Edge grinding and distance adjusting structure and glass plate grinding device with same

The edge grinding and distance adjustment structure enables automation and efficient distance adjustment of the glass sheet grinding device, solving the problem of cumbersome adjustments in the existing technology and improving processing efficiency and accuracy.

CN224488615UActive Publication Date: 2026-07-14GUANGDONG GAOLIWEI MASCH TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG GAOLIWEI MASCH TECH CO LTD
Filing Date
2025-06-23
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing glass sheet grinding equipment requires cumbersome adjustments to the grinding devices and brackets on both sides when dealing with sheets of different widths, which affects processing efficiency.

Method used

The device adopts a grinding and adjusting structure, and uses a linkage device to adjust the position of the first grinding device and the bracket synchronously, simplifying the adjustment process. The bracket is automatically adjusted by using a linkage wheel and a transmission belt.

Benefits of technology

It improves the efficiency and accuracy of edge grinding, simplifies the distance adjustment operation, ensures that the bracket supports the plate in the middle position, and enhances the stability and automation of the processing.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an edge grinding distance adjusting structure and glass plate edge grinding device with same, relate to glass processing production technical field, include: conveying line, first edge grinding device, second edge grinding device, bracket, distance adjusting linkage device, including linkage wheel, the first transmission belt and second transmission belt are equipped with on the linkage wheel, first transmission belt with first edge grinding device is connected, second transmission belt with bracket is connected, according to the size condition of plate material, only need to adjust first edge grinding device position to adjust the distance between first edge grinding device and second edge grinding device, can utilize the linkage function of distance adjusting linkage device and drive bracket together to adjust position cooperation support plate material, above distance adjusting structure is simple and easy to use, and distance adjusting work becomes convenient and efficient, is favorable for improving edge grinding work efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of glass processing and production technology, and in particular to a grinding edge adjustment structure and a glass sheet grinding device having the same. Background Technology

[0002] Sheet metal often requires edge grinding, such as with glass sheets. If grinding is needed on both sides simultaneously, grinding devices are required on both sides. If the sheet is wide and heavy, a central support is also needed to support the middle section. However, sheet widths vary, meaning the grinding devices and supports must be adjusted to fit the sheet width. These adjustments are cumbersome and reduce the efficiency of the edge grinding process. Utility Model Content

[0003] The present invention aims to solve at least one of the technical problems existing in the prior art. To this end, the present invention proposes an edge grinding and adjusting structure and a glass plate edge grinding device having the same.

[0004] According to a first aspect embodiment of the present invention, a grinding and adjusting structure includes: a conveyor line on which a sheet metal can move forward; a first grinding device located on the left side of the conveyor line, the first grinding device being movable left and right; a second grinding device fixedly connected to the right side of the conveyor line; a bracket located between the first grinding device and the second grinding device, the bracket being movable left and right; and an adjusting linkage device including a linkage wheel, on which a first transmission belt and a second transmission belt are sleeved, the first transmission belt being connected to the first grinding device, the second transmission belt being connected to the bracket, and the first grinding device being able to drive the bracket to move together via the first transmission belt, the linkage wheel, and the second transmission belt in sequence.

[0005] According to some embodiments of the present invention, the adjustable linkage device further includes a first driven wheel and a second driven wheel, the linkage wheel is provided with a first linkage part and a second linkage part, the first transmission belt is sleeved between the first driven wheel and the first linkage part, and the second transmission belt is sleeved between the second driven wheel and the second linkage part.

[0006] According to some embodiments of the present invention, the first linkage part and the second linkage part are coaxial cylindrical structures, the first transmission belt is sleeved on the first linkage part side wall of the first linkage part, the second transmission belt is sleeved on the second linkage part side wall of the second linkage part, and the radius of the first linkage part is twice the radius of the second linkage part.

[0007] According to some embodiments of the present invention, the adjustable linkage device further includes a bracket guide rail, which extends in the left-right direction. A bracket guide frame is provided on the lower side of the bracket, and the bracket guide frame includes a "Π"-shaped inner support frame. The inner support frame includes a middle horizontal plate and front and rear vertical plates. A bracket slider is provided on the lower side of the horizontal plate, and the bracket slider is engaged with the bracket guide rail. A bracket guide connector is provided on the lower side of the vertical plate, and the bracket guide connector is connected to the second transmission belt.

