Mesh belt conveyor
By setting an elastic ring on the mesh belt conveyor, the friction between the substrate and the mesh belt is increased, which solves the problem of substrate shaking during the conveying process due to tension and high-pressure cleaning fluid, and prevents damage to electronic components.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MUTEK TECH CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-06-19
AI Technical Summary
In existing cleaning equipment, the substrate is prone to shaking during the transport process due to different tensions and the influence of high-pressure cleaning fluid, which can cause scratches, dents or wear on electronic components.
A mesh belt conveyor with elastic rings is used to increase the friction between the substrate and the mesh belt, preventing the substrate from shaking and being scratched during the conveying process.
It effectively prevents the substrate from shaking during transportation due to tension and high-pressure cleaning fluid, avoiding scratches, pressure marks or wear on electronic components.
Smart Images

Figure CN224376701U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a mesh belt conveyor, and more particularly to a mesh belt conveyor that clamps and transports a substrate by means of a mesh belt. Background Technology
[0002] Existing cleaning equipment uses a lower mesh belt and an upper mesh belt to clamp and transport substrates for cleaning. However, due to the increasingly dense electronic components on substrates and the more delicate and easily damaged materials, and because the cleaning fluid is sprayed onto the substrate under high pressure, the substrate is prone to displacement relative to the mesh belts due to tension differences and the high-pressure washing effect of the cleaning fluid. This can cause friction between the mesh belts and the electronic components on the substrate, resulting in scratches, pressure marks, or wear on the electronic components. Utility Model Content
[0003] The purpose of this invention is to provide a mesh belt conveyor with an anti-slip device.
[0004] This utility model relates to a mesh belt conveyor device, which is suitable for conveying substrates. The mesh belt conveyor device includes two conveyor mesh belts.
[0005] The conveyor belt is used to clamp and transport the substrate along the conveying direction. One of the conveyor belts has a plurality of crossbar segments arranged at intervals along the conveying direction. Each crossbar segment is fitted with at least one elastic ring for contacting the substrate.
[0006] In some embodiments, each of the elastic rings is an O-ring made of fluororubber.
[0007] In some embodiments, each of the crossbar segments is fitted with at least one set of elastic rings for contacting the substrate, the set of elastic rings having a plurality of elastic rings arranged side by side.
[0008] In some embodiments, one of every two adjacent crossbar segments is fitted with the elastic ring group, and the other of every two adjacent crossbar segments is fitted with two spaced-apart elastic ring groups.
[0009] In some embodiments, one of the conveyor belts is an upper conveyor belt, and the other of the conveyor belts is a lower conveyor belt, wherein the upper conveyor belt has the crossbar segment and the elastic ring.
[0010] The beneficial effects of this utility model are as follows: the mesh belt conveyor increases the frictional force in contact with the substrate by means of the elastic ring, which can prevent the substrate from being affected by the different tension of the conveyor belt and the high pressure washing of the cleaning liquid during the conveying process, and can also prevent scratches, crushing or wear on the electronic components of the substrate. Attached Figure Description
[0011] Figure 1 This is an incomplete side view of an embodiment of the mesh belt conveyor of the present invention and a plurality of substrates, illustrating an upper conveyor mesh belt and a lower conveyor mesh belt conveying the substrates;
[0012] Figure 2 This is an incomplete top view of the lower conveyor belt and the substrate in the embodiment described above;
[0013] Figure 3 This is an incomplete top view of the upper conveyor belt and the substrate in the embodiment described.
[0014] Figure 4 This is a top view of the upper conveyor belt in the embodiment described, illustrating the arrangement of the multiple elastic loop groups of the upper conveyor belt. Detailed Implementation
[0015] The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0016] See Figures 1 to 3 This utility model discloses an embodiment of a mesh belt conveyor, applied within a cleaning device (not shown) and suitable for conveying multiple substrates 9. The mesh belt conveyor includes two conveyor belts 1 for clamping and conveying the substrates 9 along a conveying direction X, so that the cleaning device can clean the substrates 9. One of the conveyor belts 1 has a plurality of crossbar segments 11 spaced apart along the conveying direction X. Each crossbar segment 11 is fitted with at least one elastic ring group 111 for contacting the corresponding substrate 9. The elastic ring group 111 has a plurality of side-by-side elastic rings 112.
