Glass shelf
By designing an angled support and adjustment mechanism within the glass frame, the position of the limiting part can be adjusted to accommodate glass of different sizes, solving the problem that existing glass frames cannot support large-sized glass, thus achieving stable support and resource conservation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG KIBING ENERGY-SAVING GLASS CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-23
AI Technical Summary
The existing L-shaped glass frames only come in two sizes, which cannot effectively support glass that is too long or too wide, resulting in glass swaying or wasted resources.
Design a glass holder, including a base and an adjustment mechanism. The base consists of a support part and an abutment part set at an angle. The adjustment mechanism drives the limiting part to move closer to or further away from the abutment part to adjust the size of the support surface to accommodate glass of different sizes.
It achieves stable support for glass of different sizes, reduces swaying, and improves the versatility and convenience of the glass holder.
Smart Images

Figure CN224394018U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of glass storage technology, and in particular to a glass rack. Background Technology
[0002] During the processing, storage, and handling of glass, L-shaped glass racks can support and limit the glass, allowing it to be placed stably on the racks and reducing the risk of the glass shaking during storage and transportation.
[0003] In existing technologies, L-shaped glass shelves typically come in only two sizes, suitable for small and large glass panes respectively. However, for glass panes that are excessively long or wide, using a smaller shelf leaves some areas unsupported, making the glass prone to wobbling within the shelf. While using a larger shelf ensures stable placement, it occupies too much space, and some space remains unused, resulting in wasted resources. Utility Model Content
[0004] The main purpose of this utility model is to propose a glass rack that can store glass of different sizes and specifications, thereby improving the versatility and convenience of the glass rack.
[0005] To achieve the above objectives, this utility model proposes a glass holder for placing glass, the glass holder comprising:
[0006] The base includes a support portion and an abutment portion arranged at an angle, with one edge of the glass supported by the support portion; and
[0007] An adjustment mechanism is provided on at least one side of the abutting part. The adjustment mechanism is provided with a movable and adjustable limiting part. The limiting part cooperates with the abutting part to form a support surface. One side of the glass is limited and abuts against the support surface.
[0008] The adjustment mechanism moves the limiting part closer to or further away from the abutting part to adjust the size of the supporting surface.
[0009] In one embodiment, the abutting portion has two sides that are angled to the supporting portion, the adjusting mechanism is provided on opposite sides of the abutting portion, and the adjusting mechanism is provided with a limiting portion relative to each of the sides.
[0010] In one embodiment, the adjusting mechanism includes a fixed rod and two telescopic components. The fixed rod is disposed on the base and extends in a direction perpendicular to the two sides. The two telescopic components are respectively movably disposed on opposite sides of the fixed rod. Each telescopic component has a limiting part on the side facing away from the fixed rod.
[0011] The telescopic component moves closer to or further away from the side along the extension direction of the fixed rod to adjust the size of the support surface.
[0012] In one embodiment, the fixing rod includes two fixed rods, which are spaced apart from each other on the base. Each fixed rod has a through hole along its extension direction. Each telescopic component includes a movable member and a support rod. The movable member has two ends and a connecting portion connecting the two ends. The two ends are respectively movably inserted into the two through holes. The support rod is disposed on the connecting portion, and the limiting portion is formed on the side of the support rod facing away from the connecting portion.
[0013] The two ends move along the extension direction of the through hole, and move the support rod closer to or away from the side to adjust the size of the support surface.
[0014] In one embodiment, the adjustment mechanism further includes a locking component for connecting the fixed rod and the end to limit the telescopic component to the fixed rod.
[0015] In one embodiment, the locking component includes:
[0016] Multiple adjustment holes, spaced apart along the extending direction of the fixing rod; and
[0017] An elastic limiting member is provided at the end;
[0018] The elastic limiting member extends and retracts relative to the fixed rod to insert into the adjusting hole and limit the telescopic component.
