阅读说明：本技术 托架机构 (Bracket mechanism ) 是由 李青 李赫然 何小明 任书明 李盛印 向鸿 吕先跃 于 2021-09-02 设计创作，主要内容包括：本申请提供一种托架机构,涉及玻璃生产技术领域。其中,该托架机构包括底框组件,包括框体；多组支架组件,相互间隔设置,所述支架组件包括：两个支架本体,分别安装于所述框体在第一方向上相对的第一侧边缘和第二侧边缘；至少两组滑块组件,所述滑块组件包括：沿第二方向延伸的第一轴、两个滑动块及两根沿第三方向延伸的第二轴；两根所述第二轴上设置有第一限位件,用于接触并限制玻璃本体在第二方向上的位置；多组支撑组件,对应于每组所述支架组件,包括：沿第一方向延伸的支撑线,其两端分别连接对应的所述支架组件的两个所述支架本体；其中,所述支撑线上设置有多个第二限位件,用于接触并限制所述玻璃本体在所述第一方向上的位置。(The application provides a bracket mechanism, relates to glass production technical field. Wherein, the bracket mechanism comprises a bottom frame component, comprising a frame body; multiunit bracket component, the mutual interval sets up, the bracket component includes: the two bracket bodies are respectively arranged on a first side edge and a second side edge of the frame body opposite to each other in the first direction; at least two sets of slider assemblies, the slider assembly includes: the first shaft, the two sliding blocks and the two second shafts extend along the third direction; the two second shafts are provided with first limiting pieces which are used for contacting and limiting the positions of the glass body in the second direction; a plurality of sets of support assemblies corresponding to each set of the bracket assemblies, including: the two ends of the supporting line are respectively connected with the two bracket bodies of the corresponding bracket component; the supporting line is provided with a plurality of second limiting pieces used for contacting and limiting the position of the glass body in the first direction.)

1. A carriage mechanism, comprising:

a bottom frame assembly comprising a frame body;

multiunit bracket component, the mutual interval sets up, the bracket component includes: the two bracket bodies are respectively arranged on a first side edge and a second side edge of the frame body opposite to each other in the first direction;

at least two sets of slider assembly, the mutual interval sets up, slider assembly includes: the sliding block is movably arranged on the first shaft, so that the position of the sliding block on the first shaft can be adjusted, and the two second shafts are respectively fixed on the two sliding blocks;

the first limiting pieces are arranged on the two second shafts, the positions of the first limiting pieces on the supporting lines are adjustable, and the first limiting pieces are used for contacting and limiting the position of the glass body in the second direction;

a plurality of sets of support assemblies corresponding to each set of the bracket assemblies, including: the support line extends along a first direction and is used for supporting the glass body, two ends of the support line are respectively connected with the two support bodies of the corresponding support component, and the position of the support line relative to the support bodies in the third direction is adjustable;

the supporting line is provided with a plurality of second limiting pieces, and the positions of the second limiting pieces on the supporting line are adjustable and are used for contacting and limiting the position of the glass body in the first direction;

wherein any two directions of the first direction, the second direction and the third direction satisfy a vertical condition.

2. The tray mechanism of claim 1,

the bottom frame assembly further comprises:

the positioning sleeves are fixed on the bottom side of the frame body and correspond to the bracket bodies, positioning holes extending along a first direction are formed in the positioning sleeves, and the openings of the positioning holes face to the side away from the frame body;

the bracket assembly further includes:

and the two positioning bulges are respectively fixed on the top sides of the two bracket bodies and are matched with the positioning holes.

3. The tray mechanism of claim 2 wherein,

the frame body includes: the bottom frame is arranged in a space formed by enclosing the side frames and is connected to the bottoms of the side frames;

the bottom frame assembly further comprises:

at least two sets of supporting block group, correspond to every group the sliding block assembly, the supporting block group includes: the two supporting blocks are respectively installed on two opposite side edges of the bottom frame in the second direction, and two opposite end parts of the first shaft are respectively fixed to the tops of the supporting blocks.

