Glass edging machine with adjustable processing width

By introducing a gantry frame and a spacing adjustment mechanism into the glass edging machine, the distance of the edging module can be adjusted, which solves the problem of fixed position of the grinding head in the existing technology, improves production efficiency and processing accuracy, and reduces labor costs and equipment failure risk.

CN224475985UActive Publication Date: 2026-07-10ZHONGSHAN XINGHE GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN XINGHE GLASS CO LTD
Filing Date
2025-08-15
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing glass edging machines cannot flexibly adjust the position of the grinding head, resulting in frequent equipment changes or complex adjustments, which reduces production efficiency, increases labor costs, and affects processing accuracy and product quality.

Method used

A glass edging machine including a gantry, a sliding seat, and a spacing adjustment mechanism was designed. The sliding seat is driven to move by a telescopic component and a connecting rod, thereby realizing the distance adjustment of the edging module and supporting the processing of glass of different widths.

Benefits of technology

This technology enables the glass edging machine to adjust its width, improving production efficiency and processing accuracy, simplifying equipment operation, and reducing labor costs and equipment failure risks.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224475985U_ABST
    Figure CN224475985U_ABST
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Abstract

The utility model relates to glass edging machine technical field, especially in processing width adjustable glass edging machine, the portal frame is fixed with horizontal shift guide rail, two sliding seats are slidably connected on the horizontal shift guide rail, and the edge grinding module is fixed on the sliding seat, and the spacing adjustment mechanism for driving two sliding seats to be synchronous and close to each other or synchronous and away from each other is arranged on the portal frame. When using the utility model, the spacing of two edge grinding modules on two sliding seats is adjusted, the glass processing of different width can be completed on line, and the production efficiency and processing precision of glass edging are ensured.
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Description

Technical Field

[0001] This utility model relates to the field of glass edging machine technology, and in particular to a glass edging machine with adjustable processing width. Background Technology

[0002] In the glass processing industry, glass edging machines are key equipment, mainly used for grinding and polishing the edges of glass to improve its safety and aesthetics. With the increasingly diversified demands for glass products from fields such as architectural decoration and electronic displays, glass sizes and specifications are also showing a trend towards diversification.

[0003] However, existing glass edging machines generally suffer from a fixed grinding head position, making it impossible to flexibly adjust according to the width of the glass. When processing glass of different widths, operators often need to frequently change to a suitable edging machine or perform complex disassembly and reassembly adjustments on the same edging machine. This not only severely reduces production efficiency and increases labor costs, but also easily leads to equipment failure due to improper operation, affecting processing accuracy and product quality. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings and deficiencies of existing technologies by providing a glass edging machine with adjustable processing width.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] The present invention discloses a glass edging machine with adjustable processing width, comprising a gantry frame; a transverse guide rail fixed on the gantry frame; two sliding seats slidably connected on the transverse guide rail; an edging module fixed on each sliding seat; and a spacing adjustment mechanism provided on the gantry frame for driving the two sliding seats to move closer or further apart synchronously.

[0007] Furthermore, the spacing adjustment mechanism includes a sliding sleeve, a telescopic assembly, and two connecting rods; a fixed seat is fixed on the gantry frame; both ends of the telescopic assembly are respectively fixed on the sliding sleeve and the fixed seat; the two connecting rods are symmetrically arranged on both sides of the sliding sleeve; both ends of the connecting rods are respectively hinged to the sliding sleeve and the sliding seat; a fixed guide rail is inherent on the gantry frame; the sliding sleeve is slidably connected to the fixed guide rail.

[0008] Furthermore, the telescopic assembly includes a lead screw nut, a lead screw, a gearbox, and a motor; the outer shell of the gearbox is fixed on a fixed base; the lead screw nut is fixed on a sliding sleeve; the lead screw is threaded onto the lead screw nut; both ends of the motor are respectively fixed to the fixed base and the input end of the gearbox; one end of the lead screw is fixed to the output end of the gearbox; and the other end of the lead screw is rotatably connected to the gantry frame.