[0008] According to some embodiments of the present invention, an outer support frame is provided on the outer side of the inner support frame, the upper side of the outer support frame is connected to the lower side of the bracket, and a buffer space is left between the outer side wall of the inner support frame and the inner side wall of the outer support frame.

[0009] According to some embodiments of the present invention, a first edge-grinding drive device is provided on the conveyor line. The first edge-grinding drive device includes a first edge-grinding drive guide rail, a first edge-grinding drive slider, and a first edge-grinding drive motor. The first edge-grinding drive guide rail extends in the left-right direction. The first edge-grinding drive slider is engaged with the first edge-grinding drive guide rail and connected to the lower side of the first edge-grinding device. The first edge-grinding drive guide rail can guide the first edge-grinding drive slider and the first edge-grinding device to move left and right. The first edge-grinding drive motor is connected to the first edge-grinding device and can drive the first edge-grinding device to move left and right.

[0010] According to some embodiments of the present invention, a first edge grinding device transmission frame is provided on the lower side of the first edge grinding device, and a first edge grinding guide connector is provided on the lower side of the first edge grinding device transmission frame. The first edge grinding guide connector is connected to the first transmission belt.

[0011] The edge grinding and spacing adjustment structure according to the embodiment of this utility model has at least the following technical effects:

[0012] 1. Depending on the size of the sheet material, only the position of the first edge grinding device needs to be adjusted to adjust the distance between the first edge grinding device and the second edge grinding device. At the same time, the linkage function of the distance adjustment linkage device can be used to drive the bracket to adjust its position to support the sheet material. The above-mentioned distance adjustment structure is simple and easy to use, and the distance adjustment work becomes convenient and efficient, which helps to improve the efficiency of edge grinding work.

[0013] 2. The diameter of the first linkage part on the linkage wheel is twice the diameter of the second linkage part, which ensures that the bracket can be kept in the middle position between the first edge grinding device and the second edge grinding device, so as to better support the middle position of the plate.

[0014] 3. The first edge grinding device is controlled and adjusted in position by the first edge grinding drive device to ensure that the movement of the first edge grinding device is smooth enough, thereby ensuring that the edge grinding of the board is accurate and reliable enough.

[0015] The glass plate grinding device according to the second aspect of the present invention includes the grinding distance adjustment structure according to the first aspect of the present invention.

[0016] According to some embodiments of the present invention, both the first edge grinding device and the second edge grinding device are provided with an edge grinding mechanism. The edge grinding mechanism includes a lower active conveyor belt for the plate edge and an upper passive conveyor belt for pressing the plate edge. The passive conveyor belt for pressing the plate edge and the active conveyor belt for the plate edge can press the upper and lower sides of the plate. A grinding machine is provided in the edge grinding mechanism away from the bracket.

[0017] According to some embodiments of the present invention, the bracket includes a longitudinal frame extending front and rear, and a plurality of rollers are distributed on the upper side of the longitudinal frame, the rollers being able to support the lower side of the plate.

[0018] The glass plate edge grinding device according to the embodiment of this utility model has at least the following beneficial effects:

[0019] 1. Depending on the size of the glass sheet, only the position of the first edge grinding device needs to be adjusted to adjust the distance between the first edge grinding device and the second edge grinding device. At the same time, the linkage function of the distance adjustment linkage device can be used to drive the bracket to adjust its position together to support the sheet. The distance adjustment work becomes convenient and efficient, which helps to improve the efficiency of the edge grinding work of the glass sheet.

[0020] 2. The grinding machine of the edge grinding mechanism is responsible for grinding the edge of the board. At the same time, the pressing follower 220 and the board edge active conveyor belt press the board. The board edge active conveyor belt can continue to drive the board forward on the conveyor line while grinding.

[0021] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0022] Additional aspects and advantages of this invention will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0023] Figure 1 This is a perspective view of the glass plate edge grinding device of this utility model;

[0024] Figure 2 This is a perspective view of the glass plate edge grinding device of this utility model in the distance adjustment state;

[0025] Figure 3This is a front view of the glass sheet grinding device of this utility model;

[0026] Figure 4 This is a schematic diagram of the working of the edge grinding and spacing adjustment structure of this utility model;

[0027] Figure 5 This is a perspective view of the adjustable linkage device of this utility model;

[0028] Figure 6 This is a perspective view of the first edge grinding drive device of this utility model;

[0029] Figure 7 This is a perspective view of the present invention after the active conveyor belt on the edge of the plate has been removed.

