A glass production packaging apparatus

By designing a glass production and packaging device with placement slots, placement components, and tensioning components, the problem of unstable glass transportation was solved, and stable fixing and efficient transportation of multi-layer glass were achieved.

CN224409761UActive Publication Date: 2026-06-26江苏越峰新材料股份有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
江苏越峰新材料股份有限公司
Filing Date
2025-06-16
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In current glass transportation processes, the lack of effective buffering and securing between glass panes leads to unstable transportation and a limited quantity transported at one time, increasing transportation costs.

Method used

A glass production packaging device has been designed, including a placement frame slot, a placement assembly, and a tensioning assembly. The device provides cushioning through placement blocks and spacers, and uses locking bolts and springs to achieve layered fixation and stable transportation of the glass.

Benefits of technology

This technology enables stable transportation of multi-layered glass, improves the stability and efficiency of the transportation process, and reduces transportation costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a glass production packing device, including the placement frame groove, the both sides of placement frame groove are provided with the placement subassembly, and the both ends of placement frame groove are provided with the tensioning subassembly, the inside surface of one end of placement frame groove is provided with the rectangular groove, the one end of rectangular groove is provided with the rectangular mouth on placement frame groove, and the horizontal intercalation of placement frame groove is provided with the partition pad, and the both ends of partition pad swing intercalation are arranged in rectangular mouth and rectangular groove, and the placement subassembly includes the mobile gap of symmetrical setting at the side of placement frame groove, and the mobile gap is provided with the placement block, and the outside of placement block is horizontally provided with the operation shaft, and the vertical setting of operation shaft is provided with the fixed plate, and the both ends of placement block are provided with the rectangular fixed groove on the lateral surface of placement frame groove, and the horizontal setting of rectangular fixed groove is provided with the screw hole, and the locking bolt of the symmetrical setting of fixed plate is provided with, and the upper end of placement frame groove is provided with the cover plate, and the connecting bolt of the connection between cover plate and placement frame groove is provided, and the rubber block of distribution is provided at the bottom of cover plate.
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Description

Technical Field

[0001] This utility model belongs to the field of glass production, packaging and transportation equipment, specifically a glass production and packaging device. Background Technology

[0002] Glass requires precise packaging and transportation. During the process, packaging foam needs to be placed between adjacent glass pieces to facilitate subsequent stacking into the packaging box and to ensure stable transportation. The existing method involves placing the glass on a triangular frame by tilting and bringing them close together, and then securing them with a tie. However, there are no protective devices on the edges of the glass, and the triangular frames can only be placed independently during transportation, which limits the number of frames that can be placed on the transport vehicle. This results in a small number of frames per shipment, leading to higher transportation costs and negatively impacting overall production costs and stable transportation operations. Utility Model Content

[0003] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a glass production packaging device to solve the problem that there is no convenient place to place multiple quartz tubes after the existing small-diameter quartz tubes are cut and before packaging, so as to provide workers with a buffer time for packaging.

[0004] To achieve the above objectives, this utility model is implemented through the following technical solution: A glass production packaging device includes a placement frame groove, placement components arranged on both sides of the placement frame groove, tensioning components arranged at both ends of the placement frame groove, a rectangular groove arranged on the inner surface of one end of the placement frame groove, a rectangular opening arranged on the placement frame groove opposite to one end of the rectangular groove, a spacer horizontally inserted inside the placement frame groove, the two ends of the spacer movably inserted into the rectangular opening and the rectangular groove, the placement components include movable notches symmetrically arranged on the side of the placement frame groove, a placement block arranged in the movable notch, an operating shaft horizontally arranged on the outer side of the placement block, a fixing plate vertically arranged on the operating shaft, rectangular fixing grooves arranged on the outer surface of the placement frame groove at the upper and lower ends of the placement block, threaded holes horizontally arranged on the rectangular fixing grooves, and locks symmetrically arranged on the upper and lower ends of the fixing plate. Multiple movable notches are evenly distributed along the height of both sides of the placement frame slot. A sealing panel is installed at the top of the placement frame slot, and connecting bolts are installed between the sealing panel and the placement frame slot. Rubber blocks are distributed at the bottom of the sealing panel. The placement blocks move within the movable notches and protrude into the placement frame slot after movement to support the glass. The placement blocks are locked to the placement frame slot by locking bolts through a fixing plate and a rectangular fixing slot, realizing the layered support of the glass. After the glass is placed, the locking bolts are used to lock both ends of the glass to improve the stability of subsequent transportation. Spacers are placed between adjacent glass panes above and below, contacting each other and providing a buffering effect. The sealing panel is fixed at the top after the glass is placed in the placement frame slot, and the rubber blocks limit the movement of the internal glass.

