A roller conveying device for white glass toughening production

By designing a roller conveyor for the production of tempered clear glass, the problems of easy glass damage and insufficient power during transportation were solved, achieving efficient and safe glass transportation and quality control, and maintaining brand reputation.

CN224336641UActive Publication Date: 2026-06-09SHANXI HUAFEI GLASS TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANXI HUAFEI GLASS TECHNOLOGY CO LTD
Filing Date
2025-06-09
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing clear tempered glass is easily damaged by bumps during transportation, resulting in defective products entering the market, and there are also problems with insufficient power in long conveyor lines.

Method used

A roller conveyor device including a support frame, rollers, drive assembly, shock absorption assembly, and inspection assembly was designed. The drive assembly improves conveying efficiency, the shock absorption assembly reduces bumps, and the inspection assembly filters out unqualified products.

Benefits of technology

It improves the quality and performance of clear tempered glass, prevents inferior products from entering the market, and enhances the efficiency of the conveyor line and brand reputation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a drum conveying device for white glass toughened production. The drum conveying device for white glass toughened production includes support frame, a plurality of drum, drive assembly for driving a plurality of drum, shock attenuation component for slowing down the transport jolt, the inspection component for inspecting white glass toughened glass and removing unqualified white glass toughened glass, the utility model discloses a drum conveying device for white glass toughened production avoids the drawback that power source cannot drive all drums when conveying line is too long through drive assembly, thereby improve the conveying efficiency of conveying line, avoid the damage of jolt to white glass toughened glass in the transportation process through shock attenuation component, thereby improve the quality and use effect of white glass toughened glass, remove unqualified white glass toughened glass through inspection component, thereby avoid inferior product to flow into the market, and maintain the brand reputation.
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Description

Technical Field

[0001] This utility model relates to the technical field of glass plate conveying equipment, and in particular to a roller conveying device for the production of white glass tempering. Background Technology

[0002] Clear tempered glass is a special type of glass obtained by tempering ordinary clear glass. After the production of clear tempered glass is completed, it needs to be transported to other areas for the next process. Because the surface of clear tempered glass is smooth and easily sticks to the belt of the belt conveyor, it is not easy to remove. Therefore, roller conveyor devices are often used for transportation.

[0003] In existing technologies, firstly, during transportation, roller conveyors are prone to bumps, which can damage tempered clear glass, thus affecting its quality and performance. Secondly, tempered clear glass may have quality defects during production due to factors such as impurities in raw materials, fluctuations in process parameters, and equipment malfunctions. If defective tempered clear glass is included in subsequent transportation and packaging, inferior products will enter the market, compromising brand reputation. Thirdly, when the conveyor line of the roller conveyor is too long, a single power source may not be able to drive all the rollers, thus reducing the conveying efficiency of the line.

[0004] Therefore, in the current environment, there is a need to design a roller conveyor for the production of white glass tempering in order to solve the technical problems mentioned in the background. Utility Model Content

[0005] This invention provides a roller conveyor device for the production of clear glass tempering, in order to solve the technical problems mentioned in the background art.

[0006] This utility model provides a roller conveyor device for the production of tempered clear glass. The roller conveyor device for the production of tempered clear glass includes a support frame, a plurality of rollers, a drive assembly for driving the plurality of rollers, a shock-absorbing assembly for reducing transport bumps, and an inspection assembly for inspecting tempered clear glass and removing unqualified tempered clear glass. The support frame is placed vertically on the ground, and the plurality of rollers are all mounted on the support frame. The drive assembly is installed on the outer wall of the support frame. The shock-absorbing assembly is provided in multiple parts, each corresponding to one of the plurality of rollers and all mounted on the rollers. The inspection assembly is installed at one end of the support frame.

[0007] Optionally, the drive assembly includes a mounting plate, a reducer, a drive motor, a drive wheel, two driven wheels, a first conveyor belt, multiple auxiliary wheel sets, multiple second conveyor belt sets, and multiple pressure rollers. The mounting plate is mounted on the outer wall of the support frame. The reducer passes through the mounting plate. The output end of the drive motor is connected to the reducer. The drive wheel is mounted on the output end of the reducer. The two driven wheels are respectively mounted on the two rollers. The first conveyor belt is mounted between the drive wheel and the two driven wheels. Each of the multiple auxiliary wheel sets contains multiple auxiliary wheels, and each auxiliary wheel corresponds to one of the multiple rollers, with each auxiliary wheel mounted on one of the rollers. Each of the multiple second conveyor belt sets contains multiple second conveyor belts, and each second conveyor belt corresponds to one of the multiple auxiliary wheel sets, with each second conveyor belt mounted on one of the auxiliary wheels. The multiple pressure rollers are respectively mounted between every two auxiliary wheel sets.