[0030] Figure label:

[0031] Conveyor line 100, sheet metal 101; edge grinding mechanism 200, first edge grinding device 201, second edge grinding device 202, active edge conveyor belt 210, driven edge pressing conveyor belt 220, grinding machine 230; bracket 300, bracket guide frame 310, inner support frame 311, horizontal plate 3111, vertical plate 3112, outer support frame 312, buffer space 313, bracket slider 320, bracket guide connector 330, longitudinal frame 340, support roller 350; adjustable distance linkage device 400, linkage Wheel 410, first linkage part 411, first linkage part sidewall 412, second linkage part 413, second linkage part sidewall 414, first transmission belt 420, second transmission belt 430, first driven wheel 440, second driven wheel 450, bracket guide rail 460; first edge grinding drive device 500, first edge grinding drive guide rail 510, first edge grinding drive slider 520, first edge grinding drive motor 530, first edge grinding device transmission frame 540, first edge grinding guide connector 541. Detailed Implementation

[0032] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0033] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0034] In the description of this utility model, "multiple" means two or more, and "greater than," "less than," "exceeding," etc., are understood to exclude the stated number. The use of "first" and "second" in the description is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, or implicitly specifying the number of indicated technical features or their sequential relationship.

[0035] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.

[0036] The following is for reference. Figure 1 and Figure 2 This invention describes a grinding and adjusting structure according to an embodiment of the present invention.

[0037] like Figure 1 and Figure 2 As shown, the edge grinding and spacing adjustment structure according to an embodiment of the present utility model includes a conveyor line 100, a first edge grinding device 201, a second edge grinding device 202, a bracket 300, and a spacing adjustment linkage device 400.

[0038] The conveyor line 100 allows the sheet material 101 to move forward on it. A first edge-grinding device 201 is located on the left side of the conveyor line 100 and can move left and right. A second edge-grinding device 202 is fixedly connected to the right side of the conveyor line 100. A bracket 300 is located between the first edge-grinding device 201 and the second edge-grinding device 202 and can move left and right. An adjustable linkage device 400 includes a linkage wheel 410, on which a first transmission belt 420 and a second transmission belt 430 are mounted. The first transmission belt 420 is connected to the first edge-grinding device 201, and the second transmission belt 430 is connected to the bracket 300. The first edge-grinding device 201 can sequentially drive the bracket 300 to move together via the first transmission belt 420, the linkage wheel 410, and the second transmission belt 430.

[0039] For example, such as Figure 1 and Figure 2As shown, the conveyor line 100 is relatively fixed during operation. The sheet material 101 can move forward on the conveyor line 100. The first edge-grinding device 201 is located on the left side of the conveyor line 100. The second edge-grinding device 202 is fixedly connected to the right side of the conveyor line 100. That is, the second edge-grinding device 202 is relatively fixed on the right side, while the first edge-grinding device 201 can move left and right to adjust the distance between the first edge-grinding device 201 and the second edge-grinding device 202. The bracket 300 is located between the first edge-grinding device 201 and the second edge-grinding device 202, and the bracket 300 can also move between the first edge-grinding device 201 and the second edge-grinding device 202. The distance adjustment linkage device 400 includes a linkage wheel 410, on which a first transmission belt 420 and a second transmission belt 430 are sleeved. The first transmission belt 420 is connected to the first edge-grinding device 201, and the second transmission belt 430 is connected to the bracket 300. The rotation of the linkage wheel 410 drives the first transmission belt 420 and the second transmission belt 430 to move. The first transmission belt 420 and the second transmission belt 430 are respectively linked with the first edge grinding device 201 and the bracket 300.

[0040] In practical work, refer to Figure 3 , Figure 4 After determining the width of the board 101, the position of the first edge grinding device 201 can be adjusted accordingly to ensure that the distance between the first edge grinding device 201 and the second edge grinding device 202 is appropriate, so that the first edge grinding device 201 and the second edge grinding device 202 can perform edge grinding work on the left and right sides of the board 101.

[0041] Specifically, simply adjust the position of the first edge-grinding device 201 left or right. Since the first transmission belt 420 is connected to the first edge-grinding device 201, the first edge-grinding device 201 can drive the first transmission belt 420 to move. Then, the first transmission belt 420 can drive the linkage wheel 410 to rotate, and the rotation of the linkage wheel 410 can drive the second transmission belt 430 to move, thereby causing the traction bracket 300 to move along with the first edge-grinding device 201.