[0019] In one embodiment, the locking component includes:
[0020] Multiple adjustment holes are provided at intervals along the extension direction of the fixing rod;
[0021] Mounting hole, the mounting hole being provided at the end; and
[0022] A locking element is provided sequentially through the mounting hole and the adjustment hole to limit the telescopic assembly.
[0023] In one embodiment, the support rod includes:
[0024] A main rod, wherein the main rod is disposed at the connecting portion, and the main rod is provided with a telescopic hole along the extending direction of the side; and
[0025] A telescopic rod is movably disposed within the telescopic hole, and the limiting portion is formed on the side of the main rod and the telescopic rod facing the support portion;
[0026] The telescopic rod moves along the extension direction of the telescopic hole to adjust the length of the support rod.
[0027] In one embodiment, the fixing rod is welded to the base; or, the fixing rod is detachably connected to the base.
[0028] And / or, the fixing rod and the supporting rod are square tubes;
[0029] And / or, the fixing rod and the supporting rod are made of metal.
[0030] In one embodiment, the support includes a base and an inclined rod. The base is connected to the abutment portion and is perpendicular to the abutment portion. The inclined rod is disposed on the base and is set at an angle to the base. The side edge of the glass is supported by the inclined rod.
[0031] And / or, the interior of the abutting part is further provided with an installation space, the adjustment mechanism is provided in the installation space, the adjustment mechanism part protrudes from the opening of the installation space, and the part of the adjustment mechanism protruding from the opening is provided with the limiting part.
[0032] The technical solution of this utility model uses a support part and an abutment part arranged at an angle, allowing one edge of the glass to be placed on the support part. The abutment part cooperates with the limiting part of the adjustment mechanism to form a support surface, enabling one side of the glass to be placed on the support surface, thereby achieving limiting support for the glass. Simultaneously, the size of the support surface is changed by moving the limiting part closer to or further away from the abutment part through the adjustment mechanism, ensuring that the size of the support surface always adapts to the size of the glass. This allows for the storage of glass of different sizes and specifications, ensuring the stability of the glass during placement and transportation, and improving the versatility and convenience of the glass rack. Attached Figure Description
[0033] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art 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 the structures shown in these drawings without creative effort.
[0034] Figure 1 A schematic diagram of the structure of an embodiment of the glass holder provided by this utility model;
[0035] Figure 2 This is a magnified view of a portion of point A in the glass holder;
[0036] Figure 3 A schematic diagram of the glass frame from another perspective;
[0037] Figure 4 This is a schematic diagram of the telescopic assembly in the glass frame;
[0038] Figure 5 This is a schematic diagram of the telescopic component along the BB section.
[0039] Explanation of icon numbers:
[0040] 100. Glass frame; 1. Base; 11. Support; 111. Base; 112. Diagonal bar; 12. Abutment; 121. Side; 122. Installation space; 2. Adjustment mechanism; 21. Limiting part; 22. Fixing rod; 23. Telescopic assembly; 231. Moving part; 2311. End; 2312. Connecting part; 232. Support rod; 2321. Main rod; 2322. Telescopic rod; 24. Locking assembly; 241. Adjustment hole; 242. Elastic limiting part.
[0041] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0042] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.
[0043] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a specific posture. If the specific posture changes, the directional indicators will also change accordingly.
[0044] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the use of "and / or" or "and / or" throughout the text includes three parallel solutions. For example, "A and / or B" includes solution A, solution B, or a solution where both A and B are satisfied simultaneously. Furthermore, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0045] During the processing, storage, and handling of glass, L-shaped glass racks can support and limit the glass, allowing it to be placed stably on the racks and reducing the risk of the glass shaking during storage and transportation.
[0046] In existing technologies, L-shaped glass racks typically come in only two sizes: a small rack for storing and transporting glass with a width less than 2800mm and a height less than 2200mm, and a large rack for storing and transporting glass with a height exceeding 2200mm. These two sizes of glass racks cover, to a certain extent, most common glass placement and transport scenarios.