[0008] Optionally, the surface of the pressure wheel is in contact with the surfaces of its two corresponding second conveyor belts.

[0009] Optionally, the shock absorption assembly includes multiple end cap groups and multiple shock absorption washer groups. The multiple end cap groups correspond one-to-one with the multiple rollers. Each of the multiple end cap groups has two end caps, which are respectively installed at both ends of the rollers. Each of the multiple shock absorption washer groups has two washers, which correspond one-to-one with the two end caps and are installed on the end caps.

[0010] Optionally, the end cap is provided with a mounting groove.

[0011] Optionally, the inspection assembly includes an inspection support frame, a vision detector, a transfer unit for changing the transport direction, a transfer frame, multiple transfer rollers, and an elastic baffle. The inspection support frame is installed at the top of the support frame, the vision detector passes through the inspection support frame, the transfer unit is installed at the bottom of the multiple rollers and located at one end of the support frame, the transfer frame is installed at the top of the support frame and located on the side close to the inspection support frame, the multiple transfer rollers are rotatably mounted on the transfer frame, and the elastic baffle is installed at the bottom of the transfer frame.

[0012] Optionally, the transfer unit includes multiple cylinders, a support plate, multiple rollers, multiple third belts, multiple reversing pulleys, multiple fourth belts, and a transfer motor. The multiple cylinders are all mounted on the bottom ends of the multiple rollers, and the output ends of the multiple cylinders are all connected to the bottom end of the support plate. The multiple rollers are all mounted on the support plate. The multiple third belts are respectively installed between every two rollers. The multiple reversing pulleys are all installed on the top end of the support plate. The multiple fourth belts correspond one-to-one with the multiple reversing pulleys and are installed between the reversing pulleys and the rollers. The output end of the transfer motor is connected to one of the rollers.

[0013] The beneficial effects of this utility model are as follows:

[0014] This roller conveyor for the production of tempered clear glass includes a support frame, multiple rollers, a drive assembly for driving the rollers, a shock-absorbing assembly for mitigating transport bumps, and an inspection assembly for inspecting the tempered clear glass and removing defective glass. The support frame is placed vertically on the ground, and the rollers are mounted on the support frame. The drive assembly is installed on the outer wall of the support frame. Multiple shock-absorbing assemblies are provided, each corresponding to one of the rollers, and are all installed on the rollers. The inspection assembly is installed at one end of the support frame. This roller conveyor for the production of tempered clear glass avoids the drawback of the power source being unable to drive all rollers when the conveyor line is too long, thereby improving the conveying efficiency of the conveyor line. The shock-absorbing assemblies prevent damage to the tempered clear glass during transportation, thereby improving the quality and performance of the tempered clear glass. The inspection assembly removes defective tempered clear glass, thus preventing inferior products from entering the market and protecting brand reputation. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a first-view structural schematic diagram of a roller conveyor device for the production of white glass tempering provided by this utility model;

[0017] Figure 2 This is a second-view structural schematic diagram of a roller conveyor device for the production of white glass tempering provided by this utility model;

[0018] Figure 3 yes Figure 2A magnified view of a portion of region A in the middle;

[0019] Figure 4 This is a third-view structural schematic diagram of a roller conveyor device for the production of white glass tempering provided by this utility model;

[0020] Figure 5 This is a fourth-view structural schematic diagram of a roller conveyor device for the production of white glass tempering provided by this utility model;