[0042] Therefore, the grinding and adjusting structure of this utility model only requires adjusting the position of the first grinding device 201 to adjust the distance between the first grinding device 201 and the second grinding device 202 to match the plate 101, and at the same time, it drives the bracket 300 to adjust its position to support the plate 101. The above-mentioned adjustment work becomes simple and convenient, which helps to improve work efficiency.

[0043] It should be noted that the above-mentioned pitch adjustment process can be carried out when the unloaded plate 101 is not on the conveyor line 100, for example, to perform preliminary pitch adjustment; or it can be carried out when the loaded plate 101 is not on the conveyor line 100, for example, to perform fine adjustment.

[0044] In some embodiments of this utility model, reference is made to Figure 5 The adjustable linkage device 400 also includes a first driven wheel 440 and a second driven wheel 450. A first linkage part 411 and a second linkage part 413 are provided on the linkage wheel 410. A first transmission belt 420 is sleeved between the first driven wheel 440 and the first linkage part 411, and a second transmission belt 430 is sleeved between the second driven wheel 450 and the second linkage part 413. That is, one end of the first transmission belt 420 and the second transmission belt 430 are both sleeved on the linkage wheel 410, and the other ends are respectively sleeved on the first driven wheel 440 and the second driven wheel 450.

[0045] To ensure smooth operation of the linkage mechanism, the first drive belt 420 is fitted onto the first driven pulley 440 and the first linkage part 411 at both ends, and the second drive belt 430 is fitted between the second driven pulley 450 and the second linkage part 413 at both ends. This design allows the linkage pulley 410 to simultaneously drive both the first drive belt 420 and the second drive belt 430, ensuring that the first drive belt 420 and the second drive belt 430 do not interfere with each other during operation, enabling the entire pitch-adjusting linkage device to operate efficiently and stably.

[0046] In some embodiments of this utility model, the first linkage part 411 and the second linkage part 413 are coaxial cylindrical structures, the first transmission belt 420 is sleeved on the first linkage part side wall 412 of the first linkage part 411, the second transmission belt 430 is sleeved on the second linkage part side wall 414 of the second linkage part 413, and the radius of the first linkage part 411 is twice the radius of the second linkage part 413.

[0047] In this design, the first linkage part 411 and the second linkage part 413 of the linkage wheel 410 are both cylindrical structures and lie on the same axis, ensuring that they can work together to achieve the intended function of driving the first transmission belt 420 and the second transmission belt 430. The first transmission belt 420 is designed to be installed on the side wall of the first linkage part 411, while the second transmission belt 430 is installed on the side wall of the second linkage part 413. This arrangement ensures that the first and second linkage parts have sufficient friction with the first and second transmission belts, enabling the transmission belts to effectively transmit power.

[0048] The diameter of the first linkage part 411 is designed to be twice the diameter of the second linkage part 413. Combining the linear velocity formula, vv represents linear velocity = 2πr / t (t represents time, r represents radius), it can be ensured that when the linkage wheel 410 rotates for a certain time, the moving path length of the first transmission belt 420 is twice the moving path length of the second transmission belt 430. That is, the displacement length of the bracket 300 is exactly half the displacement length of the first edge grinding device 201, ensuring that the bracket 300 can be kept in the middle position between the first edge grinding device 201 and the second edge grinding device 202, so as to better support the middle position of the plate 101.

[0049] In some embodiments of this utility model, the adjustable linkage device 400 further includes a bracket guide rail 460, which extends in the left and right direction. A bracket guide frame 310 is provided on the lower side of the bracket 300. The bracket guide frame 310 includes a "Π"-shaped inner support frame 311. The inner support frame 311 includes a middle horizontal plate 3111 and vertical plates 3112 on the front and rear sides. A bracket slider 320 is provided on the lower side of the horizontal plate 3111. The bracket slider 320 is engaged with the bracket guide rail 460. A bracket guide connector 330 is provided on the lower side of the vertical plate 3112. The bracket guide connector 330 is connected to the second transmission belt 430.

[0050] The bracket guide rail 460 extends in the left-right direction to match the displacement path of the bracket 300. The inner support frame 311 of the bracket guide frame 310 serves as an internal support structure, a design that helps improve the strength and stability of the structure. The horizontal plate 3111 of the inner support frame 311 connects to the bracket slider 320, which can smoothly engage with the bracket guide rail 460, thereby enabling the bracket 300 to move and be positioned smoothly. The vertical plate 3112 of the inner support frame 311 connects to the bracket guide connector 330, which is connected to the second transmission belt 430, ensuring the synchronicity and coordination of the bracket 300 during movement.