[0047] However, for some glass pieces that are excessively long or wide, such as those less than 2200mm in height and greater than 2800mm in width, there are no suitable glass racks for placement. If small-sized racks are used, parts of the glass are not effectively supported, making it prone to wobbling within the rack. While large-sized racks ensure stability, they occupy too much space, and some space remains unused, resulting in wasted resources.
[0048] The main purpose of this utility model is to provide a glass rack 100, which aims to store glass of different sizes and specifications, thereby improving the versatility and convenience of the glass rack 100.
[0049] Please see Figures 1 to 5In one embodiment of this utility model, the glass holder 100 is used to hold glass. The glass holder 100 includes a base 1 and an adjustment mechanism 2. The base 1 includes a support portion 11 and an abutment portion 12 arranged at an angle, with one side edge of the glass supported by the support portion 11. The adjustment mechanism 2 is located on at least one side of the abutment portion 12, and the adjustment mechanism 2 has a movable and adjustable limiting portion 21. The limiting portion 21 cooperates with the abutment portion 12 to form a support surface, and one side of the glass is limited and abuts against the support surface. The adjustment mechanism 2 moves the limiting portion 21 closer to or further away from the abutment portion 12 to adjust the size of the support surface.
[0050] In this embodiment, the base 1 includes a support portion 11 and an abutment portion 12, which are arranged at an angle to provide a stable support platform for the glass. One edge of the glass rests on the support portion 11, forming initial support. An adjustment mechanism 2 is installed on at least one side of the abutment portion 12, and a limiting portion 21 cooperates with the abutment portion 12 to form a support surface. One side of the glass is tightly abutted and confined to this support surface, thus allowing the glass to be stably supported on the base 1. The adjustment mechanism 2 can drive the limiting portion 21 to move closer to or further away from the abutment portion 12, thereby changing the size and position of the support surface to accommodate glass of different sizes. It is understood that the abutment portion 12 and the limiting portion 21 are located in the same plane, jointly forming a support surface, thereby supporting one side of the glass. The limiting portion 21 is used to support the portion of the glass that extends beyond the base 1.
[0051] Optionally, the included angle between the support portion 11 and the abutment portion 12 can be optimized according to the shape and size of common glass, usually around 90 degrees, to accommodate the placement needs of most rectangular glass.
[0052] The technical solution of this utility model uses a support part 11 and an abutment part 12 arranged at an angle, allowing one side edge of the glass to be placed on the support part 11. The abutment part 12 cooperates with the limiting part 21 of the adjustment mechanism 2 to form a support surface, allowing one side of the glass to be placed on the support surface, thereby achieving limiting support for the glass. At the same time, by adjusting the mechanism 2, the limiting part 21 is moved closer to or further away from the abutment part 12 to change the size of the support surface, so that the size of the support surface is always adapted to the size of the glass. This enables the storage of glass of different sizes and specifications, ensuring the stability of the glass during placement and transportation, and improving the versatility and convenience of the glass rack 100.
[0053] In one implementation, please refer to Figure 1 and Figure 3 The abutment portion 12 has two sides 121 that are angled together with the support portion 11. The adjustment mechanism 2 is located on opposite sides of the abutment portion 12, and the adjustment mechanism 2 has a limiting portion 21 relative to each side 121. Each limiting portion 21 moves closer to or further away from the corresponding side 121 to adjust the size of the support surface.
[0054] In this embodiment, the abutment portion 12 has two sides 121 on both sides, and the adjustment mechanism 2 is respectively disposed on opposite sides of the abutment portion 12. Each side of the adjustment mechanism 2 is provided with a limiting part 21. By driving the adjustment mechanism 2, the limiting part 21 can move closer to or further away from the corresponding side 121, thereby changing the size of the support surface.