[0021] Explanation of reference numerals in the attached drawings: 1. Support frame; 2. Roller; 3. Drive assembly; 31. Mounting plate; 32. Reducer; 33. Drive motor; 34. Drive wheel; 35. Driven wheel; 36. First conveyor belt; 37. Auxiliary wheel assembly; 38. Second conveyor belt assembly; 39. Pressure wheel; 4. Shock absorption assembly; 41. End cover assembly; 42. Shock absorption washer assembly; 5. Inspection assembly; 51. Inspection support frame; 52. Vision detector; 53. Transfer section; 531. Cylinder; 532. Support plate; 533. Roller; 534. Third belt; 535. Directional wheel; 536. Fourth belt; 537. Transfer motor; 54. Transfer frame; 55. Transfer roller; 56. Elastic baffle. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. It should be understood that the specific embodiments described herein are only for explaining the present utility model and not for limiting it. Furthermore, it should be noted that, for ease of description, only the parts related to the present utility model are shown in the drawings, not all of the structures. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0023] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of the present invention. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0024] Please see Figures 1 to 5 The present invention provides a roller conveyor device for the production of white glass tempering, comprising a support frame 1, a roller 2, a drive assembly 3, a shock absorption assembly 4, and an inspection assembly 5;

[0025] The support frame 1 is placed vertically on the ground, and multiple rollers 2 are installed on the support frame 1. The drive assembly 3 is installed on the outer wall of the support frame 1. Multiple shock absorption assemblies 4 are provided, each corresponding to one of the multiple rollers 2, and are all installed on the rollers 2. The inspection assembly 5 is installed at one end of the support frame 1.

[0026] Among them, support frame 1 plays a supporting role, providing a stable working environment for the roller conveyor device in the production of white glass tempering;

[0027] At the same time, the drive component 3 is powered on and starts to work, driving multiple rollers 2 to start rotating, so that the white tempered glass can move on the rollers 2. During the transportation of the white tempered glass on the rollers 2, the shock absorption component 4 installed on each roller 2 is used for shock absorption, thereby reducing the bumps generated when the rollers 2 rotate. At the same time, the drive component 3 also solves the problem of excessively long conveyor line and insufficient power source, thereby improving the quality of white tempered glass and improving the conveying efficiency of the conveyor line.

[0028] Furthermore, defective products are screened out by inspection component 5 and discharged from the conveyor line, thereby preventing defective tempered glass from being included in the subsequent transportation process for packaging.

[0029] In this embodiment, the mounting plate 31 is mounted on the outer wall of the support frame, the reducer 32 passes through the mounting plate 31, the output end of the drive motor 33 is connected to the reducer 32, the drive wheel 34 is mounted on the output end of the reducer 32, the two driven wheels 35 are respectively mounted on the two rollers 2, the first conveyor belt 36 is mounted between the drive wheel 34 and the two driven wheels 35, a plurality of auxiliary wheel sets 37 are provided with a plurality of auxiliary wheels, the plurality of auxiliary wheels correspond one-to-one with a plurality of rollers 2, and the auxiliary wheels are all mounted on the rollers, a plurality of second conveyor belt sets 38 are provided with a plurality of second conveyor belts, the plurality of second conveyor belt sets 38 correspond one-to-one with a plurality of auxiliary wheel sets 37, and the second conveyor belts are mounted on the auxiliary wheels, and a plurality of pressure wheels 39 are respectively mounted between every two auxiliary wheel sets 37.

[0030] In this system, the drive motor 33 drives the reducer 32 to work, and the output end of the reducer 32 drives the drive wheel 34 to start rotating. The drive wheel 34 drives two driven wheels 35 to start rotating through the first conveyor belt 36. The two driven wheels 35 then drive the two rollers 2 that cooperate with them to start rotating. The two rollers 2 are equipped with auxiliary wheels, and the auxiliary wheels drive the remaining auxiliary wheels in the auxiliary wheel group 37 to rotate through the second conveyor belt. Subsequently, the second conveyor belt drives another second conveyor belt that is in contact with the pressure wheel 39 to rotate through the pressure wheel 39. In this way, all the rollers 2 achieve the purpose of rotation. This transmission method divides a long conveyor line into several short conveyor lines, thereby avoiding the disadvantages of insufficient power source and improving the conveying efficiency of the conveyor line.

[0031] In this embodiment, the surface of the pressure roller 39 is in contact with the two corresponding surfaces of the second conveyor belt.

[0032] When the first second conveyor belt rotates, it will drive the pressure roller 39 that is in contact with it to start rotating. Subsequently, the pressure roller 39 drives the other second conveyor belt that is in contact with it to rotate, thereby achieving the purpose of the pressure roller 39 driving the subsequent second conveyor belt to rotate.

