CN-121990372-A - Buffer gear

Abstract

The invention discloses a buffer mechanism for buffering glass in a transmission process, which comprises a base body, a rod body, a supporting part and an adjusting part, wherein the rod body is provided with a first hinge point connected with the base body, the supporting part is movably arranged on the rod body and positioned at one side of the first hinge point to abut against the glass, the adjusting part is arranged on the rod body and positioned at the other side of the first hinge point to maintain the moment balance at two sides of the first hinge point on the rod body, so that the supporting part can maintain a preset position when no external force exists, and the buffer is formed when the supporting part contacts the glass. The invention can adapt to the buffer requirements of different glass transmission scenes, reduce the damage in the glass transmission process and ensure the product quality.

Inventors

• Meng Xinkun

Assignees

• 彩虹（合肥）液晶玻璃有限公司

Dates

Publication Date

20260508

Application Date

20260311

Claims (8)

1. 1. A buffer mechanism for buffering glass in a transmission process is characterized by comprising a base body (1), a rod body (2), a supporting part and an adjusting part, wherein a first hinge point (21) connected with the base body (1) is arranged on the rod body (2), the supporting part is movably arranged on the rod body (2) and is positioned on one side of the first hinge point (21) to lean against the glass, the adjusting part is arranged on the rod body (2) and is positioned on the other side of the first hinge point (21) to maintain moment balance on two sides of the first hinge point (21) on the rod body (2), so that the supporting part can keep a preset position when no external force exists, and the buffer is formed when the supporting part contacts the glass.
2. 2. The buffering supporting mechanism according to claim 1, wherein the supporting portion is a rotating wheel (3), the rotating wheel (3) is rotatably installed on the rod body (2), and a rubber ring (4) is installed at the edge of the rotating wheel (3) to avoid scratching glass.
3. 3. A cushioning support mechanism according to claim 2, characterized in that the adjustment means comprise a weight element (5), the weight element (5) being mounted on the rod (2) and being in torque balance with the wheel (3) on the rod (2).
4. 4. A cushioning support mechanism according to claim 3, further comprising a telescopic rod (8), the telescopic rod (8) being fixedly mounted at the end of the rod body (2), the weight (5) being mounted at the output end of the telescopic rod (8).
5. 5. A cushioning support mechanism according to claim 4, characterized in that the weight member (5) comprises a plurality of weights (51), and the weights (51) are detachably mounted at the output end of the telescopic rod (8).
6. 6. The buffer supporting mechanism according to claim 5, further comprising a first limiting rod (6) and a second limiting rod (7), wherein the first limiting rod (6) and the second limiting rod (7) are fixedly installed on the seat body (1), the first limiting rod (6) and the second limiting rod (7) are located on a first vertical surface, and the first limiting rod (6) is located above the second limiting rod (7).
7. 7. The buffer supporting mechanism according to claim 6, wherein the rod body (2) is located between the first limiting rod (6) and the second limiting rod (7), and the first limiting rod (6) and the second limiting rod (7) can block the rod body (2) to avoid unbalance of the rod body (2) so as to cause impact on glass.
8. 8. A cushioning support mechanism according to claim 7, characterized in that the first vertical surface is located between the first hinge point (21) and the weight (5).

Description

Buffer gear Technical Field The invention relates to the technical field of glass protection, in particular to a buffer mechanism. Background In the glass production and transmission process, the glass is in a dynamic moving state, and collision is easy to occur due to the conditions of transmission track deviation, equipment contact and the like. Because the glass is crisp in texture and easy to damage on the surface, when the traditional rigid supporting structure is contacted with the glass, the glass is easy to scratch and damage on the surface without buffer effect, and the product quality is affected. The existing buffer structure is complex in structure, buffer force and supporting positions cannot be flexibly adjusted, and glass buffer requirements under different transmission scenes are difficult to adapt. Disclosure of Invention In order to solve the technical problems in the background art, the invention provides a buffer mechanism. The invention provides a buffer mechanism for buffering glass in a transmission process, which comprises a base body, a rod body, a supporting part and an adjusting part, wherein the rod body is provided with a first hinge point connected with the base body, the supporting part is movably arranged on the rod body and positioned at one side of the first hinge point to abut against the glass, the adjusting part is arranged on the rod body and positioned at the other side of the first hinge point to maintain the moment balance at two sides of the first hinge point on the rod body, so that the supporting part can maintain a preset position when no external force exists, and the buffer is formed when the supporting part contacts the glass. Preferably, the supporting part adopts a rotating wheel, the rotating wheel is rotatably arranged on the rod body, and a rubber ring is arranged at the edge of the rotating wheel so as to avoid scratching glass. Preferably, the adjusting part comprises a weight member which is mounted on the rod body and can form moment balance with the rotating wheel on the rod body. Preferably, the telescopic rod further comprises a telescopic rod fixedly arranged at the end part of the rod body, and the counterweight piece is arranged at the output end of the telescopic rod. Preferably, the counterweight member comprises a plurality of counterweights, and the counterweights are detachably mounted at the output end of the telescopic rod. Preferably, the device further comprises a first limiting rod and a second limiting rod, wherein the first limiting rod and the second limiting rod are fixedly arranged on the seat body and are positioned on a first vertical surface, and the first limiting rod is positioned above the second limiting rod. Preferably, the rod body is located between the first limiting rod and the second limiting rod, and the first limiting rod and the second limiting rod can block the rod body to avoid unbalance of the rod body so as to impact glass. Preferably, the first vertical surface is between the first hinge point and the weight. The buffer mechanism has the advantages that buffer protection of the conveyed glass is achieved through the coordination of the supporting portion and the adjusting portion by means of moment balance on two sides of the first hinge point, the supporting portion is coordinated with the rubber ring by means of the rotating wheel, scratch of the glass is avoided, the adjusting portion can flexibly adjust moment balance and buffer force through the telescopic rod and the detachable balancing weight, the arrangement of the limiting rod can avoid unbalance of the rod body to impact the glass, buffer requirements of different glass conveying scenes can be met, damage in the glass conveying process is reduced, and product quality is guaranteed. Drawings FIG. 1 is a block diagram of a buffer mechanism according to the present invention; fig. 2 is a schematic diagram of a wheel of a buffer mechanism according to the present invention. In the figure, a base body 1, a rod body 2, a first hinging point 21, a rotating wheel 3, a rubber ring 4, a weight 5, a balancing weight 51, a first limiting rod 6, a second limiting rod 7 and a telescopic rod 8 are marked Detailed Description Referring to fig. 1-2, the invention provides a buffer mechanism, which comprises a seat body 1, a rod body 2, a supporting part and an adjusting part. The rod body 2 is provided with a first hinge point 21, and is hinged with the seat body 1 through the first hinge point 21, so that the rod body 2 can swing around the first hinge point 21 in a vertical plane. The support is mounted on the rod body 2 on one side of the first hinge point 21 for abutment against the glass being transported. The adjusting part is mounted on the rod body 2 at the other side of the first hinge point 21 for balancing the moment generated by the supporting part. When no external force acts, the moment of the adjusting part and the moment of the supporting part relati