[0055] Understandably, the simultaneous adjustment of the limiting parts 21 on both sides enhances the stability of the glass during placement. Regardless of changes in the size of the glass, the position of the limiting parts 21 can be adjusted to ensure stable placement of the glass on the support surface, reducing the risk of wobbling. Moreover, the symmetrical arrangement ensures that the glass is placed stably on the base 1.
[0056] Alternatively, only one limiting part 21 can be provided. In this case, one side of the glass is supported on the side 121, and the other side is supported on the limiting part 21. This will cause the center of gravity of the glass to be biased to one side of the base 1, which may cause the base 1 to tip over. To address this, an additional counterweight structure can be provided on the base 1 to ensure that the glass can be placed stably.
[0057] In one implementation, please refer to Figure 1 and Figure 3 The adjusting mechanism 2 includes a fixed rod 22 and two telescopic components 23. The fixed rod 22 is located on the base 1 and extends in a direction perpendicular to the two sides 121. The two telescopic components 23 are movably located on opposite sides of the fixed rod 22, and each telescopic component 23 has a limiting part 21 on the side facing away from the fixed rod 22. The telescopic components 23 move closer to or further away from the sides 121 along the extension direction of the fixed rod 22 to adjust the size of the support surface.
[0058] In this embodiment, the adjustment mechanism 2 includes a fixed rod 22 and two telescopic components 23. The fixed rod 22 is mounted on the base 1, and its extension direction is perpendicular to the two sides 121 of the abutment portion 12, providing stable support and guidance for the telescopic components 23. The two telescopic components 23 are respectively disposed on opposite sides of the fixed rod 22, and each telescopic component 23 has a limiting part 21 on the side facing away from the fixed rod 22. By controlling the telescopic components 23 to move along the extension direction of the fixed rod 22, the limiting part 21 can be moved closer to or further away from the corresponding side 121, thereby adjusting the size of the support surface.
[0059] Understandably, this simple linear movement enables flexible adjustment of the support surface, improving not only the versatility of the glass holder 100 but also its ease of operation. Users can quickly adjust the position of the limiting part 21 according to the specific dimensions of the glass, thereby ensuring the stability of the glass during storage and transportation.
[0060] In one implementation, please refer to Figure 1 , Figure 4 and Figure 5 The system includes two fixing rods 22, which are spaced apart on the base 1. Each fixing rod 22 has a through hole along its extension direction. Each telescopic component 23 includes a movable member 231 and a support rod 232. The movable member 231 has two ends 2311 and a connecting portion 2312 connecting the two ends 2311. The two ends 2311 are respectively movably inserted into the two through holes. The support rod 232 is located at the connecting portion 2312, and a limiting portion 21 is formed on the side of the support rod 232 facing away from the connecting portion 2312. The two ends 2311 move along the extension direction of the through holes, causing the support rod 232 to move closer to or away from the side 121 to adjust the size of the support surface.
[0061] In this embodiment, two fixing rods 22 are provided, and the two fixing rods 22 are installed on the base 1 at intervals. Each fixing rod 22 has a through hole along its extension direction. Each telescopic component 23 includes a movable member 231 and a support rod 232. The movable member 231 has two ends 2311 and a connecting portion 2312 connecting the two ends 2311. The two ends 2311 of the movable member 231 are respectively inserted into and can slide freely in the through holes of the two fixing rods 22. The support rod 232 is installed on the connecting portion 2312 of the movable member 231. A limiting portion 21 is formed on the side of the support rod 232 facing away from the connecting portion 2312 for contacting the glass and forming a support surface. When the two ends 2311 of the movable member 231 move along the extension direction of the through hole, it will drive the support rod 232 to move as a whole, thereby moving it closer to or away from the side 121, realizing the adjustment of the size of the support surface.
[0062] Optionally, the through-hole can be designed as circular or square to accommodate different shaped ends 2311. Additionally, to reduce wear, lubricant can be used inside the through-hole. Furthermore, the length and strength of the support rod 232 can be adjusted according to actual needs to accommodate glass of different sizes and weights.