4. A cradle mechanism according to claim 3,

the stent body includes:

the first vertical plate is arranged on the frame body, a first adjusting groove extending along a third direction is formed in the first vertical plate, and second adjusting grooves corresponding to the first adjusting groove and extending in the same direction are formed in the first vertical plate and located on two sides of the first adjusting groove respectively;

the fixing plate is arranged on the surface, deviating from the area of the first vertical plate, of the side frame, a threading hole and two first fixing holes are formed in the fixing plate and respectively correspond to the first adjusting groove and the two second adjusting grooves, the threading hole is used for penetrating and fixing the supporting thread, and the first fixing holes are used for being connected with first locking pieces to fix the fixing plate and the first vertical plate.

5. A cradle mechanism according to claim 4,

the support assembly further comprises:

the pin shaft is arranged at the first end of the supporting wire, and the first end of the supporting wire is used for being connected with the bracket body positioned at the first side edge;

the spring is sleeved outside the pin shaft and used for abutting against the end part of the pin shaft and the corresponding first vertical plate;

and the third locking piece is arranged at the second end, opposite to the first end, of the supporting wire and used for fixing and tensioning the supporting wire.

6. A cradle mechanism according to claim 5,

the support body still includes:

the two second vertical plates are arranged on the surface, facing the area where the first vertical plate is located, of the side frame and perpendicular to the first vertical plate, and the two second vertical plates are respectively arranged at the gap between the second adjusting groove and the first adjusting groove;

the bottom parts of the first vertical plate and the second vertical plate are fixed with the bottom frame, and the side part of the second vertical plate is fixed with the side frame;

and the reinforcing ribs are fixed at the connecting positions of the second vertical plate and the first vertical plate.

7. A cradle mechanism according to claim 6,

the height of the second vertical plate of the bracket body positioned on the first side edge is equal to that of the first vertical plate, and the height of the second vertical plate of the bracket body positioned on the second side edge is lower than the bottom height of the first adjusting groove and the second adjusting groove.

8. A cradle mechanism according to claim 4,

the support body still includes:

the positioning base is fixed on the top side of the first upright post, and the positioning bulge is arranged on the positioning base.

9. The tray mechanism of claim 2 wherein,

the positioning hole of the positioning sleeve is a conical hole, the positioning bulge is a conical bulge, and the diameter of the positioning bulge is reduced from the bottom end to the top end component.

10. The tray mechanism of claim 1,

the slider has and is used for wearing to establish the first through-hole of primary shaft, and be located one side of slider and with the second fixed orifices of first through-hole intercommunication for connect the second retaining member in order to fix the slider with the primary shaft.

Technical Field

The application relates to the technical field of glass production, in particular to a bracket mechanism.

Background

With the development of display screen technology, 2D, 2.5D and 3D products are sequentially available on the market. At present, 3D product designs such as high-end smart phones, smart watches, vehicle-mounted cover plates and the like appear successively, the development direction of 3D curved glass is clearly guided, and meanwhile, the development of 3D curved glass is promoted to be an aspect which people pay attention to.

The curved glass has the advantages of transparency, cleanness, fingerprint resistance, glare resistance and the like, but the yield of the conventional curved glass is low, so that the cost of the curved screen is difficult to reduce. Especially, curved glass can contact the surface of the glass during transportation, which inevitably causes scratches and foreign body dirt on the surface of the glass.

At present, in curved surface glass manufacturing, curved surface glass is often turned over and baked by adopting a baking tray and a cleaning frame, the curved surface glass with different specifications is difficult to share in the length direction, the width direction and the height direction, the curved surface glass is limited by the inherent structures of the baking tray and the cleaning frame, the utilization rate of the baking tray and the cleaning frame is greatly reduced, and the curved surface glass occupies larger space and cost.

Disclosure of Invention

The purpose of the embodiment of the application is to provide a bracket mechanism to solve the technical problems that the size is limited and the use efficiency is low when curved glass is circulated and baked by using a baking tray and a cleaning frame in the prior art.

