CN202897354U - Well abrasion-resistant conveyer belt - Google Patents
Well abrasion-resistant conveyer belt Download PDFInfo
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- CN202897354U CN202897354U CN201220443756XU CN201220443756U CN202897354U CN 202897354 U CN202897354 U CN 202897354U CN 201220443756X U CN201220443756X U CN 201220443756XU CN 201220443756 U CN201220443756 U CN 201220443756U CN 202897354 U CN202897354 U CN 202897354U
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- conveyer belt
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Abstract
A well abrasion-resistant conveyer belt comprises an upper cover layer, a lower cover layer and a glue layer with a core, wherein the glue layer with the core is arranged between the upper cover layer and the lower cover layer. The well abrasion-resistant conveyer belt further comprises a steel wire frame layer. The upper cover layer is formed by rubber and lubricating abrasion-resistant agent through heat treatment and provided with a well abrasion-resistant protective film layer, the lower cover layer is formed by sizing materials and active graphite powder through the heat treatment and low in resistance, a buffering elastic layer is arranged between the upper cover layer and the glue layer with the core, the upper cover layer, the buffering elastic layer and the glue layer with the core are through bonding forming to form a conveyer belt upper glue layer, the glue layer with the core and the low-resistance lower cover layer are through the bonding forming to form a conveyer belt lower glue layer, and the conveyer belt upper glue layer and the conveyer belt lower glue layer are covered on the upper surface and the lower surface of the steel wire frame layer and through vulcanizing forming to form a conveyer belt. The well abrasion-resistant conveyer belt is mainly capable of improving an abrasion-resistant property of an existing conveyer belt and prolonging service life of the conveyer belt.
Description
Technical field
The utility model belongs to the rubber conveyer belt field, relates to a kind of high wearing-proof conveyer belt, and this high wearing-proof conveyer belt is widely used in the field convey materials such as coal, mine, harbour metallurgy, electric power and chemical industry.
Background technology
The structure of existing load-transfer device comprises: upper caldding layer, lower caldding layer and be arranged on upper caldding layer and lower caldding layer between tissue layer.At present, load-transfer device on the market, particularly for Large Steel ironworks, mining area, in the time of need to carrying out large span, long distance conveying, the overplate of load-transfer device falls piece easily under material impact, and follow the string, tectal wear resisting property is relatively poor again, causes the overplate of load-transfer device and the bonding cohesive strength between the canvas sandwich layer sharply to descend, and makes load-transfer device play easily hole, layering; So that the life-span of load-transfer device greatly shorten, until lose value of service; In use need often to change load-transfer device, increased operator's labour intensity, can cause producing in the process of changing load-transfer device and interrupt, directly productive costs and the production efficiency of enterprise is used in impact.In addition, because distance, the speed of conveying is slower, and energy resource consumption is larger, directly has influence on the benefit of applying unit.
Therefore, how addressing the above problem, is the content that the utility model important research.
Summary of the invention
The utility model provides a kind of high wearing-proof conveyer belt, and its purpose mainly is to improve the wear resisting property of existing load-transfer device, and prolongs its service life.
For achieving the above object, the technical solution adopted in the utility model is: a kind of high-speed abrasion-proof load-transfer device, comprise upper caldding layer, lower caldding layer and be arranged on upper caldding layer and lower caldding layer between the belt carcass glue-line; Also comprise steel wire casing ply; Described upper caldding layer is the upper caldding layer with high abrasion protective film of being made through heat treatment by rubber and lubricating and wear-resisting agent; Described lower caldding layer is the low resistance lower caldding layer of being made through heat treatment by sizing material and Activated Graphite powder; Be provided with the buffering elastic layer between described upper caldding layer and the belt carcass glue-line; Described high abrasion upper caldding layer, buffering elastic layer and the bonding formation load-transfer device of belt carcass glue-line moulding upper glue layer; Described belt carcass glue-line and the bonding formation load-transfer device of low resistance lower caldding layer moulding lower glue layer; The upper and lower surface that described load-transfer device upper glue layer and load-transfer device lower glue layer cover steel wire casing ply forms load-transfer device through sulfidization molding.