[0063] Understandably, the use of two fixed rods 22 makes the movement of the telescopic component 23 more stable, ensuring the adjustment efficiency of the support surface.
[0064] In one implementation, please refer to Figure 1 and Figure 3 The adjustment mechanism 2 also includes a locking component 24, which is used to connect the fixed rod 22 and the end 2311 so that the telescopic component 23 is limited to the fixed rod 22.
[0065] In this embodiment, the locking component 24 is used to fix the telescopic component 23 in a predetermined position to prevent the telescopic component 23 from shifting due to external forces during use, thereby ensuring that the size of the support surface remains stable. The locking component 24 achieves its limiting function by connecting the fixed rod 22 and the end 2311 of the moving member 231. When the telescopic component 23 is adjusted to a suitable position, the locking component 24 securely connects the end 2311 of the moving member 231 to the fixed rod 22, thereby restricting further movement of the telescopic component 23.
[0066] In one implementation, please refer to Figure 1 and Figure 2 The locking assembly 24 includes multiple adjustment holes 241 and elastic limiting members 242. The multiple adjustment holes 241 are spaced apart on the fixed rod 22 along the extension direction of the fixed rod 22, and the elastic limiting members 242 are located at the end 2311. The elastic limiting members 242 can telescopically move relative to the fixed rod 22 to insert into the adjustment holes 241 and limit the telescopic assembly 23.
[0067] In this embodiment, the locking component 24 includes multiple adjusting holes 241 and elastic limiting members 242. The adjusting holes 241 are evenly distributed along the extension direction of the fixing rod 22, providing multiple preset limiting positions for the telescopic component 23. When it is necessary to lock the position of the telescopic component 23, the elastic limiting member 242 is compressed and contracted. When the end 2311 of the moving member 231 is aligned with the adjusting hole 241, the elastic limiting member 242 quickly pops out and inserts into the adjusting hole 241 using its own elasticity, thereby fixing the telescopic component 23 in the current position.
[0068] Optionally, the shape of the adjusting hole 241 can be designed to be circular or elliptical to accommodate the shape of the elastic limiting member 242. Meanwhile, the elastic limiting member 242 can be made of materials such as spring steel or elastic plastic, as long as it has sufficient elastic force to move relative to the adjusting hole 241; the specific structure of the elastic limiting member 242 is not limited.
[0069] In one implementation, please refer to Figure 1 The locking component 24 includes multiple adjustment holes 241, mounting holes and locking elements. The multiple adjustment holes 241 are spaced apart on the fixed rod 22 along the extension direction of the fixed rod 22. The mounting holes are located at the end 2311. The locking elements are sequentially inserted through the mounting holes and adjustment holes 241 to limit the telescopic component 23.
[0070] In this embodiment, the adjustment holes 241 are spaced apart along the extension direction of the fixed rod 22, providing multiple preset limiting positions for the telescopic assembly 23. The mounting hole is located at the end 2311 of the telescopic assembly 23, and the locking member passes through the mounting hole and the adjustment hole 241 in sequence, thereby locking the telescopic assembly 23 onto the fixed rod 22.
[0071] Alternatively, the locking element can be a screw or bolt, which is rotated to pass through the mounting hole and the adjustment hole 241 to press the end 2311 of the movable element 231. Meanwhile, the adjustment hole 241 can be designed as a threaded hole to cooperate with the bolt and provide a more secure locking effect; or a snap-lock structure can be used, in which a snap-lock passes through the mounting hole and the adjustment hole 241 to fix the position of the movable element 231.
[0072] In one implementation, please refer to Figure 1 The support rod 232 includes a main rod 2321 and a telescopic rod 2322. The main rod 2321 is located at the connecting part 2312, and the main rod 2321 has a telescopic hole along the extension direction of the side 121. The telescopic rod 2322 is movably disposed within the telescopic hole. A limiting part 21 is formed on the side of the main rod 2321 and the telescopic rod 2322 facing the support part 11. The telescopic rod 2322 moves along the extension direction of the telescopic hole to adjust the length of the support rod 232.