In order to solve the above technical problem, an embodiment of the present application provides the following technical solutions:

the application provides a bracket mechanism, this bracket mechanism includes: a bottom frame assembly comprising a frame body;

multiunit bracket component, the mutual interval sets up, the bracket component includes: the two bracket bodies are respectively arranged on a first side edge and a second side edge of the frame body opposite to each other in the first direction;

at least two sets of slider assembly, the mutual interval sets up, slider assembly includes: the sliding block is movably arranged on the first shaft, so that the position of the sliding block on the first shaft can be adjusted, and the two second shafts are respectively fixed on the two sliding blocks;

the first limiting pieces are arranged on the two second shafts, the positions of the first limiting pieces on the supporting lines are adjustable, and the first limiting pieces are used for contacting and limiting the position of the glass body in the second direction;

a plurality of sets of support assemblies corresponding to each set of the bracket assemblies, including: the support line extends along a first direction and is used for supporting the glass body, two ends of the support line are respectively connected with the two support bodies of the corresponding support component, and the position of the support line relative to the support bodies in the third direction is adjustable;

the supporting line is provided with a plurality of second limiting pieces, and the positions of the second limiting pieces on the supporting line are adjustable and are used for contacting and limiting the position of the glass body in the first direction;

wherein any two directions of the first direction, the second direction and the third direction satisfy a vertical condition.

In some variations of the present application, the base frame assembly further comprises:

the positioning sleeves are fixed on the bottom side of the frame body and correspond to the bracket bodies, positioning holes extending along a first direction are formed in the positioning sleeves, and the openings of the positioning holes face to the side away from the frame body;

the bracket assembly further includes:

and the two positioning bulges are respectively fixed on the top sides of the two bracket bodies and are matched with the positioning holes.

In some modified embodiments of the present application, the frame includes: the bottom frame is arranged in a space formed by enclosing the side frames and is connected to the bottoms of the side frames;

the bottom frame assembly further comprises:

at least two sets of supporting block group, correspond to every group the sliding block assembly, the supporting block group includes: the two supporting blocks are respectively installed on two opposite side edges of the bottom frame in the second direction, and two opposite end parts of the first shaft are respectively fixed to the tops of the supporting blocks.

In some variations of the present application, the stent body comprises:

the first vertical plate is arranged on the frame body, a first adjusting groove extending along a third direction is formed in the first vertical plate, and second adjusting grooves corresponding to the first adjusting groove and extending in the same direction are formed in the first vertical plate and located on two sides of the first adjusting groove respectively;

the fixing plate is arranged on the surface, deviating from the area of the first vertical plate, of the side frame, a threading hole and two first fixing holes are formed in the fixing plate and respectively correspond to the first adjusting groove and the two second adjusting grooves, the threading hole is used for penetrating and fixing the supporting thread, and the first fixing holes are used for being connected with first locking pieces to fix the fixing plate and the first vertical plate.

In some variations of the present application, the support assembly further comprises:

the pin shaft is arranged at the first end of the supporting wire, and the first end of the supporting wire is used for being connected with the bracket body positioned at the first side edge;

the spring is sleeved outside the pin shaft and used for abutting against the end part of the pin shaft and the corresponding first vertical plate;

and the third locking piece is arranged at the second end, opposite to the first end, of the supporting wire and used for fixing and tensioning the supporting wire.

In some variations of the present application, the stent body further comprises:

the two second vertical plates are arranged on the surface, facing the area where the first vertical plate is located, of the side frame and perpendicular to the first vertical plate, and the two second vertical plates are respectively arranged at the gap between the second adjusting groove and the first adjusting groove;

the bottom parts of the first vertical plate and the second vertical plate are fixed with the bottom frame, and the side part of the second vertical plate is fixed with the side frame;

and the reinforcing ribs are fixed at the connecting positions of the second vertical plate and the first vertical plate.

In some modified embodiments of the present application, a height of the second vertical plate of the bracket body at the first side edge is equal to a height of the first vertical plate, and a height of the second vertical plate of the bracket body at the second side edge is lower than a bottom height of the first adjustment groove and the second adjustment groove.

In some variations of the present application, the stent body further comprises:

the positioning base is fixed on the top side of the first upright post, and the positioning bulge is arranged on the positioning base.

In some variations of the present application, the positioning hole of the positioning sleeve is provided as a tapered hole, and the positioning protrusion is provided as a tapered protrusion having a diameter decreasing from the bottom end to the top end assembly.

In some modified embodiments of the present application, the sliding block has a first through hole for passing through the first shaft, and a second fixing hole located at one side of the sliding block and communicated with the first through hole for connecting a second locking member to fix the sliding block and the first shaft.