Related content in the technique scheme is explained as follows:
1, in the such scheme, described steel wire casing ply is by transverse steel wire rope and the mutual overlapping net structure that forms of longitudinal steel wire rope, and the direction of described transverse steel wire rope and longitudinal steel wire rope is orthogonal, and the diameter of longitudinal steel wire rope is less than the diameter of transverse steel wire rope.
2, in the such scheme, described belt carcass glue-line is made of upper belt carcass glue-line and lower belt carcass glue-line; Described longitudinal steel wire rope is arranged in the middle of core glue-line and the lower belt carcass glue-line.
3, in the such scheme, the thickness of described upper caldding layer and lower caldding layer is 4 ~ 6mm.
4, in the such scheme, the thickness of described upper belt carcass glue-line and lower belt carcass glue-line is 3.5 ~ 6mm.
Because technique scheme is used, the utility model compared with prior art has following advantages:
1, the pulling strengrth of the utility model structure is large, shock resistance good, the life-span is long; Load-transfer device uses elongation little, and groove forming character is good, and flexible resistance is good, is suitable for long distance, long-range greatly, high-speed convey materials.The anti-intensity that rises of the utility model high wearing-proof conveyer belt is high than ordinary conveyer belt, and length is also longer, can reduce the change-over point station, saves power; Its wear resisting property is excellent, is particularly suitable for high speed high efficiency convey materials.
2, owing to upper caldding layer of the present utility model, wear resisting property is at 60mm
3Wear resisting property is stable; adopt one section rubber when mixing and lubricating and wear-resisting agent to heat-treat; the rubber structure voltinism can further be improved, form the high abrasion protective film, under the HI high impact condition; this protective film good springiness; friction coefficient is little, has reduced further inwardly transferring energy, erosion sizing material skeleton, thereby has well protected upper caldding layer and steel wire casing ply.
3, because the perpendicular version of the utility model steel wire casing ply employing transverse steel wire rope and longitudinal steel wire rope both had been convenient to processing and fabricating, also be conducive to guarantee its fastness.Because the application force that the application force that the longitudinal steel wire rope is received is subject to much smaller than the transverse steel wire rope, so the longitudinal steel wire rope adopts less diameter.The upper and lower of transverse steel wire rope arranges the longitudinal steel wire rope, has effectively strengthened the tensile strength of load-transfer device along its Width, has not only effectively strengthened the service life of load-transfer device, has also guaranteed the safety in the working process.
4, the utility model adds the buffering elastic layer between high abrasion upper caldding layer and belt carcass glue-line, because the elasticity of buffering elastic layer is better, have buffering sizing material high abrasion upper caldding layer and the suffered impulsive force of load-transfer device, reduce the operating load that belt body improves in the HI high impact condition.In addition, prevent upper caldding layer getting up early cracking embrittlement, slow down its aging rate; And kept binding force between upper caldding layer and the steel wire casing ply, prevent the layering of bubbling, thereby prolonged the service life of load-transfer device.
Description of drawings
Accompanying drawing 1 is the utility model perspective view;
Accompanying drawing 3 is the utility model longitudinal cross-section structural representation;
Accompanying drawing 4 is the utility model processing process figure.
In the above accompanying drawing: 1, upper caldding layer; 2, lower caldding layer; 3, belt carcass glue-line; 4, buffering elastic layer; 5, steel wire casing ply; 6, upper glue layer; 7, lower glue layer; 8, transverse steel wire rope; 9, longitudinal steel wire rope.