[0051] In some embodiments of this utility model, an outer support frame 312 is provided on the outer side of the inner support frame 311. The upper side of the outer support frame 312 is connected to the lower side of the bracket 300, and a buffer space 313 is left between the outer wall of the inner support frame 311 and the inner wall of the outer support frame 312. The design of the buffer space 313 ensures that the bracket 300 can reduce vibration when moving. Especially under load, that is, when the bracket 300 supports the plate 101 while moving, this avoids excessive vibration of the bracket 300 affecting the plate 101.

[0052] In some embodiments of this utility model, reference is made to Figure 6 , Figure 7A first edge-grinding drive device 500 is provided on the conveyor line 100. The first edge-grinding drive device 500 includes a first edge-grinding drive guide rail 510, a first edge-grinding drive slider 520, and a first edge-grinding drive motor 530. The first edge-grinding drive guide rail 510 extends in the left and right direction. The first edge-grinding drive slider 520 is engaged with the first edge-grinding drive guide rail 510 and is connected to the lower side of the first edge-grinding device 201. The first edge-grinding drive guide rail 510 can guide the first edge-grinding drive slider 520 and the first edge-grinding device 201 to move left and right. The first edge-grinding drive motor 530 is connected to the first edge-grinding device 201 and can drive the first edge-grinding device 201 to move left and right. The first edge-grinding drive motor 530 drives the first edge-grinding device 201 to move, while the first edge-grinding drive guide rail 510 guides the first edge-grinding drive slider 520 to move, ensuring that the movement of the first edge-grinding device 201 is sufficiently smooth, thereby ensuring that the edge-grinding process of the board 101 is sufficiently accurate and reliable.

[0053] In this embodiment, the first edge grinding device 201 can be a lead screw stepper motor.

[0054] In some embodiments of this utility model, a first edge grinding device transmission frame 540 is provided on the lower side of the first edge grinding device 201, and a first edge grinding guide connector 541 is provided on the lower side of the first edge grinding device transmission frame 540. The first edge grinding guide connector 541 is connected to the first transmission belt 420. That is, the first edge grinding device 201 is connected to the first transmission belt 420 through the first edge grinding guide connector 541, ensuring that the first edge grinding device 201 can move in conjunction with the first transmission belt 420, and then the linkage wheel 410 and the second transmission belt 430 pull the bracket 300 to move synchronously.

[0055] A glass sheet edging apparatus according to a second aspect embodiment of the present invention includes an edging adjustment structure according to the first aspect embodiment of the present invention described above. (Refer to...) Figure 1 , Figure 2 After determining the width of the board 101, the position of the first edge-grinding device 201 can be adjusted accordingly to ensure that the distance between the first edge-grinding device 201 and the second edge-grinding device 202 is appropriate, enabling them to perform edge-grinding work on the left and right sides of the board 101. When the first edge-grinding device 201 moves, it drives the first transmission belt 420. The first transmission belt 420 then drives the linkage wheel 410 to rotate, which in turn drives the second transmission belt 430, causing the traction bracket 300 to move along with the first edge-grinding device 201.

[0056] Therefore, the grinding and adjusting structure of this utility model only needs to adjust the position of the first grinding device 201 to adjust the distance between the first grinding device 201 and the second grinding device 202 to match the plate 101, and at the same time drive the bracket 300 to adjust its position to match and support the plate 101.

[0057] According to the glass plate edging device of the present invention, by adopting the above-mentioned edging adjustment structure, the steps of adjusting the size distance of the glass plate edging device are reduced, which facilitates the lightweight and automated design of the glass plate edging device, and can also improve the maintenance convenience of the glass plate edging device and improve production efficiency.

