TH60088B - Power transmission belts for transmitting heavy loads - Google Patents

Abstract

DC60 This invention provides a power transmission belt for heavy load transmission, which consists of the following components: a central belt containing an elastomer material and a core. Embedded in the elastomer material And a block consisting of the top beam, the bottom beam and the column connecting the top beam to the bottom beam to form a fitting groove to the center belt. The block or belt in the center has a limiter to limit the Center belt movement from the block in both longitudinal direction and Center belt width Where the middle belt has fiber components in the section Of the surface in contact with at least one block The invention provides a power transmission belt for heavy load transmission which consists of the following components: a central belt containing an elastomer material and a core. Embedded in the elastomer material And a block consisting of the top beam, the bottom beam and the column connecting the top beam to the bottom beam to form a fitting groove to the center belt. The block or belt in the center has a limiter to limit the Center belt movement from the block in both longitudinal direction and Center belt width Where the middle belt has fiber components in the section Of the surface in contact with at least one block

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: EDIT 9/10/2015 1. Transmission belt (1) for transmitting heavy load. Which has the following components: the middle belt (3a, 3b) that contains Elastomer material (4) and core embedded in the elastomer material (4) and block (2) consisting of the top beam (11), bottom beam (12) and column. (13) that connect the top beam (11) to the lower crossbar (12) to form a groove (14, 15) for fitting into the center belt (3a, 3b) where at least the block (2) and the belt. The middle (3a, 3b) has a finite section. For limiting the movement of the center belt (3a, 3b) from the block (2) in both the longitudinal direction and the direction along the width of the center belt (3a, 3b), the center belt (3a, 3b) is assembled with As fibers (10) on the surface part In contact with at least one block (2), where block (2) has one finite section with a convex linear part (20,21) arranged on the upper face (16), and The bottom face (17) of the groove (14, 15) and is formed in the direction along the center belt width (3a, 3b), where the center belt (3a, 3b) has a second limiting section with Inlet lines (18, 19) that are arranged on the surface The upper and lower faces (6,7) of the middle belt (3a, 3b) and are built in The direction along the center belt width (3a, 3b), the convex linear section (20, 21) and the concave linear segment (18, 19) overlap with each other to limit movement in the longitudinal direction. Where the first limit also includes the inlet-convex (22) provided on the upper face (16) and the lower face (17) of the groove (14, 15) on either side. And the inlet-convex section (22) will cause the center belt (3a, 3b) to change its shape to Limits movement in a direction along the width Which has special characteristics The inlet-convex section (22) includes at least one protrusion (23) provided. It is formed on at least one upper part of the convex linear section (20, 21) 2. Power transmission belt (1) for transmitting the large load according to claim 1, where the concave-convex part. Exit (22) will include the recess that (24) provides on the The front and rear surfaces of at least one of the convex linear segments (20, 21) from The longitudinal direction of the center belt (3a, 3b) 3. Power transmission belt (1) for transmitting a large load according to claim 1 or 2, where the inlet-convex section includes the inlet. (24) and zigzag protrusions (23) provided on at least one upper part of the convex linear section (20, 21) 4. transmission belt (1) for transmission. What is the right claim weight? Clause 1 to 3, where the concave-in-convex portion (22) includes the superscript (23) provided on the tip. At least one of the convex linear segments (20, 21) 5. Power transmission belt (1) for transmitting a large load according to which of the claims? One of the preceding claims Where the inlet-convex part (22) includes an overhang (23) extending as Continuously in the longitudinal direction of the center belt (3a, 3b) 6. Power transmission belt (1) for transmitting a large load according to which claim? One of the preceding claims The inlet-convex part has a height in the range of 0.05 to 0.3 mm. 7. Power transmission belt (1) for transmitting a large load according to which claim? One of the preceding claims Where the fiber components are dissected blades (10) for covering the surface of the The center belt (3a, 3b) and where the tarpaulin (10) is arranged on the top (6) and bottom (7) surfaces of the center belt (3a, 3b) and the transverse in the direction. At least the length of the middle belt (3a, 3b) is aramid. 8. Power transmission belt (1) for transmitting heavy load according to claim 7, where the binder pretreatment is Complete on the cover canvas (10) and the binder conditioner, there is a material that reduces the coefficient of friction 9.Power transmission belt (1) for transmitting heavy load according to claim 8, where cover (10) There will be a ratio of width before reconditioning. Solder width after binder pretreatment is in the range 55-70% --------------------------------- ---------------------- 1. Power transmission belts for transmitting heavy loads. Which contains the following components The middle belt that contains Elastomer and core materials embedded in the elastomer material and blocks that comprise the top beam, bottom beam and column that connect the top beam to the bottom beam to form a fitting groove. enter With the middle belt At the very least The block or belt in the center will have a limited section for Limit the movement of the center belt from the block in both longitudinal and vertical directions. Path along the width of the middle belt Where the central belt contains fibrous components on the surface area It is in contact with at least one block. 