[0005] The preferred structure of this solution includes setting the length of the placement block to be greater than the length of the moving notch. By setting the placement block with a length greater than the moving notch on the placement frame plate, the placement block can be set to protrude inside the placement frame plate, which is convenient for receiving the glass. At the same time, the placement block can be moved out from the moving notch without affecting the layer-by-layer placement of the glass.

[0006] The preferred structure of this solution also includes a fixing plate with the same length as the distance between the two ends of the upper and lower rectangular fixing slots, the fixing plate covering the upper and lower rectangular fixing slots and being locked by locking bolts.

[0007] As another preferred structure of this solution, the tensioning assembly includes second threaded holes symmetrically arranged on the outer end face of the placement frame groove. A tensioning bolt is provided on the second threaded hole, and a spring is provided on the inner end of the tensioning bolt. A contact block is vertically arranged on the inner end of the spring. Multiple second threaded holes are distributed along the height direction on both ends of the placement frame groove. The glass ends are clamped by the contact blocks on the tensioning assembly, and the glass is fixed by the tensioning bolts.

[0008] As another preferred structure of this solution, the second threaded hole is set above the height of the moving notch. By setting it above the moving notch, it is easier for the contact block to contact both ends of the glass without affecting the tensioning and limiting operation of the glass.

[0009] As another preferred structure of this solution, a buffer layer is provided on the upper and lower surfaces of the placement block. The buffer layer protects the glass contact position where the placement block contacts the glass, making it easier to receive the glass.

[0010] As another preferred structure of this solution, the upper and lower surfaces of the spacer are evenly distributed with protrusions. By setting the protrusions, it is convenient to separate the glass between the upper and lower adjacent glass panes and provide support points, so as to better support the glass.

[0011] As another preferred structure of this solution, the rectangular opening and the rectangular groove are set between the second threaded holes distributed vertically, which act as a buffer between adjacent glass panes.

[0012] The beneficial effects of this utility model are that by setting a placement block to move within the movable notch, it supports the glass in the placement frame groove. Setting multiple placement blocks allows for the placement of multiple layers of glass, which is convenient for subsequent transportation. At the same time, a tensioning bolt is set to lock in the second threaded hole, and the two ends of the glass are tensioned by a spring. Spacers are set between the glass to buffer and separate adjacent glass pieces, thereby achieving fixed packaging of the glass and facilitating stable transportation operations. The specific implementation method is further described in the following embodiments. Attached Figure Description

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

[0014] Figure 2 Structural diagram showing the state of the frame slot without a cover panel;

[0015] Figure 3 This is a schematic diagram of the panel structure;

[0016] In the diagram: 1. Placement slot, 2. Moving notch, 3. Placement block, 4. Fixing plate, 5. Operating shaft, 6. Threaded hole, 7. Locking bolt, 8. Tensioning bolt, 9. Rectangular opening, 10. Contact block, 11. Rectangular groove, 12. Rectangular fixing groove, 13. Sealing panel, 14. Connecting bolt, 15. Rubber block, 16. Second threaded hole; Detailed Implementation

[0017] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0018] See Figure 1The system includes a placement frame slot, placement components on both sides of the placement frame slot, tensioning components at both ends of the placement frame slot, a rectangular groove on the inner surface of one end of the placement frame slot, a rectangular opening on the placement frame slot opposite the rectangular groove, a spacer horizontally inserted inside the placement frame slot, and the spacer movably inserted at both ends within the rectangular opening and the rectangular groove. The placement components include symmetrically arranged movable notches on the sides of the placement frame slot, placement blocks within the movable notches, an operating shaft horizontally arranged on the outer side of the placement blocks, a fixing plate vertically arranged on the operating shaft, rectangular fixing grooves at the upper and lower ends of the placement blocks on the outer surface of the placement frame slot, threaded holes horizontally arranged on the rectangular fixing grooves, and locking bolts symmetrically arranged on the upper and lower ends of the fixing plates. The movable notches are located at the height of the sides of the placement frame slot. Multiple glass blocks are evenly distributed upwards, with a sealing panel at the top of the placement frame slot. Connecting bolts connect the sealing panel to the placement frame slot. Rubber blocks are distributed at the bottom of the sealing panel. These blocks move within a movable notch, protruding into the placement frame slot to support the glass. The blocks are then locked to the placement frame slot via a fixing plate and a rectangular fixing groove using locking bolts, enabling layered glass support. After placement, the glass is secured at both ends with locking bolts, improving stability during subsequent transport. Spacers are placed between adjacent glass panes, providing cushioning. After the glass is placed in the placement frame slot, the sealing panel is fixed at the top, and the rubber blocks further limit the movement of the internal glass. The placement block is set to be longer than the moving notch. By setting the placement block to be longer than the moving notch, it can protrude from the placement frame plate, facilitating glass support. Simultaneously, the placement block can be moved out of the moving notch without affecting the layered placement of glass. The length of the fixing plate is the same as the distance between the two ends of the upper and lower rectangular fixing grooves. The fixing plate covers the upper and lower rectangular fixing grooves and is locked in place by locking bolts. The tensioning assembly includes second threaded holes symmetrically arranged on the outer end face of the placement frame groove. Tensioning bolts are installed in the second threaded holes, and springs are installed inside the tensioning bolts. A contact block is vertically installed inside the springs. Multiple second threaded holes are distributed along the height direction on both end faces of the placement frame groove. Tensioning... The contact blocks on the component clamp the two ends of the glass and are tensioned inward by the tensioning bolts to fix the glass. The second threaded hole is set above the height of the moving notch. This setting facilitates contact between the contact block and the two ends of the glass without affecting the tensioning and limiting operation of the glass. The upper and lower surfaces of the placement block are provided with a buffer layer to protect the contact position of the glass where the placement block contacts, facilitating the glass receiving operation. The upper and lower surfaces of the spacer are evenly distributed with protrusions. These protrusions provide support points for the gap between adjacent glass panes, resulting in better glass receiving. The rectangular opening and rectangular groove are set between the upper and lower distributed second threaded holes to buffer the gap between adjacent glass panes.