Compared with the prior art, the bracket mechanism provided by the application can reliably support the glass substrate by supporting the glass body through the supporting lines of the multiple groups of supporting assemblies and limiting the glass body by the first limiting part and the second limiting part in the first direction and the second direction, and can be suitable for glass bodies with different sizes to use through the adjustability of the sliding block assembly and the supporting assemblies; can realize piling up of two or more than two bracket mechanisms and putting through the cooperation of position sleeve and location arch, can save putting space of bracket mechanism.

Drawings

The above and other objects, features and advantages of exemplary embodiments of the present application will become readily apparent from the following detailed description read in conjunction with the accompanying drawings. Several embodiments of the present application are illustrated by way of example and not by way of limitation in the figures of the accompanying drawings and in which like reference numerals refer to similar or corresponding parts and in which:

fig. 1 schematically shows a main structural view of a carriage mechanism provided by an embodiment of the present invention;

FIG. 2 schematically illustrates a top view of a carriage mechanism provided by an embodiment of the present invention;

figure 3 schematically illustrates a main structure of a base frame assembly of the tray mechanism provided by the embodiment of the invention;

figure 4 schematically illustrates a front view of the base frame assembly of the tray mechanism provided by an embodiment of the present invention;

figure 5 schematically illustrates a top view of the base frame assembly of the tray mechanism provided by an embodiment of the present invention;

figure 6 schematically illustrates a bottom view of the base frame assembly of the tray mechanism provided by an embodiment of the present invention;

FIG. 7 is a schematic diagram illustrating a structure of a bracket body of the bracket mechanism provided by the embodiment of the invention;

FIG. 8 is a schematic view showing another structure of a bracket body of the tray mechanism according to the embodiment of the present invention;

FIG. 9 is a schematic structural view of another perspective of the bracket body of the bracket mechanism provided by the embodiment of the invention;

FIG. 10 is a schematic view showing another structure of a bracket body of the tray mechanism according to the embodiment of the present invention;

FIG. 11 is a schematic structural diagram illustrating a main body of a slider assembly of a carriage mechanism provided in an embodiment of the present invention;

FIG. 12 is a schematic diagram illustrating a main structure of a support assembly of the tray mechanism according to an embodiment of the present invention;

the reference numbers illustrate:

the bottom frame assembly 1, the frame body 11, the bottom frame 111, the side frame 112, the positioning sleeve 12, the supporting block 13, the bracket body 21, the first vertical plate 211, the first adjusting groove 2111, the second adjusting groove 2112, the fixing plate 212, the threading hole 2121, the first fixing hole 2122, the first locking member 213, the second vertical plate 214, the reinforcing rib 215, the positioning base 216, the positioning protrusion 22, the slider assembly 3, the first shaft 31, the sliding block 32, the first through hole 321, the second fixing hole 322, the second shaft 33, the first limiting member 331, the supporting assembly 4, the supporting wire 41, the second limiting member 411, the pin shaft 42, and the third locking member 43.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which this application belongs.

Example one

Referring to fig. 1 to 12, a tray mechanism according to an embodiment of the present invention includes: the bottom frame assembly 1 comprises a frame body 11; multiunit bracket component, the mutual interval sets up, the bracket component includes: two bracket bodies 21 respectively attached to a first side edge and a second side edge of the frame body 11 opposing each other in the first direction; at least two sets of slider assembly, the mutual interval sets up, slider assembly 3 includes: a first shaft 31 extending along a second direction, a sliding block 32 and a second shaft 33 extending along a third direction, wherein two opposite ends of the first shaft 31 are respectively fixed on the bottom frame component 1, the sliding block 32 is movably mounted on the first shaft 31 to enable the position of the sliding block on the first shaft 31 to be adjustable, and the second shaft 33 is fixed on the sliding block; two first limiting pieces 331 are arranged on the second shaft 33, and the two first limiting pieces 331 are movably connected with the second shaft 33 and used for contacting and limiting the position of the glass body 5 in the second direction; a plurality of sets of support assemblies 4, corresponding to each set of said carriage assemblies, comprising: the supporting wire 41 extends along a first direction and is used for supporting the glass body 5, two ends of the supporting wire 41 are respectively connected with the two bracket bodies 21 of the corresponding bracket assembly, and the position of the supporting wire 41 relative to the bracket bodies 21 in the third direction is adjustable; a plurality of second limiting members 411 are arranged on the supporting wire 41, and the positions of the second limiting members 411 on the supporting wire 41 are adjustable, so as to contact and limit the position of the glass body 5 in the first direction; wherein any two directions of the first direction, the second direction and the third direction satisfy a vertical condition.