[0073] In this embodiment, the main rod 2321 is mounted on the connecting part 2312 and has a telescopic hole along the extending direction of the side 121. The telescopic rod 2322 is placed in the telescopic hole and can move freely along its extending direction to adjust the length of the support rod 232. By moving the telescopic rod 2322, the total length of the support rod 232 can be changed, thereby adjusting the length of the support rod 232 and thus changing the size of the support surface to accommodate glass of different sizes.
[0074] Understandably, this also facilitates the storage and transportation of the glass shelf 100. When not in use, the telescopic rod 2322 can be retracted into the main rod 2321, reducing space occupation. During extension and retraction, the maximum height of the support rod 232 does not exceed the height of the base 1 to ensure stable support of the glass.
[0075] Optionally, the telescopic rod 2322 and the main rod 2321 can be fixed in various ways, such as using locking screws, elastic clips, or friction devices, to prevent the telescopic rod 2322 from accidentally sliding after adjustment. The cross-sectional shapes of the main rod 2321 and the telescopic rod 2322 can be designed as circular, square, or other suitable shapes to meet different structural strength and installation requirements.
[0076] Alternatively, the support rod 232 can also be integrally formed, in which case the length of the support rod 232 cannot be adjusted.
[0077] In one implementation, please refer to Figure 1 and Figure 3 The fixing rod 22 is welded to the base 1; or the fixing rod 22 is detachably connected to the base 1.
[0078] In this embodiment, the connection between the fixing rod 22 and the base 1 can be selected as either a welded connection or a detachable connection, depending on actual needs.
[0079] Alternatively, the detachable connection can be achieved using bolted connections, pin connections, or other quick-connect methods. Bolted connections provide reliable fixation while allowing for quick assembly and disassembly; pin connections are suitable for applications requiring simple locking and unlocking.
[0080] In one embodiment, the fixing rod 22 and the support rod 232 are square tubes.
[0081] In this embodiment, the fixing rod 22 and the support rod 232 adopt a square tube design. The square tube has high strength and rigidity, which can effectively support the weight of the glass and resist deformation during use. The square cross-section of the square tube also provides a larger contact area, enhancing the connection stability with the base 1 and other components.
[0082] In one embodiment, the fixing rod 22 and the support rod 232 are made of metal.
[0083] In this embodiment, the fixing rod 22 and the support rod 232 are made of metal. Metal has high strength, good toughness and wear resistance, and can withstand large loads and resist deformation and wear.
[0084] In one implementation, please refer to Figure 1 and Figure 3 The support part 11 includes a base 111 and an inclined rod 112. The base 111 is connected to the abutment part 12 and the base 111 is perpendicular to the abutment part 12. The inclined rod 112 is disposed on the base 111 and is set at an angle to the base 111. The side edge of the glass is supported by the inclined rod 112.
[0085] In this embodiment, the base 111 is perpendicular to the abutment portion 12, and the inclined rod 112 is set at an angle to the base 111, so that the glass can be placed at an angle on the inclined rod 112, thereby allowing the glass to lean against the abutment portion 12 at an angle, thus ensuring that the glass is placed stably.
[0086] In one implementation, please refer to Figure 1 and Figure 3 The interior of the contact part 12 is also provided with an installation space 122. The adjustment mechanism 2 is located in the installation space 122. The adjustment mechanism 2 protrudes from the opening of the installation space 122, and the part of the adjustment mechanism 2 protruding from the opening is provided with a limiting part 21.
[0087] In this embodiment, the abutment portion 12 also forms an installation space 122 for accommodating the adjustment mechanism 2, concealing the adjustment mechanism 2 inside, which serves a protective function while making the glass frame 100 look cleaner. The adjustment mechanism 2 protrudes from the opening of the installation space 122, and the protruding portion is provided with a limiting part 21 for limiting its position. Through the movement of the adjustment mechanism 2, the limiting part 21 can move closer to or further away from the abutment portion 12 to adjust the size of the support surface.