[0009] Furthermore, the edge grinding module includes an edge grinding spindle, a grinding head fixed to the output end of the edge grinding spindle, and a limiting seat fixed to the outer shell of the edge grinding spindle; a lifting slider is fixed on the limiting seat; a lifting guide rail that is slidably connected to the lifting slider is provided on the surface of the sliding seat; and a support limiting strip is fixed to the bottom of the sliding seat.

[0010] The bottom end of the limiting seat is attached to the supporting limiting strip; the top of the sliding seat is provided with a locking element that presses against the top of the limiting seat;

[0011] Furthermore, the locking component includes a rotating shaft rotatably connected to the sliding seat, an eccentric wheel fixed to the shaft body, and a handle fixed to the side wall of the rotating shaft; a torsion spring is sleeved on the shaft body; the two ends of the torsion spring are respectively fixed to the sliding seat and the rotating shaft; a stop bar is fixed on the sliding seat; the stop bar is arranged on the swing path of the handle bar.

[0012] With the above structure, the beneficial effects of this utility model are as follows: a conveyor line for conveying glass is set at the bottom of the gantry. When the glass plate passes through the gantry, the edge grinding modules on both sides simultaneously grind the glass on both sides. When it is necessary to adjust the distance between the two edge grinding modules, the spacing adjustment mechanism drives the two sliding seats to move simultaneously, so that the two edge grinding modules on the two sliding seats can adjust the distance. This enables the processing of glass of different widths to be completed online, ensuring the production efficiency and processing accuracy of glass edge grinding. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model;

[0014] Figure 2 This is a first-view perspective view of the present invention after the spacing adjustment mechanism and the edge grinding module have been removed.

[0015] Figure 3 yes Figure 2 Enlarged view of part A in the image;

[0016] Figure 4 This is a second perspective view of the present invention after the spacing adjustment mechanism and the edge grinding module have been removed.

[0017] Figure 5 This is a structural diagram of the spacing adjustment mechanism;

[0018] Figure 6 This is a structural diagram of the edge grinding module;

[0019] Explanation of reference numerals in the attached figures:

[0020] 1. Spacing adjustment mechanism; 101. Connecting rod; 102. Sliding sleeve; 103. Lead screw nut; 104. Lead screw;

[0021] 105. Gearbox; 106. Motor; 107. Fixed base; 2. Sliding base; 201. Support limit bar;

[0022] 3. Edge grinding module; 301. Edge grinding spindle; 302. Grinding head; 303. Lifting slider; 304. Limit seat;

[0023] 4. Gantry frame; 401. Fixed guide rail; 5. Lifting guide rail; 6. Horizontal guide rail; 7. Handle lever;

[0024] 8. Shaft; 9. Eccentric wheel; 10. Torsion spring; 11. Stop lever. Detailed Implementation

[0025] The present invention will be further described below with reference to the accompanying drawings.

[0026] like Figures 1 to 6 As shown, the glass edging machine with adjustable processing width according to this utility model includes a gantry frame 4; a transverse guide rail 6 is fixed on the gantry frame 4; two sliding seats 2 are slidably connected on the transverse guide rail 6; an edging module 3 is fixed on each of the sliding seats 2; and a spacing adjustment mechanism 1 is provided on the gantry frame 4 for driving the two sliding seats 2 to move closer or further apart synchronously.

[0027] A conveyor line for transporting glass is set at the bottom of the gantry 4. When the glass plate passes through the gantry 4, the edge grinding modules 3 on both sides grind the glass on both sides simultaneously. When it is necessary to adjust the distance between the two edge grinding modules 3, the spacing adjustment mechanism 1 drives the two sliding seats 2 to move simultaneously, so that the two edge grinding modules 3 on the two sliding seats 2 can adjust the distance. This enables the processing of glass of different widths to be completed online, ensuring the production efficiency and processing accuracy of glass edge grinding.