Specifically, the bracket mechanism provided by the embodiment is used for the pre-machine transfer of the glass in each process in the manufacturing process and the ink curing and drying process in the printing process, and can be applied to flat glass or curved glass. The structure of the bracket mechanism mainly comprises: underframe assembly 1, multiunit bracket component, at least two sets of sliding block set spare 3 and multiunit supporting component 4, wherein, refer to fig. 3, underframe assembly 1 includes framework 11, for the bearing structure of mechanism bottom, this framework 11 can be the framework 11 of rectangle, and it includes underframe 111 and side frame 112, can be in order to adopt the wall thickness to be 7-8 mm's L type stainless steel material, through buckling and nodal point welded mode processing and making. Referring to fig. 1 and 2, the bracket assembly is used for mounting the supporting assembly 4, so as to support and limit the position of the glass body 5 in a first direction through the supporting assembly 4, where the first direction may correspond to the width direction of the glass body 5, and in order to stably support and limit the glass body 5, a plurality of groups of bracket assemblies and supporting assemblies 4 should be provided; the bracket assembly comprises two bracket bodies 21 which are respectively arranged on a first side edge and a second side edge which are opposite to each other in the first direction of the frame body 11, the first side edge and the second side edge can be two longer edges of the frame body 11, and the extending direction of the bracket bodies 21 can be a third direction, namely a vertical direction, so as to adjust the height of the supporting assembly 4; the number of the supporting assemblies 4 is equal to that of the bracket assemblies, and the supporting assemblies 4 correspond to the bracket assemblies one by one, each supporting assembly 4 comprises a supporting line 41 extending along the first direction, and the supporting lines 41 of the multiple groups of supporting assemblies 4 are used for supporting the glass body 5 together; two ends of the supporting wire 41 are respectively connected with the two corresponding bracket bodies 21, and the height of the two ends of the supporting wire 41 connected on the bracket bodies 21 is adjustable; when the bracket mechanism provided by the embodiment needs to support the plate glass for use, the supporting wires 41 of the multiple groups of supporting components 4 can be adjusted to the same height, so that the supporting wires 41 are located in the same plane; when the bracket mechanism provided by the embodiment needs to support curved glass for use, the supporting lines 41 of the multiple groups of supporting components 4 can be adjusted to different heights, so that the curved surface formed by the supporting lines 41 is matched with the curvature of the curved glass, and the supporting lines 41 can simultaneously support the curved glass and stably support the curved glass; the connection and adjustment manner of the supporting wire 41 and the bracket body 21 is not particularly limited herein, and will be described in detail below; the supporting line 41 is provided with a plurality of second limiting members 411, the positions of the second limiting members 411 on the supporting line 41 are adjustable, two of the plurality of second limiting members 411 on the same supporting line 41 are in a group, correspond to one glass body 5, move the glass body corresponding to two opposite sides of the glass substrate in the first direction, can play a role in limiting the position of the glass body 5 in the first direction, and can be suitable for glass bodies 5 with different widths, and the number of the glass bodies 5 supported on the bracket mechanism can be determined according to the size of the glass body 5, when the width of the bracket mechanism in the first direction is enough relative to the glass bodies 5, the supporting line 41 can support more than two glass bodies 5. Referring to fig. 11, the slider assembly 3 is used to limit the position of the glass body 5 in a second direction, which may correspond to the length direction of the glass body 5; the sliding block assembly 3 includes a first shaft 31, a sliding block 32 and a second shaft 33, wherein the extending direction of the first shaft 31 is a second direction, two ends of the first shaft 31 are respectively fixed on the bottom frame 111 assembly 1, two sliding blocks 32 are movably arranged on the first shaft 31, the movable arrangement refers to that the position of the sliding block 32 on the first shaft 31 is adjustable, and can be fixed relative to the first shaft 31, the specific connection manner will be described in detail below, the second shaft 33 is respectively fixed on the two sliding blocks 32, the second shaft 33 extends along a third direction and is perpendicular to the first shaft 31, by adjusting the position of the sliding block 32 on the first shaft 31, the two second shafts 33 can be respectively adjusted to the position corresponding to two ends of the glass body 5 opposite to each other in the second direction, and the position of the first limiting member 331 on the second shaft 33 is adjusted, so that the first limiting member 331 contacts the end of the glass body 5, so that the position of the glass body 5 in the second direction can be limited and the glass body 5 with different lengths can be adapted; the number of the sliding block assemblies 3 is at least two, and the sliding block assemblies can be used for limiting at least two glass bodies 5 supported on the supporting line 41 respectively, or when the supporting line 41 is only used for supporting one glass body 5 with a large size, the first limiting parts 331 of the sliding block assemblies 3 in two or more groups can be used for limiting one glass body 5 together. The number of the glass bodies 5 supported on the carriage mechanism may be determined according to the width of the carriage mechanism in the first direction and the width of the glass bodies 5 to be supported, and is not particularly limited herein.