[0088] The above description is merely an exemplary embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural transformations made based on the technical concept of the present utility model and the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.
Claims
1. A glass holder for holding glass, characterized in that, The glass frame includes: The base includes a support portion and an abutment portion arranged at an angle, with one edge of the glass supported by the support portion; and An adjustment mechanism is provided on at least one side of the abutting part. The adjustment mechanism is provided with a movable and adjustable limiting part. The limiting part cooperates with the abutting part to form a support surface. One side of the glass is limited and abuts against the support surface. The adjustment mechanism moves the limiting part closer to or further away from the abutting part to adjust the size of the supporting surface.
2. The glass holder as described in claim 1, characterized in that, The abutting part has two sides that are angled to the supporting part. The adjusting mechanism is located on opposite sides of the abutting part, and the adjusting mechanism is provided with a limiting part relative to each side.
3. The glass holder as described in claim 2, characterized in that, The adjustment mechanism includes a fixed rod and two telescopic components. The fixed rod is disposed on the base and extends in a direction perpendicular to the two sides. The two telescopic components are respectively movably disposed on opposite sides of the fixed rod. Each telescopic component has a limiting part on the side facing away from the fixed rod. The telescopic component moves closer to or further away from the side along the extension direction of the fixed rod to adjust the size of the support surface.
4. The glass holder as described in claim 3, characterized in that, The fixed rod includes two rods, which are spaced apart on the base. Each fixed rod has a through hole along its extension direction. Each telescopic component includes a movable member and a support rod. The movable member has two ends and a connecting part connecting the two ends. The two ends are respectively movably inserted into the two through holes. The support rod is located in the connecting part, and the limiting part is formed on the side of the support rod facing away from the connecting part.
5. The glass holder as described in claim 4, characterized in that, The adjustment mechanism further includes a locking component for connecting the fixed rod and the end to limit the telescopic component to the fixed rod.
6. The glass holder as described in claim 5, characterized in that, The locking component includes: Multiple adjustment holes, spaced apart along the extending direction of the fixing rod; and An elastic limiting member is provided at the end; The elastic limiting member extends and retracts relative to the fixed rod to insert into the adjusting hole and limit the telescopic component.
7. The glass holder as described in claim 5, characterized in that, The locking component includes: Multiple adjustment holes are provided at intervals along the extension direction of the fixing rod; Mounting hole, the mounting hole being provided at the end; and A locking element is provided sequentially through the mounting hole and the adjustment hole to limit the telescopic assembly.
8. The glass holder as described in claim 4, characterized in that, The support rod includes: A main rod, wherein the main rod is disposed at the connecting portion, and the main rod is provided with a telescopic hole along the extending direction of the side; and A telescopic rod is movably disposed within the telescopic hole, and the limiting portion is formed on the side of the main rod and the telescopic rod facing the support portion; The telescopic rod moves along the extension direction of the telescopic hole to adjust the length of the support rod.
9. The glass holder as described in claim 4, characterized in that, The fixing rod is welded to the base; or, the fixing rod is detachably connected to the base. And / or, the fixing rod and the supporting rod are square tubes; And / or, the fixing rod and the supporting rod are made of metal.
10. The glass holder as claimed in any one of claims 1 to 9, characterized in that, The support includes a base and an inclined rod. The base is connected to the abutment and is perpendicular to the abutment. The inclined rod is disposed on the base and is set at an angle to the base. The side edge of the glass is supported by the inclined rod. And / or, the interior of the abutting part is further provided with an installation space, the adjustment mechanism is provided in the installation space, the adjustment mechanism part protrudes from the opening of the installation space, and the part of the adjustment mechanism protruding from the opening is provided with the limiting part.