[0028] In a preferred embodiment of this utility model, the spacing adjustment mechanism 1 includes a sliding sleeve 102, a telescopic assembly, and two connecting rods 101; a fixed seat 107 is fixed on the gantry frame 4; both ends of the telescopic assembly are respectively fixed to the sliding sleeve 102 and the fixed seat 107; the two connecting rods 101 are symmetrically arranged on both sides of the sliding sleeve 102; both ends of the connecting rods 101 are respectively hinged to the sliding sleeve 102 and the sliding seat 107; a fixed guide rail 401 is inherent on the gantry frame 4; the sliding sleeve 102 is slidably connected to the fixed guide rail 401.

[0029] The telescopic component drives the sliding sleeve 102 to slide along the length of the fixed guide rail 401, pulling the two connecting rods 101 to move synchronously, so that the sliding seats 2 on both sides move synchronously along the transverse guide rail 6, realizing that the grinding modules 3 on both sides move synchronously closer to each other or synchronously further away from each other, thereby adjusting the distance between the grinding modules 3; the telescopic component can be a cylinder; the power structure is adopted to meet the requirements of the structure, simplifying the power structure.

[0030] In a preferred embodiment of this utility model, the telescopic assembly includes a lead screw nut 103, a lead screw 104, a reduction gearbox 105, and a motor 106; the outer shell of the reduction gearbox 105 is fixed on a fixed base 107; the lead screw nut 103 is fixed on a sliding sleeve 102; the lead screw 104 is threadedly connected to the lead screw nut 103; both ends of the motor 106 are respectively fixed to the fixed base 107 and the input end of the reduction gearbox 105; one end of the lead screw 104 is fixed to the output end of the reduction gearbox 105; the other end of the lead screw 104 is rotatably connected to the gantry frame 4.

[0031] The motor 106 drives the lead screw 104 to rotate on the gantry frame 4 through the reduction gearbox 105; the lead screw 104 pushes the sliding sleeve 102 to move linearly along the fixed guide rail 401.

[0032] In a preferred embodiment of this utility model, the edge grinding module 3 includes an edge grinding spindle 301, a grinding head 302 fixed to the output end of the edge grinding spindle 301, and a limiting seat 304 fixed to the outer shell of the edge grinding spindle 301; a lifting slider 303 is fixed on the limiting seat 304; a lifting guide rail 5 that is slidably connected to the lifting slider 303 is provided on the surface of the sliding seat 2; and a supporting limiting strip 201 is fixed to the bottom of the sliding seat 2.

[0033] The bottom end of the limiting seat 304 is attached to the supporting limiting strip 201; the top of the sliding seat 2 is provided with a locking member that presses against the top of the limiting seat 304;

[0034] The grinding spindle 301 and grinding head 302 are not fundamentally different from existing technologies, so they will not be discussed in detail.

[0035] The lifting slider 303 is inserted into the lifting guide rail 5, and the bottom end of the limiting seat 304 is attached to the supporting limiting strip 201. Finally, a locking element is set on the limit seat 304 when it is pulled upward, so that the limit seat 304 and the grinding spindle 301 are limited, and the grinding module 3 is fixed on the sliding seat 2. When it is necessary to remove and replace the entire grinding module 3, the locking element is loosened, and the entire grinding module 3 can be pulled upward along the lifting guide rail 5, which is convenient for disassembly, assembly and maintenance of the grinding module 3.