Specifically, in the prior art, a baking tray and a cleaning frame are usually adopted to turnover and bake the glass body 5, and particularly, in the transfer process, the baking tray and the cleaning frame are directly contacted with the surface of the glass body 5, so that scratches are generated on the surface of the glass body 5, foreign matters and dirt are generated, and the yield of the glass body 5 is affected; similarly, the first limiting member 331 and the second limiting member 411 directly contact the glass body 5, and in order to make the first limiting member 331 and the second limiting member 411 scratch the glass body 5, a protection layer may be formed on outer surfaces of the first limiting member 331 and the second limiting member 411 by using a PEEK (polyether ether ketone) material. Further, when the carrier mechanism is processed, the entire mechanism may be subjected to surface deburring and burring.

Specifically, the first limiting member 331 is slidably disposed on the second shaft 33, and the position of the first limiting member 331 on the second shaft 33 is adjusted by sliding, and similarly, the second limiting member 411 is slidably disposed on the supporting line 41, and the position of the second limiting member 411 on the supporting line 41 is adjusted by sliding, so that in order to limit the glass body 5 by the first limiting member 331 and the second limiting member 411, the sizes of the first limiting member 331 and the second shaft 33 and the sizes of the second limiting member 411 and the supporting member respectively have a certain magnitude of interference, so that the position can be maintained after the sliding adjustment to the specified position, and the limiting effect of the glass body 5 can be achieved; the first limiting member 331 may be configured as a cylindrical ring structure, and the second limiting member 411 may be configured as a spherical structure, but is not limited thereto.

According to the above list, the embodiment of the present invention provides a bracket mechanism, which can reliably support a glass substrate by supporting the glass body 5 through the supporting wires 41 of the plurality of groups of supporting assemblies 4 and limiting the glass body 5 by the first limiting member 331 and the second limiting member 411 in the first direction and the second direction, and can be adapted to glass bodies 5 of different sizes by the adjustability of the sliding block assembly 3 and the supporting assemblies 4, and can realize the placement and support of a plurality of glass bodies 5 according to the size of the glass body 5, thereby saving the storage time and the occupied space, and improving the overall quality and efficiency of the glass body 5 in the transferring and drying processes.

Further, referring to fig. 3, fig. 4, fig. 6, and fig. 7-fig. 10, in order to further improve the efficiency of the glass body 5 in the transferring and drying process and save the space for placing the bracket mechanism, in the specific implementation, the structure of the bottom frame 111 assembly 1 further includes: the positioning sleeves 12 are fixed at the bottom side of the frame body 11, the middle part of each positioning sleeve 12 is provided with a positioning hole extending along the third direction, and the opening direction of each positioning hole faces to the side away from the frame body 11; correspondingly, the structure of the bracket component also comprises: two location archs 22 are fixed in the top of two support bodies 21 of every group bracket component, and the position of location archs 22 corresponds with the position of position sleeve 12, and the locating hole looks adaptation at its shape and 12 middle parts of position sleeve to can realize piling up in the third direction through the cooperation of position sleeve 12 and location archs 22 that two or more than two bracket mechanism puts, can save putting space of bracket mechanism, and can improve the efficiency that glass body 5 transported and dried.