[0017] Specifically, one of the conveyor belts 1 is an upper conveyor belt 1a, and the other is a lower conveyor belt 1b. The upper conveyor belt 1a has a plurality of belt bodies 10. The belt bodies 10 are arranged at intervals along a horizontal direction Z perpendicular to the conveying direction X. Each belt body 10 clamps the corresponding substrate 9 with the lower conveyor belt 1b. Each belt body 10 of the upper conveyor belt 1a has the crossbar segment 11 and the elastic ring 112. In this embodiment, the position of the elastic ring group 111 is not limited to the upper conveyor belt 1a. As long as it can prevent the substrate 9 from being worn by the conveyor belt 1 when conveying the substrate 9, it can also be set on the lower conveyor belt 1b or both conveyor belts 1.
[0018] The lower conveyor belt 1b has a plurality of partition units 13 spaced apart along the horizontal direction Z. Each partition unit 13 is located between two adjacent belt bodies 10. Each partition unit 13 has a plurality of partition protrusions 131 arranged at intervals along the conveying direction X. Each partition protrusion 131 protrudes along a vertical direction Y perpendicular to the conveying direction X. The partition protrusions 131 of each partition unit 13 are used to block two adjacent belt bodies 10 to prevent the two adjacent belt bodies 10 from moving laterally in the horizontal direction Z during the movement of the two adjacent belt bodies 10 along the conveying direction X, thereby preventing problems such as mutual interference or overlap.
[0019] See Figure 3 and Figure 4 In the upper conveyor belt 1a, one of every two adjacent crossbar segments 11 of each belt body 10 is fitted with an elastic ring group 111, and the other of every two adjacent crossbar segments 11 is fitted with two spaced-apart elastic ring groups 111. In this embodiment, the number of elastic rings 112 in each elastic ring group 111 is four, but as long as misalignment of the substrate 9 during transport can be prevented, the number of elastic rings 112 can also be one or two, and is not limited to this number. In this embodiment, each elastic ring 112 is an O-ring made of, for example, fluororubber, giving the elastic ring 112 high-temperature resistance.
[0020] See Figure 1 and Figure 3When conveying the substrate 9 via the conveyor belt 1, each substrate 9 is placed between the corresponding belt body 10 of the lower conveyor belt 1b and the upper conveyor belt 1a, so that each substrate 9 is clamped by the lower conveyor belt 1b and the corresponding belt body 10. The lower conveyor belt 1b and the upper conveyor belt 1a are driven to move, causing the substrate 9 to move along the conveying direction X. Each belt body 10 increases contact friction by contacting the corresponding substrate 9 through the elastic ring 112. This positions the substrate 9 to prevent arbitrary swaying or displacement in the horizontal direction Z, and also prevents scratches, pressure marks, or wear on the electronic components (not shown) of the substrate 9 caused by friction between the crossbar segment 11 of the belt body 10 and the electronic components (not shown).
[0021] In summary, the mesh belt conveyor increases the frictional force in contact with the substrate 9 by means of the elastic ring 112, which can prevent the substrate 9 from being arbitrarily shaken or displaced due to the different tensions of the lower conveyor belt 1b and the upper conveyor belt 1a during the conveying process of the lower conveyor belt 1b and the upper conveyor belt 1a, as well as the impact of high-pressure washing by the cleaning fluid. This can prevent scratches, crushing or wear on the electronic components of the substrate 9, and thus effectively achieves the purpose of this utility model.
[0022] However, the above description is merely an embodiment of this utility model and should not be construed as limiting the scope of implementation of this utility model. Any simple equivalent changes and modifications made in accordance with the claims and description of this utility model shall still fall within the scope of this utility model.
Claims
1. A mesh belt conveyor device suitable for conveying substrates, characterized in that: The mesh belt conveyor device includes: Two conveyor belts are used to clamp and transport the substrate along the transport direction. One of the conveyor belts has a plurality of crossbar segments arranged at intervals along the transport direction, and each crossbar segment is fitted with at least one elastic ring for contacting the substrate.
2. The mesh belt conveyor device according to claim 1, characterized in that: Each of the aforementioned elastic rings is an O-ring made of fluororubber.
3. The mesh belt conveyor device according to claim 1, characterized in that: Each of the crossbar segments is fitted with at least one set of elastic rings for contacting the substrate, the set of elastic rings having a plurality of elastic rings arranged side by side.
4. The mesh belt conveyor according to claim 3, characterized in that: One of every two adjacent crossbar segments is fitted with the elastic ring group, and the other of every two adjacent crossbar segments is fitted with two spaced-apart elastic ring groups.
5. The mesh belt conveyor according to any one of claims 1 to 4, characterized in that: One of the conveyor belts is an upper conveyor belt, and the other of the conveyor belts is a lower conveyor belt. The upper conveyor belt has the crossbar section and the elastic ring.