[0036] In a preferred embodiment of this utility model, the locking component includes a rotating shaft 8 rotatably connected to the sliding seat 2, an eccentric wheel 9 fixed to the shaft body of the rotating shaft 8, and a handle 7 fixed to the side wall of the rotating shaft 8; a torsion spring 10 is sleeved on the shaft body of the rotating shaft 8; the two ends of the torsion spring 10 are respectively fixed to the sliding seat 2 and the rotating shaft 8; a stop bar 11 is fixed on the sliding seat 2; the stop bar 11 is arranged on the swing path of the handle 7;

[0037] Under the force of the torsion spring 10, the handle 7 tends to rotate towards the stop bar 11. When the handle 7 is in contact with the stop bar 11, the eccentric wheel 9 blocks and is in contact with the upper part of the limit seat 304, so that the limit seat 304 is fixed between the eccentric wheel 9 and the support limit bar 201. When it is necessary to remove the edge grinding module 3, rotate the handle 7 so that the notch of the eccentric wheel 9 is aligned with the limit seat 304, that is, the eccentric wheel 9 and the limit seat 304 are misaligned, so that the limit seat 304 can be pulled out upward along the lifting guide rail 5.

[0038] The above description is only a preferred embodiment of the present utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model patent application are included in the scope of the present utility model patent application.

Claims

1. A glass edging machine with adjustable processing width, characterized in that: It includes a gantry frame (4); a transverse guide rail (6) is fixed on the gantry frame (4); two sliding seats (2) are slidably connected on the transverse guide rail (6); a grinding module (3) is fixed on each of the sliding seats (2); a spacing adjustment mechanism (1) is provided on the gantry frame (4) for driving the two sliding seats (2) to move closer or further away from each other synchronously, the spacing adjustment mechanism (1) includes a sliding sleeve (102), a telescopic component and two connecting rods (101); A fixed seat (107) is fixed on the gantry frame (4); the two ends of the telescopic component are respectively fixed on the sliding sleeve (102) and the fixed seat (107); two connecting rods (101) are symmetrically arranged on both sides of the sliding sleeve (102); the two ends of the connecting rod (101) are respectively hinged on the sliding sleeve (102) and the sliding seat (2); the gantry frame (4) has a fixed guide rail (401); the sliding sleeve (102) is slidably connected to the fixed guide rail (401).

2. The glass edging machine with adjustable processing width according to claim 1, characterized in that: The telescopic assembly includes a lead screw nut (103), a lead screw (104), a gearbox (105), and a motor (106); the outer shell of the gearbox (105) is fixed on a fixed base (107); the lead screw nut (103) is fixed on a sliding sleeve (102); the lead screw (104) is threaded onto the lead screw nut (103); both ends of the motor (106) are fixed to the fixed base (107) and the input end of the gearbox (105), respectively; one end of the lead screw (104) is fixed to the output end of the gearbox (105); the other end of the lead screw (104) is rotatably connected to the gantry frame (4).

3. The glass edging machine with adjustable processing width according to claim 1, characterized in that: The edge grinding module (3) includes an edge grinding spindle (301), a grinding head (302) fixed to the output end of the edge grinding spindle (301), and a limiting seat (304) fixed to the outer shell of the edge grinding spindle (301); a lifting slider (303) is fixed on the limiting seat (304); a lifting guide rail (5) that is slidably connected to the lifting slider (303) is provided on the surface of the sliding seat (2); a support limiting strip (201) is fixed at the bottom of the sliding seat (2); The bottom end of the limiting seat (304) is attached to the supporting limiting strip (201); the top of the sliding seat (2) is provided with a locking member that presses against the top of the limiting seat (304).

4. The glass edging machine with adjustable processing width according to claim 3, characterized in that: The locking component includes a rotating shaft (8) rotatably connected to the sliding seat (2), an eccentric wheel (9) fixed to the shaft of the rotating shaft (8), and a handle (7) fixed to the side wall of the rotating shaft (8); the shaft of the rotating shaft (8) is fitted with a torsion spring (10); the two ends of the torsion spring (10) are respectively fixed to the sliding seat (2) and the rotating shaft (8); a stop bar (11) is fixed on the sliding seat (2); the stop bar (11) is set on the swing path of the handle (7).