[0058] In some embodiments of this utility model, both the first edge grinding device 201 and the second edge grinding device 202 are equipped with an edge grinding mechanism 200. The edge grinding mechanism 200 includes a lower active conveyor belt 210 for edge pressing and an upper passive conveyor belt 220 for edge pressing. The passive conveyor belt 220 and the active conveyor belt 210 can press down the upper and lower sides of the plate 101. A grinding machine 230 is arranged in the edge grinding mechanism 200 away from the bracket. During actual edge grinding, the passive conveyor belt 220 and the active conveyor belt 210 cooperate to press down the upper and lower sides of the edge positions of the plate 101, and then the grinding machine 230 of the edge grinding mechanism 200 performs edge grinding work on the edge of the plate 101. While the edge grinding work is in progress, the active conveyor belt 210 can continue to drive the plate 101 forward on the conveyor line 100 while being edged. The pressing driven conveyor belt 220, as a driven structure, presses down on the plate 101 while moving forward along with the plate 101.

[0059] In some embodiments of this utility model, the bracket 300 includes a longitudinal frame 340 extending front to back, and a plurality of rollers 350 are distributed on the upper side of the longitudinal frame 340. The rollers 350 can support the lower side of the plate 101. When the bracket 300 supports the plate 101, the rollers 350 support the plate 101 and can roll in coordination with the movement of the plate 101 to avoid wear on the plate 101.

[0060] The stone slab edge grinding device according to the third aspect of the present invention includes the edge grinding adjustment structure according to the first aspect of the present invention, that is, the edge grinding adjustment structure is also applicable to the stone slab processing device.

[0061] Other components and operations of the plate grinding device according to the embodiments of this utility model are known to those skilled in the art and will not be described in detail here.

[0062] The following is for reference. Figure 1 and Figure 2The edge grinding and spacing adjustment structure according to an embodiment of the present invention is described in detail with reference to a specific example. It is to be understood that the following description is merely illustrative and not intended to limit the scope of the invention.

[0063] like Figure 1 and Figure 2 As shown, the edge grinding and spacing adjustment structure of this utility model embodiment includes a conveyor line 100, an edge grinding mechanism 200, a bracket 300, a spacing adjustment linkage device 400, and a first edge grinding drive device 500.

[0064] Conveyor line 100 conveys sheet material 101. First edge grinding device 201 is movable on the left side of conveyor line 100, second edge grinding device 202 is fixed on the right side of conveyor line 100, and bracket 300 is movable between first edge grinding device 201 and second edge grinding device 202.

[0065] The edge grinding mechanism 200 is located on the first edge grinding device 201 and the second edge grinding device 202 on the left and right sides. The edge grinding mechanism 200 includes an edge-driving conveyor belt 210, a pressing driven conveyor belt 220, and a grinding machine 230. The first edge grinding drive device 500 is used to drive the first edge grinding device 201 to move. The first edge grinding drive device 500 includes a first edge grinding drive guide rail 510, a first edge grinding drive slider 520, a first edge grinding drive motor 530, a first edge grinding device transmission frame 540, and a first edge grinding guide connector 541. The second edge grinding device 202 is fixed.

[0066] The bracket 300 is located in the middle of the conveyor line 100. The bracket 300 includes a bracket guide frame 310, an inner support frame 311, a horizontal plate 3111, a vertical plate 3112, an outer support frame 312, a buffer space 313, a bracket slider 320, a bracket guide connector 330, a longitudinal frame 340, and a support roller 350.

[0067] The adjustable linkage device 400 includes a linkage wheel 410, a first linkage part 411, a side wall of the first linkage part 412, a second linkage part 413, a side wall of the second linkage part 414, a first transmission belt 420, a second transmission belt 430, a first driven wheel 440, a second driven wheel 450, and a bracket guide rail 460.

[0068] According to the edge grinding and distance adjustment structure of this utility model embodiment, by setting it up in this way, at least the following effects can be achieved: depending on the size of the plate 101, only the position of the first edge grinding device 201 needs to be adjusted to adjust the distance between the first edge grinding device 201 and the second edge grinding device 202. At the same time, the linkage function of the distance adjustment linkage device 400 can be used to drive the bracket 300 to adjust its position together to support the plate 101. The above-mentioned distance adjustment structure is simple and easy to use, and the distance adjustment work becomes convenient and efficient, which is conducive to improving the efficiency of edge grinding work.