The specific embodiment
Below in conjunction with drawings and Examples the utility model is further described:
Embodiment:
Show such as Fig. 1~3, a kind of high-speed abrasion-proof load-transfer device, comprise upper caldding layer 1, lower caldding layer 2 and be arranged on upper caldding layer 1 and lower caldding layer 2 between belt carcass glue-line 3; Also comprise steel wire casing ply 5; Described upper caldding layer 1 is the upper caldding layer with high abrasion protective film 1 of being made through heat treatment by rubber and lubricating and wear-resisting agent; Described lower caldding layer 2 is low resistance lower caldding layers 2 of being made through heat treatment by sizing material and Activated Graphite powder; Be provided with buffering elastic layer 4 between described upper caldding layer 2 and the belt carcass glue-line 3; Described high abrasion upper caldding layer 1, buffering elastic layer 4 and the bonding formation load-transfer device of belt carcass glue-line 3 moulding upper glue layer 6; Described belt carcass glue-line 3 and the bonding formation load-transfer device of low resistance lower caldding layer 2 moulding lower glue layer 7; The upper and lower surface that described load-transfer device upper glue layer 6 and load-transfer device lower glue layer 7 cover steel wire casing ply 5 forms load-transfer device through sulfidization molding.
Described steel wire casing ply 5 is by transverse steel wire rope 8 and the longitudinal steel wire rope 9 mutual overlapping net structures that form, and the direction of described transverse steel wire rope 8 and longitudinal steel wire rope 9 is orthogonal, and the diameter of longitudinal steel wire rope 9 is less than the diameter of transverse steel wire rope 8.
Described belt carcass glue-line 3 is made of upper belt carcass glue-line and lower belt carcass glue-line; Described longitudinal steel wire rope 9 is arranged in the middle of core glue-line and the lower belt carcass glue-line.
The thickness of described upper caldding layer 1 and lower caldding layer 2 is 4 ~ 6mm.
The thickness of described upper belt carcass glue-line and lower belt carcass glue-line is 3.5 ~ 6mm.
The utility model product is adding man-hour, and the technological process of employing comprises the following step as shown in Figure 4:
(1), batching:
Rubber raw materials adopts natural rubber, cis-butadiene cement and SIBR rubber.
Batching adopts crosslinking agent H
1, assistant crosslinking agent H
2, activating agent A, reinforcing agent B
1, B
2,, anti-ageing agent C
1, C
2, soften flux D
1, lubricating and wear-resisting agent E.
(2), mixing:
A, one section calendering process: with above-mentioned natural rubber, butadiene rubber add the Banbury mixer precompressed mixing after, add lubricating and wear-resisting agent E, carry out Banbury mixer heat treatment, then add activating agent A, anti-ageing agent C
1, C
2, add again reinforcing agent B
1, B
2, soften flux D
1, carry out one section elastomeric compound of mixed refining process, cool off after being processed into masterbatch; Masterbatch is in order to carry out two-stage mixing.
B, two-stage mixing process: the masterbatch adding Banbury mixer of mixing one-tenth in a step is carried out two-stage mixing, and precompressed is mixing, then adds crosslinking agent H
1, assistant crosslinking agent H
2, binder removal then, it is stand-by to be processed into finished composition.
Wherein, the rotating speed of Banbury mixer is at a high speed when mixing at one section, is low speed when two-stage mixing.
According to calendering process, make super wear-resisting upper caldding layer, buffering elastic layer, belt carcass glue-line, low resistance lower caldding layer finished composition.
(3), calendering extrudes:
Above-mentioned finished composition is extruded super wear-resisting upper caldding layer, buffering elastic layer, belt carcass glue-line, the low resistance lower caldding layer half-blank sizing material of size up to specification by the tri-roll press machine calendering.
(4), moulding:
A, will roll super wear-resisting upper caldding layer through step 3 calendering technology, buffering elastic layer, the moulding of belt carcass glue-line is bonding, as the load-transfer device upper glue layer.
B, will to roll good belt carcass glue-line, the moulding of low resistance lower caldding layer through step 3 calendering technology bonding, as the load-transfer device lower glue layer.
(5), sulfuration:
A, on vulcanizator conveyor line cold-forming machine, load-transfer device upper glue layer and the load-transfer device lower glue layer that makes in the step 4 covered on the upper and lower surface of steel wire casing ply, form the band embryo;
B, with make among the step a the band embryo in vulcanizer, carry out high temperature vulcanized (low pressure sulfuration and high pressure vulcanize) and obtain the load-transfer device finished product.