2. The power transmission belt for transmitting a large load in accordance with claim 1, where the block has one finite section with a convex linear section arranged on the surface. The top front and bottom faces of the groove and are formed in a direction along the width of the Middle belt The middle belt has a second limiter, with an indented linear segment that is provided. On the upper face and the lower face of the center belt and are formed in the direction According to the width of the middle belt The convex and concave linear segments overlap each other to limit the It moves in a longitudinal direction. 3. A power transmission belt for transmitting a large load according to claim 2, where the first limitation also includes the inlet-convex section arranged on the front surface. The upper and lower faces of the grooves are at least one side, and the inlet-convex section causes the center belt to deform to limit the It moves in the direction of its width. 4. Power transmission belt for transmitting a large load according to claim 3, where the concave-convex section includes at least one protrusion that is provided. On the top of at least one of the convex linear sections 5. Power transmission belt for transmitting a large load according to claim 3, where the inlet-convex section includes the recesses that Set it up on a sassy surface Front and back of at least one convex linear segment from the longitudinal direction. 6. Power transmission belt for transmitting heavy load according to claim 3, where the concave-convex section includes the inlet and the arranged zigzag overhang. 7. The transmission belt is used for transmitting the heavy load according to claim 3, where the concave-convex section includes the overhang. Make it at least on the tip. 8. The transmission belt is used to transmit the large load according to claim 3, where the inlet-convex section includes the protrusion that extends continuously in the direction The longitudinal path of the center belt 9. Power transmission belt for transmitting a large load according to claim 3, where the inlet-convex section has a height in the range of 0.05 to 0.3 mm. 1 0. Transmission belt Power for transmitting heavy load according to claim 1, where the fiber assembly will be a canvas covering the surface of the center belt 1 1. Power transmission belt for transmitting the heavy load according to claim 1. Where the fibrous component is a short fiber embedded in the elastomer material 1 2. Power transmission belt for transmitting a large load according to claim 1, where the insert material Will not be embedded in block 1. 3. Belt for transmitting heavy load according to claim 1, where the block consists of Thermoplastic resins and fiber reinforced materials in the amount of 1 to 60% by mass 1 4. Power transmission belt for transmitting heavy load according to claim 13, where thermoplastic resin will Was selected from a group consisting of 4, 6-nylon, 9T-nylon, polyphenylene sulfide, polyether-ether ketone, polyether sulphone and Any polyamide is at least 1. 5. Power transmission belt for transmitting heavy load according to claim 13, where the fiber reinforcement material is a type of carbon fiber and of Combination of carbon fibers and aramid fibers 1 6. Power transmission belts for transmitting heavy loads according to claim 13, where the blocks also contain 1-30% of fine silk-like reinforcing materials. Mass 1 7. Power transmission belt for transmitting heavy load according to claim 16, where small silk-like reinforcing material is zinc oxide 1 8. Power transmission belt for transmission of heavy load According to claim 16, where the blocks will consist of Composition of first thermoplastic resin without auxiliary materials. Strength like a fine thread Where the thermo resin component The first plastic is placed in the surface in contact with the middle belt. And a second thermoplastic resin component with an additional material A fibrous strength and a fine thread-like reinforcement material where a second thermoplastic resin component is arranged. Place it in the surface that touches the pulley. Where the surface ratio of the first thermoplastic resin component The total surface in contact with the middle belt is 70% or more, and where the ratio of the surface of the second thermoplastic resin component The total surface in contact with the pulley is 70% or more. 1. 9. Power transmission belt for transmitting heavy load according to claim 10, where binder pretreatment is performed on the cover and modifier. The binder condition will have a material that reduces the coefficient of friction 2 0. Power transmission belts for transmitting a large load according to claim 19, where the cover will have a ratio of width prior to binder treatment. Width after binder pretreatment ranges from 55-70% 2. 1. A power transmission belt for transmitting a large load according to claim 1, where several blocks are placed on the center belt in the direction of the The length of the center belt and the middle belt also consists of a wrap layer 1-100 m thick in the surface exposed to the block at least 2. 2. Power transmission belt for transmitting heavy loads in accordance with claim 21 where the encapsulation layer consists of urethane resin 2. 3. Power transmission belt for transmitting heavy load according to claim 21, where the encapsulation layer consists of a sheet metal layer 2. 4. Power transmission belt for transmitting a large load according to claim 23, where the sheet metal layer contains fluoroplastic 2. 5. Power transmission belts for transmitting heavy loads in accordance with any of Claim 10, where the cover is arranged on the upper and lower faces of the center belt and the transverse lines in the direction. The length of the belt in the middle is at least Aramid fiber