: with two with individual layer aramid fiber directly through the iron holder for pile permanent joint both sides that straight latitude canvas apron belt body is contour, prevent finger-type joint design in sulfuration pressure process pressed to both sides occur lateral deformation; Finger-type joint is put into mobile vulcameter Pressurized-heated and carry out sulfuration; Wherein conditions of vulcanization should adopt the conditions of vulcanization consistent with individual layer aramid fiber conveying belt belt body, and namely temperature, time and pressure carry out sulfuration sizing; Curing temperature is 150 DEG C, and time of cure is 40min, and sulfide stress is 8MPa.

Claims (8)

1. a high-tenacity individual layer aramid fiber conveying belt joint design, comprise individual layer aramid fiber directly through straight latitude canvas apron, individual layer aramid fiber directly through straight latitude canvas apron by being positioned at middle framework material (7) and being covered in the upper belt body rubber cover (5) at upper and lower two ends and lower belt body rubber cover (6) forms; It is characterized in that: described individual layer aramid fiber is directly spliced to form ring-type mutually through framework material (7) two ends of straight latitude canvas apron; In framework material (7) stitching portion, upper and lower surface covers one deck clad respectively;

Described clad comprises overlap film (1), the first sticking adhesive layer (2), fabric enhancement layer (3) and the second sticking adhesive layer (4) from top to bottom successively; Described second sticking adhesive layer (4) directly and framework material (7) fit; Described aramid fiber is directly finger-type structure through the stitching portion of the framework material (7) of straight latitude canvas apron.

2. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 1, is characterized in that: described in be positioned at the clad of framework material (7) upper and lower surface, the finger-type structure that framework material (7) is formed all is longer than at two ends.

3. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 2, it is characterized in that: the long 900-3800mm of described clad, two ends exceed finger-type stitching portion 100-200mm respectively.

4. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 1, it is characterized in that: described individual layer aramid fiber is directly through finger-type structure that the framework material (7) at straight latitude canvas apron two ends is spliced, finger tip is 600-3500mm to the length of finger root, refers to that the width of root is 50-70mm.

5. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 1, it is characterized in that: described fabric enhancement layer (3) is plain weave aramid fiber canvas, its warp-wise and individual layer aramid fiber are directly consistent through straight latitude canvas apron service direction, and two ends are waveform buffer structure.

6. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 5, is characterized in that: the waveform semi arch radius at described fabric enhancement layer (3) two ends is that 1/4 finger root is wide, i.e. 12.5-17.5mm.

7. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 1, is characterized in that: the thickness of described first sticking adhesive layer (2) is 0.5-1.5mm; The thickness of the second sticking adhesive layer (4) is 0.8-2.5mm.

8. high-tenacity individual layer aramid fiber conveying belt joint design as claimed in claim 1, is characterized in that: described upper belt body rubber cover (5) becomes 45 degree of ramped shaped with lower belt body rubber cover (6) incision.