A conveyor belt having a heat-resistant, slip-resistant herringbone surface
By using heat-resistant EPDM rubber and a herringbone pattern conveyor belt, combined with a cleaning mechanism, the problems of high-temperature aging and material slippage are solved, achieving heat resistance, anti-slip properties, and cleaning effect of the conveyor belt, thereby improving service life and production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BAODING TIANSHUN RUBBER PROD CO LTD
- Filing Date
- 2025-07-21
- Publication Date
- 2026-07-03
AI Technical Summary
Existing conveyor belts are prone to aging and deformation when conveying high-temperature materials, and the lack of anti-slip design on the surface leads to unstable material sliding. Furthermore, after long-term use, they are prone to being contaminated with material debris, affecting normal operation and material purity.
The conveyor belt body is made of EPDM rubber with a herringbone pattern on the surface to increase friction, and is equipped with a cleaning mechanism, including a collection shell, motor, drive shaft and cleaning roller brush, for sweeping and collecting surface debris.
It improves the heat resistance and tensile strength of the conveyor belt, prevents material slippage, extends service life, reduces safety risks and production costs, and keeps the conveyor belt surface clean to prevent material contamination.
Smart Images

Figure CN224449055U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of conveyor belt technology, specifically to a conveyor belt with a heat-resistant and anti-slip herringbone pattern surface. Background Technology
[0002] Conveyor belts, also known as transport belts, are rubber and fiber / metal composite products, or plastic and fabric composite products, used in belt conveyors to carry and transport materials. Conveyor belts are widely used in industries such as cement, coking, metallurgy, chemical, and steel for short-distance and small-volume conveying applications.
[0003] When conveying high-temperature materials, existing conveyor belts are prone to aging, deformation, and even damage due to the high temperatures, affecting their service life and conveying efficiency. Furthermore, the lack of effective anti-slip design on the conveyor belt surface during material transport allows materials to easily slide, leading to unstable material transport and potentially causing spillage, increasing production costs and safety risks. In addition, after prolonged use, material debris accumulates on the conveyor belt surface. If this debris is not cleaned promptly, it can not only affect the normal operation of the conveyor belt but also contaminate the materials. Utility Model Content
[0004] Therefore, this utility model provides a conveyor belt with a heat-resistant and anti-slip herringbone pattern surface to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a conveyor belt with a heat-resistant and anti-slip herringbone pattern surface, comprising a support frame, wherein two rotating rods are connected inside the support frame via bearings, and support rollers are fixedly sleeved on the outside of each of the two rotating rods, and a conveyor belt body is sleeved on the outside of the two support rollers. The surface of the conveyor belt body is provided with multiple herringbone patterns, a first motor is fixedly installed on one side of the support frame, and the output end of the first motor is fixedly connected to one of the rotating rods. A cleaning mechanism is provided inside the support frame.
[0006] The cleaning mechanism includes a collection shell located inside a support frame. A second motor is fixedly mounted on one side of the collection shell, and a drive shaft is fixedly connected to the output end of the second motor. The drive shaft is connected to the inner wall of the collection shell via a bearing. A cleaning roller brush is fixedly mounted on the outside of the drive shaft. Two hydraulic push rods are fixedly mounted at the bottom of the support frame, and the output ends of the two hydraulic push rods are fixedly connected to the collection shell.
[0007] Preferably, an adjustment component is provided on one side of the collection shell, a groove is provided on the top of the collection shell, a support frame is provided inside the groove, two side plates are fixedly provided at the bottom of the support frame, the side plates pass through the collection shell and are slidably connected to the collection shell, a bottom plate is fixedly provided at the bottom of the two side plates, a threaded rod is connected to the bottom of the collection shell through a bearing, the threaded rod passes through the bottom plate and is threadedly connected to the bottom plate, and a knob is fixedly connected to one end of the threaded rod.
[0008] Preferably, the top of the support frame is connected to two sliding shafts via bearings.
[0009] Preferably, the bottom of the support frame is provided with a bottom groove.
[0010] Preferably, the support frame has side grooves on both sides, and the collection shell passes through the side grooves.
[0011] Preferably, the bottom of the support frame is fixedly provided with multiple support columns.
[0012] Preferably, the collection shell has a waste outlet on one side.
[0013] Preferably, the bottom of the inner cavity of the collection shell is set as an inclined surface.