[0033] At the same time, the pressure roller 39 also has the function of pressing the second conveyor belt, maintaining the tension of the second transmission belt, thereby ensuring the stable operation of the drive assembly 3.

[0034] In this embodiment, a plurality of end cap assemblies 41 correspond one-to-one with a plurality of rollers 2. Each of the plurality of end cap assemblies 41 contains two end caps, which are respectively installed at both ends of the rollers 2. Each of the plurality of shock-absorbing washer assemblies 42 contains two washers, which correspond one-to-one with two end caps and are installed on the end caps.

[0035] The drive assembly 3 drives the roller 2 to start rotating, and the end caps installed at both ends of the roller 2 also rotate accordingly. Each end cap is equipped with a shock-absorbing washer. The rotation of the end cap enables the white tempered glass to move on the conveyor line. During the process of the white tempered glass moving from one end cap to another, the shock-absorbing washer avoids direct contact between the white tempered glass and the roller 2, reducing bumps and breakage during transportation, thereby ensuring the safety of white tempered glass transportation.

[0036] Meanwhile, the shock-absorbing washers are made of rubber, which has good elasticity, thus achieving better shock absorption.

[0037] In this embodiment, a mounting groove is provided on the end cap.

[0038] The shock-absorbing washer is installed in the mounting groove of the end cover, which serves as the mounting groove.

[0039] In this embodiment, the inspection support frame 51 is installed at the top of the support frame 1, the visual detector 52 passes through the inspection support frame 51, the transfer part 53 is installed at the bottom of the plurality of rollers 2 and located at one end of the support frame 1, the transfer frame 54 is installed at the top of the support frame 1 and located on the side close to the inspection support frame 51, the plurality of transfer rollers 55 are rotatably arranged on the transfer frame 54, and the elastic baffle 56 is installed at the bottom of the transfer frame 54.

[0040] Among them, the inspection support frame 51 and the transfer frame 54 play a supporting role, providing a stable working environment for the inspection component 5;

[0041] Simultaneously, when the drive assembly 3 is energized and drives the roller 2 to transport the tempered glass to the inspection assembly 5, the sensor transmits a signal indicating that the tempered glass has reached the expected position to the receiver at the drive assembly 3. The receiver then transmits a stop signal to the controller at the drive motor 33. The controller stops the drive motor 33. At this time, the vision detector 52 transmits the image of the tempered glass to the external control panel, where a manual inspection is conducted to determine whether the tempered glass meets the production standards. If it does, a manual inspection is conducted to transmit a working signal to the controller, causing the drive motor 33 to restart. The glass will continue to be transported along the conveyor line. If it does not meet the standards, a work signal will be sent manually to the transfer unit 53. The transfer unit 53 will then lift and transport the defective tempered glass to the transfer rack 54. The transfer rack 54 is set at an angle, and the tempered glass will slide down through multiple inclined transfer rollers 55 until it stops at the elastic baffle 56. The tempered glass will then be removed. At this time, a work signal will be sent manually to the controller to start the drive motor 33 to continue inspecting the next tempered glass, thereby preventing inferior products from entering the market and protecting the brand reputation.

[0042] In this embodiment, multiple cylinders 531 are installed at the bottom ends of multiple rollers 2, and the output ends of multiple cylinders 531 are connected to the bottom end of the support plate 532. Multiple rollers 533 are threaded through the support plate 532. Multiple third belts 534 are respectively installed between every two rollers 533. Multiple reversing wheels 535 are installed at the top end of the support plate 532. Multiple fourth belts 536 correspond one-to-one with multiple reversing wheels 535, and the fourth belts 536 are installed between the reversing wheels 535 and the rollers 533. The output end of the transfer motor 537 is connected to one of the rollers 533.

[0043] When the transfer unit 53 starts working, the output end of the cylinder 531 pushes the support plate 532 to rise, so that the reversing wheel 535 on the support plate 532 is horizontal with the starting end of the transfer frame 54, so that the white tempered glass can directly enter the transfer frame 54 and avoid jamming.

[0044] At the same time, the transfer motor 537 is energized, which drives one of the rollers 533 to start rotating. The roller 533 driven by the transfer motor 537 drives the next roller 533 to rotate through the third belt 534, and so on. Each roller 533 is equipped with multiple fourth belts 536, and the roller 533 drives multiple directional pulleys 535 to rotate through the multiple fourth belts 536, thereby achieving the purpose of removing the unqualified white tempered glass from the conveyor line.