Further, referring to fig. 1, fig. 3 and fig. 5, in order to prevent the sliding block 32 from being clamped between the first shaft 31 and the bottom frame 111 when moving to a position close to the frame 11, in a specific implementation, the bottom frame 111 assembly 1 further includes at least two supporting block groups, the number of the supporting block groups is equal to the number of the sliding block assemblies 3, and the positions of the supporting block groups correspond to the positions of the first shaft 31 of the sliding block assemblies 3, each supporting block assembly includes two supporting blocks 13, the two supporting blocks 13 are respectively installed on the bottom frame 111, specifically, the supporting blocks can be welded on the upper surface of the bottom frame 111 in a welding manner, the two ends of the first shaft 31 are supported by the two supporting blocks 13, the first shaft 31 can be supported to a certain height, the strength and stability of the first shaft 31 can be improved, and the sliding block 32 can be assembled to move to the frame 11 to damage the frame 11; specifically, the height of the supporting block 13 may be slightly lower than the height of the side frame 112, and the width thereof may match the width of the bottom frame 111, so as to improve the aesthetic property of the bottom frame 111 assembly 1 while avoiding the damage of the sliding block 32 to the frame 11.

Further, referring to fig. 7-8, in order to facilitate alignment and connection between the positioning sleeve 12 and the positioning protrusion 22 and improve the installation efficiency, in a specific implementation, the positioning hole inside the positioning sleeve 12 may be configured as a tapered hole, and correspondingly, the positioning protrusion 22 may be configured as a tapered protrusion structure, and diameters of the tapered hole and the tapered protrusion are reduced from the bottom end to the bottom end, so that connection between the positioning protrusion 22 and the corresponding positioning sleeve 12 can be quickly achieved when the tray mechanisms are stacked. Specifically, the upper surface of the positioning protrusion 22 can be set to be an arc surface or a hemispherical surface, so that the operator can be effectively prevented from being stabbed during operation, and the operation safety is improved.

Further, referring to fig. 7 to 10, in an implementation, the specific structure of the bracket body 21 may include: the first vertical plate 211 is fixed on the frame 11 in a vertical state, three groove bodies are arranged on the first vertical plate 211 at intervals along a second direction, the groove body positioned in the middle is a first adjusting groove 2111, the groove bodies on two sides are second adjusting grooves 2112, the extending directions of the first adjusting groove 2111 and the second adjusting groove 2112 are third directions, and the positions and the lengths of the first adjusting groove 2111 and the second adjusting groove 2112 in the third direction on the first vertical plate 211 can be set equally, so that the processing is facilitated; the fixing plate 212 is arranged on the surface of the side frame 112 of the first vertical plate 211 deviating from the corresponding area, the fixing plate 212 is provided with a threading hole 2121 and two first fixing holes 2122 at the same height, the threading hole 2121 and the two first fixing holes 2122 respectively correspond to the first adjusting groove 2111 and the two second adjusting grooves 2112, the centers of the threading hole 2121 and the two first fixing holes 2122 can be located on the same horizontal line, the size of the threading hole 2121 is matched with that of the supporting line 41 and used for threading and fixing the supporting line 41, and the first fixing holes 2122 are used for connecting the first locking piece 213 to fix the fixing plate 212 and the first vertical plate 211; the first locking member 213 may be a socket head cap screw, but is not limited thereto. Through setting up first adjustment slot 2111 and two second adjustment slots 2112, can realize the fixed of fixed plate 212 in the third direction of first riser 211 different positions to can adjust the height of support line 41 through the fixed position of adjusting fixed plate 212 relative first riser 211, thereby can realize the reliable support to sheet glass or curved glass.