[0014] Preferably, the conveyor belt body is made of EPDM rubber.
[0015] The present invention has the following advantages:
[0016] 1. The conveyor belt body is made of EPDM rubber, which has excellent high temperature resistance and can withstand high temperature environments. This effectively prevents the conveyor belt from aging and deforming when conveying high-temperature materials, extending its service life and reducing operating costs. Meanwhile, the steel wire rope core is used as the skeleton material of the conveyor belt body, enhancing its tensile strength and heat resistance, further improving its reliability and stability. Multiple herringbone patterns are designed on the surface of the conveyor belt body. These patterns increase the friction between the conveyor belt and the material, effectively preventing material slippage during transport, ensuring the stability of material transport, reducing the possibility of material spillage, improving production efficiency, and reducing safety risks.
[0017] 2. By setting up a cleaning mechanism, including a collection shell, a second motor, a drive shaft, and cleaning roller brushes, the surface of the conveyor belt can be cleaned during operation. When the second motor is started, the cleaning roller brushes rotate, sweeping material debris from the surface of the conveyor belt into the collection shell and discharging it through the discharge port. This keeps the surface of the conveyor belt clean, preventing material debris from affecting the normal operation of the conveyor belt and also preventing material contamination. The cleaning mechanism is equipped with an adjustment component. By turning the knob, the threaded rod is rotated, thereby adjusting the position of the support frame and the cleaning roller brushes. When the bristles on the surface of the cleaning roller brushes wear down and become shorter, the cleaning roller brushes can be adjusted to extend and make them close to the surface of the conveyor belt again. This improves the service life of the cleaning roller brushes, reduces the frequency of replacement, and lowers maintenance costs. Attached Figure Description
[0018] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely exemplary, and those skilled in the art can derive other embodiments based on the provided drawings without creative effort.
[0019] The structures, proportions, sizes, etc. illustrated in this specification are only for the purpose of assisting those skilled in the art in understanding and reading the content disclosed herein, and are not intended to limit the implementation conditions of this utility model. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in the proportions, or adjustments to the size, without affecting the effects and objectives that this utility model can produce, should still fall within the scope of the technical content disclosed in this utility model.
[0020] Figure 1 The overall structural front view provided for this utility model;
[0021] Figure 2 A bottom view of the overall structure provided for this utility model;
[0022] Figure 3 This is a front sectional view of the overall structure provided by this utility model;
[0023] Figure 4 A side sectional view of the overall structure provided for this utility model;
[0024] Figure 5 A perspective view of the cleaning mechanism provided by this utility model;
[0025] Figure 6 Provided by this utility model Figure 3 Enlarged view of the structure of section A in the middle.
[0026] In the diagram: 1. Support frame; 2. Support column; 3. First motor; 4. Conveyor belt body; 5. Herringbone pattern; 6. Side trough; 7. Collection shell; 8. Second motor; 9. Bottom trough; 10. Hydraulic push rod; 11. Knob; 12. Threaded rod; 13. Bottom plate; 14. Waste outlet; 15. Rotating rod; 16. Support roller; 17. Drive shaft; 18. Support frame; 19. Sliding shaft; 20. Side plate; 21. Cleaning roller brush. Detailed Implementation
[0027] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0028] See attached document Figure 1 -Appendix Figure 6 The present invention provides a conveyor belt with a heat-resistant and anti-slip herringbone textured surface, comprising a support frame 1, wherein two rotating rods 15 are connected inside the support frame 1 via bearings, and support rollers 16 are fixedly sleeved on the outside of the two rotating rods 15. A conveyor belt body 4 is sleeved on the outside of the two support rollers 16, and the surface of the conveyor belt body 4 is provided with multiple herringbone patterns 5. A first motor 3 is fixedly installed on one side of the support frame 1, and the output end of the first motor 3 is fixedly connected to one of the rotating rods 15. A cleaning mechanism is provided inside the support frame 1.