[0019] During implementation, the placement block is moved out of the placement frame slot and moved to the same vertical plane as the inner side of the placement frame slot. At the same time, the locking bolt is moved out of the second threaded hole, controlling the contact block to approach the inner end face of the placement frame slot. When glass needs to be placed, the bottom layer of the same placement block extends inward from the moving notch, extending a certain length from the inner side of the placement frame slot. The fixing plate is moved into the rectangular fixing slot and locked with the locking bolt. The glass is moved and placed on the placement block by the electric suction cup. After placement, the spacer is inserted from the rectangular opening into the rectangular slot. The locking bolt is moved into the placement frame slot in the second threaded hole, driving the contact block and tensioning both ends of the glass to limit the glass. The above operation is repeated to move the placement blocks layer by layer and place the glass layer by layer. After placement, the sealing panel is fixed to the upper end of the placement frame slot, and the internal glass is limited by the rubber block, realizing the packaging and transportation of the glass and improving the stability of glass transportation.

Claims

1. A glass production and packaging apparatus, characterized in that: The system includes a placement frame groove (1), placement components on both sides of the placement frame groove, tensioning components at both ends of the placement frame groove, a rectangular groove (11) on the inner surface of one end of the placement frame groove, a rectangular opening (9) on the placement frame groove opposite to one end of the rectangular groove, a spacer horizontally inserted inside the placement frame groove, the two ends of the spacer being movably inserted into the rectangular opening and the rectangular groove, and the placement components including movable notches (2) symmetrically arranged on the side of the placement frame groove, a placement block (3) arranged inside the movable notch, and an operating shaft horizontally arranged on the outer side of the placement block. (5) A fixing plate (4) is vertically arranged on the operating shaft. A rectangular fixing groove (12) is provided on the outer side of the placement frame groove at the upper and lower ends of the placement block. A threaded hole (6) is provided horizontally on the rectangular fixing groove. Locking bolts (7) are symmetrically arranged on the upper and lower sides of the fixing plate. Multiple moving notches are evenly distributed in the height direction on both sides of the placement frame groove. A sealing panel (13) is provided at the upper end of the placement frame groove. A connecting bolt (14) is provided between the sealing panel and the placement frame groove. Rubber blocks (15) are distributed at the bottom of the sealing panel.

2. The glass production and packaging apparatus according to claim 1, characterized in that: The length of the placement block (3) is greater than the length of the moving notch (2).

3. A glass manufacturing packaging apparatus as in claim 1, wherein: The length of the fixing plate (4) is the same as the distance between the two ends of the upper and lower rectangular fixing grooves (12).

4. A glass manufacturing packaging apparatus as in claim 1, wherein: The tensioning assembly includes a second threaded hole (16) symmetrically arranged on the outer end face of the placement frame groove (1), a tensioning bolt (8) is provided on the second threaded hole, a spring is provided on the inner end of the tensioning bolt, and a contact block (10) is vertically arranged on the inner end of the spring. Multiple second threaded holes are distributed along the height direction on both ends face of the placement frame groove.

5. A glass manufacturing packaging apparatus as in claim 4, wherein: The second threaded hole is set at a height plane higher than the moving notch (2).

6. A glass manufacturing packaging apparatus as in claim 1, wherein: The upper and lower surfaces of the placement block (3) are provided with buffer layers.

7. A glass manufacturing packaging apparatus as in claim 1, wherein: The spacer has protrusions evenly distributed on both its upper and lower surfaces.

8. A glass manufacturing packaging apparatus as in claim 4, wherein: The rectangular opening (9) and the rectangular groove (11) are arranged between the second threaded holes (16) that are distributed vertically.