[0069] In the description of this specification, references to terms such as "some embodiments" or "as one might imagine" indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0070] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A grinding edge adjustment structure, characterized in that, include: The conveyor line (100) and the plate (101) are capable of moving forward on the conveyor line (100); The first edge grinding device (201) is located on the left side of the conveyor line (100), and the first edge grinding device (201) can move left and right; The second edge grinding device (202) is fixedly connected to the right side of the conveyor line (100); A bracket (300) is located between the first edge grinding device (201) and the second edge grinding device (202), and the bracket (300) can move left and right; The adjustable linkage device (400) includes a linkage wheel (410), on which a first transmission belt (420) and a second transmission belt (430) are fitted. The first transmission belt (420) is connected to the first edge grinding device (201), and the second transmission belt (430) is connected to the bracket (300). The first edge grinding device (201) can drive the bracket (300) to move together through the first transmission belt (420), the linkage wheel (410), and the second transmission belt (430) in sequence.

2. The edge grinding and spacing adjustment structure according to claim 1, characterized in that, The adjustable linkage device (400) further includes a first driven wheel (440) and a second driven wheel (450). The linkage wheel (410) is provided with a first linkage part (411) and a second linkage part (413). The first transmission belt (420) is sleeved between the first driven wheel (440) and the first linkage part (411), and the second transmission belt (430) is sleeved between the second driven wheel (450) and the second linkage part (413).

3. The edge grinding and spacing adjustment structure according to claim 2, characterized in that, The first linkage part (411) and the second linkage part (413) are coaxial cylindrical structures. The first transmission belt (420) is sleeved on the first linkage part side wall (412) of the first linkage part (411), and the second transmission belt (430) is sleeved on the second linkage part side wall (414) of the second linkage part (413). The radius of the first linkage part (411) is twice the radius of the second linkage part (413).

4. The edge grinding and spacing adjustment structure according to claim 1, characterized in that, The adjustable linkage device (400) also includes a bracket guide rail (460), which extends in the left and right direction. A bracket guide frame (310) is provided on the lower side of the bracket (300). The bracket guide frame (310) includes a "Π"-shaped inner support frame (311). The inner support frame (311) includes a middle horizontal plate (3111) and vertical plates (3112) on the front and rear sides. A bracket slider (320) is provided on the lower side of the horizontal plate (3111). The bracket slider (320) is engaged with the bracket guide rail (460). A bracket guide connector (330) is provided on the lower side of the vertical plate (3112). The bracket guide connector (330) is connected to the second transmission belt (430).

5. The edge grinding and spacing adjustment structure according to claim 4, characterized in that, An outer support frame (312) is provided on the outside of the inner support frame (311). The upper side of the outer support frame (312) is connected to the lower side of the bracket (300). A buffer space (313) is left between the outer wall of the inner support frame (311) and the inner wall of the outer support frame (312).

6. The edge grinding and spacing adjustment structure according to claim 1, characterized in that, The conveyor line (100) is provided with a first edge grinding drive device (500), which includes a first edge grinding drive guide rail (510), a first edge grinding drive slider (520) and a first edge grinding drive motor (530). The first edge grinding drive guide rail (510) extends in the left and right direction, the first edge grinding drive slider (520) is engaged on the first edge grinding drive guide rail (510), the first edge grinding drive slider (520) is connected to the lower side of the first edge grinding device (201), and the first edge grinding drive guide rail (510) can guide the first edge grinding drive slider (520) and the first edge grinding device (201) to move left and right; The first edge grinding drive motor (530) is connected to the first edge grinding device (201), and the first edge grinding drive motor (530) can drive the first edge grinding device (201) to move left and right.

7. The edge grinding and spacing adjustment structure according to claim 1, characterized in that, The first edge grinding device (201) is provided with a first edge grinding device transmission frame (540) on its lower side, and a first edge grinding guide connector (541) is provided on its lower side. The first edge grinding guide connector (541) is connected to the first transmission belt (420).

8. A glass sheet edge grinding device, characterized in that, It includes the edge grinding and spacing adjustment structure according to any one of claims 1 to 7.

9. The glass sheet edging device according to claim 8, characterized in that, Both the first edge grinding device (201) and the second edge grinding device (202) are equipped with an edge grinding mechanism (200). The edge grinding mechanism (200) includes a lower edge active conveyor belt (210) and an upper edge pressing driven conveyor belt (220). The edge pressing driven conveyor belt (220) and the edge active conveyor belt (210) can press down the upper and lower sides of the plate (101). A grinding machine (230) is provided in the edge grinding mechanism (200) away from the bracket.

10. The glass sheet edging apparatus according to claim 8, characterized in that, The bracket (300) includes a longitudinal frame (340) extending forward and backward, and a plurality of rollers (350) are distributed on the upper side of the longitudinal frame (340), which can support the lower side of the plate (101).