[0029] The cleaning mechanism includes a collection shell 7, which is located inside the support frame 1. A second motor 8 is fixedly installed on one side of the collection shell 7. A transmission shaft 17 is fixedly connected to the output end of the second motor 8. The transmission shaft 17 is connected to the inner wall of the collection shell 7 through a bearing. A cleaning roller brush 21 is fixedly sleeved on the outside of the transmission shaft 17. Two hydraulic push rods 10 are fixedly installed at the bottom of the support frame 1. The output ends of the two hydraulic push rods 10 are fixedly connected to the collection shell 7. Side grooves 6 are opened on both sides of the support frame 1. The collection shell 7 passes through the side grooves 6. A waste outlet 14 is provided on one side of the collection shell 7. The bottom of the inner cavity of the collection shell 7 is set as an inclined surface.
[0030] In this embodiment, the hydraulic push rod 10 is activated, which controls the collection shell 7 to move upward. The sliding shaft 19 on the support frame 18 at the top of the collection shell 7 contacts the conveyor belt body 4. At the same time, when the cleaning roller brush 21 inside the collection shell 7 contacts the surface of the conveyor belt body 4, the second motor 8 is activated. The second motor 8 controls the transmission shaft 17 to rotate, and the transmission shaft 17 drives the cleaning roller brush 21 to rotate. The cleaning roller brush 21 cleans the surface of the conveyor belt body 4, causing material debris to fall into the collection shell 7 and slide along the inclined surface inside the collection shell 7 to the waste outlet 14, where it is discharged. The first motor 3 is activated, which controls the rotating rod 15 to rotate. The rotating rod 15 drives the support roller 16 to rotate, and the support roller 16 drives the conveyor belt body 4 to rotate, thereby conveying the material through the conveyor belt body 4. The herringbone pattern 5 on the surface of the conveyor belt body 4 has a good anti-slip effect, preventing the material from sliding on the surface of the conveyor belt body 4.
[0031] To achieve the adjustment purpose, this device adopts the following technical solution: An adjustment component is provided on one side of the collection shell 7; a groove is provided on the top of the collection shell 7; a support frame 18 is provided inside the groove; two side plates 20 are fixedly provided at the bottom of the support frame 18; the side plates 20 penetrate the collection shell 7 and are slidably connected to it; a base plate 13 is fixedly provided at the bottom of the two side plates 20; a threaded rod 12 is connected to the bottom of the collection shell 7 via a bearing; the threaded rod 12 penetrates the base plate 13 and is threadedly connected to it; a knob 11 is fixedly connected to one end of the threaded rod 12; and two sliding shafts 19 are connected to the top of the support frame 18 via bearings. The bottom of the support frame 1 is provided with a bottom groove 9. When the bristles on the surface of the cleaning roller brush 21 wear down and become shorter, the knob 11 is turned. The knob 11 drives the threaded rod 12 to rotate. The threaded rod 12 drives the bottom plate 13 to move down. The bottom plate 13 drives the side plate 20 to move down. The side plate 20 drives the support frame 18 to move down, so that the cleaning roller brush 21 extends out. Then the hydraulic push rod 10 is activated. The hydraulic push rod 10 controls the collection shell 7 to move up. The sliding shaft 19 on the support frame 18 at the top of the collection shell 7 contacts the conveyor belt body 4 again. At the same time, the cleaning roller brush 21 inside the collection shell 7 also contacts the surface of the conveyor belt body 4 again, which improves the service life of the cleaning roller brush 21. The bottom groove 9 makes it easy for the knob 11 to pass through, which is convenient for the operator to adjust.
[0032] In order to achieve the purpose of support, the device adopts the following technical solution: multiple support columns 2 are fixedly provided at the bottom of the support frame 1, and the support columns 2 have the function of supporting the support frame 1;
[0033] To achieve high temperature resistance, the device employs the following technical solution: the cover rubber layer of the conveyor belt body 4 is made of EPDM rubber, which can withstand high temperatures; the skeleton material of the conveyor belt body 4 uses steel wire rope core to enhance the tensile strength and heat resistance of the conveyor belt.