First step sulfuration is under the pressure of 0.2 ~ 0.3Mpa, and temperature is at 148 ± 3 ℃, time 1min; Be convenient to sizing material between each layer and fully merge, be evenly distributed and can reduce air in the existence of tack coat, avoid Bubble formation, the time is 1.5 minutes.
Second step sulfuration is under the pressure of 1.5 ~ 2.5 Mpa, and temperature is at 148 ± 3 ℃, full cure, make between each layer closely, reach the molecule combination degree, the situation that reduces sharply to descend at the binding force between each layer under the low-temperature high impact environment occurs, improve the resistance to abrasion of product, reduced friction force.
(6), check:
Warehouse-in is revised, checks, packed to sulfuration to finished product after finishing.
Above-described embodiment only is explanation technical conceive of the present utility model and characteristics, and its purpose is to allow the personage who is familiar with technique can understand content of the present utility model and according to this enforcement, can not limit protection domain of the present utility model with this.All equivalences of doing according to the utility model Spirit Essence change or modify, and all should be encompassed within the protection domain of the present utility model.
Claims (5)
1. high wearing-proof conveyer belt, comprise upper caldding layer (1), lower caldding layer (2) and be arranged on upper caldding layer (1) and lower caldding layer (2) between belt carcass glue-line (3); It is characterized in that: also comprise steel wire casing ply (5); Described upper caldding layer (1) is the upper caldding layer with high abrasion protective film (1) of being made through heat treatment by rubber and lubricating and wear-resisting agent; Described lower caldding layer (2) is the low resistance lower caldding layer (2) of being made through heat treatment by sizing material and Activated Graphite powder; Be provided with buffering elastic layer (4) between described upper caldding layer (1) and the belt carcass glue-line (3); Described high abrasion upper caldding layer (1), buffering elastic layer (4) and belt carcass glue-line (3) moulding bonding formation load-transfer device upper glue layer (6); Described belt carcass glue-line (3) and low resistance lower caldding layer (2) moulding bonding formation load-transfer device lower glue layer (7); The upper and lower surface that described load-transfer device upper glue layer (6) and load-transfer device lower glue layer (7) cover steel wire casing ply (5) forms load-transfer device through sulfidization molding.
2. high wearing-proof conveyer belt according to claim 1, it is characterized in that: described steel wire casing ply (5) is by transverse steel wire rope (8) and the mutual overlapping net structure that forms of longitudinal steel wire rope (9), the direction of described transverse steel wire rope (8) and longitudinal steel wire rope (9) is orthogonal, and the diameter of longitudinal steel wire rope (9) is less than the diameter of transverse steel wire rope (8).
3. high wearing-proof conveyer belt according to claim 1 and 2, it is characterized in that: described belt carcass glue-line (3) is made of upper belt carcass glue-line and lower belt carcass glue-line; Described longitudinal steel wire rope (9) is arranged in the middle of core glue-line and the lower belt carcass glue-line.
4. high wearing-proof conveyer belt according to claim 1, it is characterized in that: the thickness of described upper caldding layer (1) and lower caldding layer (2) is 4 ~ 6mm.
5. high wearing-proof conveyer belt according to claim 3, it is characterized in that: the thickness of described upper belt carcass glue-line and lower belt carcass glue-line is 3.5 ~ 6mm.
Priority Applications (1)
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CN201220443756XU CN202897354U (en) | 2012-09-03 | 2012-09-03 | Well abrasion-resistant conveyer belt |
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CN201220443756XU CN202897354U (en) | 2012-09-03 | 2012-09-03 | Well abrasion-resistant conveyer belt |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019061550A1 (en) * | 2017-10-01 | 2019-04-04 | 胡洪 | Short-distance delivery device for large item |
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2012
- 2012-09-03 CN CN201220443756XU patent/CN202897354U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019061550A1 (en) * | 2017-10-01 | 2019-04-04 | 胡洪 | Short-distance delivery device for large item |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130424 Termination date: 20150903 |
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EXPY | Termination of patent right or utility model |