[0045] In summary, the roller conveyor device for the production of tempered clear glass of this utility model avoids the drawback of the power source being unable to drive all rollers 2 when the conveyor line is too long by using the drive component 3, thereby improving the conveying efficiency of the conveyor line. The shock absorption component 4 avoids damage to the tempered clear glass during transportation by bumps, thereby improving the quality and performance of the tempered clear glass. The inspection component 5 transports out unqualified tempered clear glass, thereby preventing inferior products from entering the market and protecting the brand reputation.

[0046] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.

Claims

1. A roller conveyor device for white glass toughening production, characterized in that, include A support frame, which is placed vertically on the ground; The plurality of rollers are all mounted on the support frame; A drive assembly for driving the plurality of rollers is mounted on the outer wall of the support frame; A shock-absorbing assembly for mitigating transport bumps is provided in multiple units, each corresponding to one of the multiple rollers, and all are mounted on the rollers; An inspection assembly for inspecting clear tempered glass and removing substandard clear tempered glass, the inspection assembly being mounted at one end of the support frame.

2. The drum conveyor for white glass toughening production according to claim 1, characterized in that, The drive assembly includes a mounting plate, a reducer, a drive motor, a drive wheel, two driven wheels, a first conveyor belt, multiple auxiliary wheel sets, multiple second conveyor belt sets, and multiple pressure rollers. The mounting plate is mounted on the outer wall of the support frame. The reducer passes through the mounting plate. The output end of the drive motor is connected to the reducer. The drive wheel is mounted on the output end of the reducer. The two driven wheels are respectively mounted on the two rollers. The first conveyor belt is mounted between the drive wheel and the two driven wheels. Each of the multiple auxiliary wheel sets contains multiple auxiliary wheels, and each auxiliary wheel corresponds to one of the rollers, with each auxiliary wheel mounted on one of the rollers. Each of the multiple second conveyor belt sets contains multiple second conveyor belts, and each second conveyor belt corresponds to one of the multiple auxiliary wheel sets, with each second conveyor belt mounted on one of the auxiliary wheels. The multiple pressure rollers are respectively mounted between every two auxiliary wheel sets.

3. The drum conveyor for white glass toughening production according to claim 2, characterized in that, The surface of the pressure roller is in contact with the two corresponding surfaces of the second conveyor belt.

4. The drum conveyor for white glass toughening production according to claim 1, characterized in that, The shock absorption assembly includes multiple end cap groups and multiple shock absorption washer groups. Each of the multiple end cap groups corresponds to one of the multiple rollers. Each of the multiple end cap groups has two end caps, which are respectively installed at both ends of the rollers. Each of the multiple shock absorption washer groups has two washers, which correspond one-to-one with the two end caps and are installed on the end caps.

5. The drum conveyor for white glass toughening production according to claim 4, characterized in that, The end cap has a mounting groove.

6. A roller conveyor device for the production of tempered clear glass according to claim 1, characterized in that, The inspection assembly includes an inspection support frame, a vision detector, a transfer unit for changing the transport direction, a transfer frame, multiple transfer rollers, and an elastic baffle. The inspection support frame is installed at the top of the support frame, the vision detector passes through the inspection support frame, the transfer unit is installed at the bottom of the multiple rollers and is located at one end of the support frame, the transfer frame is installed at the top of the support frame and is located on the side close to the inspection support frame, the multiple transfer rollers are rotatably mounted on the transfer frame, and the elastic baffle is installed at the bottom of the transfer frame.

7. A roller conveyor device for the production of tempered clear glass according to claim 6, characterized in that, The transfer unit includes multiple cylinders, a support plate, multiple rollers, multiple third belts, multiple reversing pulleys, multiple fourth belts, and a transfer motor. The cylinders are mounted on the bottom ends of the rollers, and their output ends are connected to the bottom end of the support plate. The rollers are mounted on the support plate. The third belts are installed between every two rollers. The reversing pulleys are installed on the top end of the support plate. The fourth belts correspond one-to-one with the reversing pulleys and are installed between the reversing pulleys and the rollers. The output end of the transfer motor is connected to one of the rollers.