[0034] The usage process of this utility model is as follows: When using this utility model, the first motor 3 is started, and the first motor 3 controls the rotating rod 15 to rotate. The rotating rod 15 drives the support roller 16 to rotate, and the support roller 16 drives the conveyor belt body 4 to rotate, thereby conveying materials through the conveyor belt body 4. The herringbone pattern 5 on the surface of the conveyor belt body 4 has a good anti-slip effect, preventing materials from sliding on the surface of the conveyor belt body 4. When the surface of the conveyor belt body 4 is covered with material debris, the hydraulic push rod 10 is started. The hydraulic push rod 10 controls the collection shell 7 to move upward. The sliding shaft 19 on the support frame 18 at the top of the collection shell 7 contacts the conveyor belt body 4. At the same time, when the cleaning roller brush 21 inside the collection shell 7 contacts the surface of the conveyor belt body 4, the second motor 8 is started. The second motor 8 controls the drive shaft 17 to rotate, and the drive shaft 17 drives the conveyor belt body 4 to rotate. The cleaning roller brush 21 rotates, cleaning the surface of the conveyor belt body 4, causing material debris to fall into the collection shell 7 and slide down the inclined surface inside the collection shell 7 to the discharge port 14, where it is discharged. When the bristles on the surface of the cleaning roller brush 21 wear and become shorter, the knob 11 is turned, which drives the threaded rod 12 to rotate. The threaded rod 12 drives the base plate 13 to move down, which in turn drives the side plate 20 to move down. The side plate 20 then drives the support frame 18 to move down, causing the cleaning roller brush 21 to extend. Then, the hydraulic push rod 10 is activated, which controls the collection shell 7 to move up. The sliding shaft 19 on the support frame 18 at the top of the collection shell 7 contacts the conveyor belt body 4 again, and the cleaning roller brush 21 inside the collection shell 7 also contacts the surface of the conveyor belt body 4 again, thus improving the service life of the cleaning roller brush 21.
[0035] The above description is merely a preferred embodiment of this utility model. Any person skilled in the art may modify this utility model or modify it into an equivalent technical solution using the technical solutions described above. Therefore, any simple modifications or equivalent substitutions made based on the technical solutions of this utility model are within the scope of protection claimed by this utility model.
Claims
1. Conveyor belt with heat-resistant, slip-resistant herringbone surface, comprising a support frame (1), characterized in that: The support frame (1) has two rotating rods (15) connected inside by bearings. Support rollers (16) are fixedly sleeved on the outside of the two rotating rods (15). Conveyor belt body (4) is sleeved on the outside of the two support rollers (16). The surface of the conveyor belt body (4) is provided with multiple herringbone patterns (5). A first motor (3) is fixedly installed on one side of the support frame (1). The output end of the first motor (3) is fixedly connected to one of the rotating rods (15). A cleaning mechanism is provided inside the support frame (1). The cleaning mechanism includes a collection shell (7) located inside the support frame (1). A second motor (8) is fixedly mounted on one side of the collection shell (7). A transmission shaft (17) is fixedly connected to the output end of the second motor (8). The transmission shaft (17) is connected to the inner wall of the collection shell (7) via a bearing. A cleaning roller brush (21) is fixedly mounted on the outside of the transmission shaft (17). Two hydraulic push rods (10) are fixedly mounted at the bottom of the support frame (1). The output ends of the two hydraulic push rods (10) are fixedly connected to the collection shell (7).
2. The conveyor belt having a heat-resistant and skid-resistant herringbone surface according to claim 1, characterized in that: An adjustment component is provided on one side of the collection shell (7). A groove is provided on the top of the collection shell (7). A support frame (18) is provided inside the groove. Two side plates (20) are fixedly provided at the bottom of the support frame (18). The side plates (20) penetrate the collection shell (7) and are slidably connected to the collection shell (7). A bottom plate (13) is fixedly provided at the bottom of the two side plates (20). A threaded rod (12) is connected to the bottom of the collection shell (7) through a bearing. The threaded rod (12) penetrates the bottom plate (13) and is threadedly connected to the bottom plate (13). A knob (11) is fixedly connected to one end of the threaded rod (12).
3. The conveyor belt having a heat resistant and skid-resistant herringbone surface according to claim 2, characterized in that: The top of the support frame (18) is connected to two sliding shafts (19) via bearings.
4. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The support frame (1) has a bottom groove (9) at its bottom.
5. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The support frame (1) has side grooves (6) on both sides, and the collection shell (7) passes through the side grooves (6).
6. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The support frame (1) has multiple support columns (2) fixedly installed at its bottom.
7. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The collection shell (7) has a waste outlet (14) on one side.
8. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The bottom of the inner cavity of the collection shell (7) is set as an inclined surface.
9. The conveyor belt having a heat resistant and skid resistant herringbone surface according to claim 1, wherein: The conveyor belt body (4) is made of EPDM rubber.