Further, referring to fig. 7 to 10, in order to improve the strength of the stent body 21, in a specific implementation, the structure of the stent body 21 further includes: the two second vertical plates 214 are fixed on the surface of the first vertical plate 211 opposite to the fixed plate 212, the second vertical plates 214 are in a vertical state, the arrangement direction of the second vertical plates 214 is perpendicular to the first vertical plate 211, and the two second vertical plates 214 are arranged at intervals and are respectively arranged at the gap between the two second adjusting grooves 2112 and the first adjusting groove 2111; when the bracket body 21 and the bottom frame 111 assembly 1 are installed, the side portions of the first vertical plate 211 and the second vertical plate 214 can be welded to the upper surface of the bottom frame 111, and the side portion of the second vertical plate 214 is welded to the side frame 112, so that the reliability of connection between the bracket body 21 and the bottom frame 111 assembly 1 and the strength of the bracket body 21 can be improved. In order to realize the above shape of the bracket body 21, besides the above structure, a U-shaped bracket may be adopted, and two vertical plates are disposed on two sides of the U-shaped bracket, the two vertical plates and the middle portion of the U-shaped bracket form a plane same as the first vertical plate 211, two vertical surfaces of the U-shaped bracket and the two second vertical plates 214 have the same function, and the U-shaped bracket and the two vertical plates may be welded into a whole by welding to form the bracket body 21.

Further, referring to fig. 7 and fig. 9, in order to further improve the strength of the stent body 21, in an implementation, the structure of the stent body 21 further includes: a plurality of strengthening ribs 215, strengthening rib 215 can set up to right triangle's lamellar structure, and its right angle part is the same with the angle of the junction of second riser 214 and first riser 211, with a plurality of strengthening ribs 215 evenly welded in the hookup location of first riser 211 and second riser 214, can effectively strengthen the intensity of support body 21, places and appear stress failure.

Further, referring to fig. 7 to fig. 10, in order to improve the strength of the positioning cone, in an implementation, the structure of the bracket body 21 further includes: the positioning base 216 is fixed on the top sides of the first vertical plate 211 and the second vertical plate 214, the positioning protrusions 22 are fixed on the positioning base 216, the fixing strength of the positioning protrusions 22 can be improved by arranging the positioning base 216, the situations that welding parts are broken due to infirm welding or overlong service time and the like can be avoided, and the stability and reliability of a plurality of bracket mechanisms in stacking can be improved.

Further, referring to fig. 12, in an implementation, the structure of the supporting component 4 further includes: a pin shaft 42 and a third locking member 43 disposed at two opposite ends of the supporting wire 41, wherein the pin shaft 42 is disposed at a first end of the supporting wire 41, the first end of the supporting wire 41 is used for connecting the bracket body 21 at the first side edge, the third locking member 43 is disposed at a second end of the supporting member, the second end of the supporting wire 41 is used for connecting the bracket body 21 at the second side edge, and the third locking member 43 may be a screw and nut combined structure to tighten and fix the supporting wire 41; in order to further improve the tensioning effect of the supporting wire 41, the supporting assembly 4 further includes a spring (not shown in the drawings), the spring is sleeved outside the pin shaft 42, the first end of the supporting wire 41 is connected with the corresponding supporting body by a hook, and the spring can be abutted between the end of the pin shaft 42 and the first vertical plate 211, so that the tensioning effect of the supporting wire 41 after being fixed can be enhanced by using the elastic force of the spring, and the supporting stability of the glass body 5 can be improved.

Further, in order to avoid the influence of the second vertical plate 214 of the bracket body 21 located at the second side edge on the locking effect and operation of the third locking member 43, in the specific implementation, referring to fig. 8, the height of the second vertical plate 214 of the bracket body 21 located at the second side edge may be set to be lower than the bottom heights of the first adjustment groove 2111 and the second adjustment groove 2112, so that the operator can conveniently install the third locking member 43, and the fixing effect on the supporting line 41 is ensured; in order to improve the strength of the bracket body 21 at the first side edge, referring to fig. 7, the height of the second vertical plate 214 of the bracket body 21 at the first side edge can be set to be equal to the height of the first vertical plate 211, so that the overall strength of the bracket body 21 can be enhanced, and the aesthetic property of the bracket body can be improved.

Further, referring to fig. 11, in an implementation, the first shaft 31 of the sliding block assembly 3 may be configured as a cylindrical rod, and both ends of the rod are welded to the fixing block; the sliding block 32 can be slidably connected with the first shaft 31, and has a first through hole 321 for passing through the first shaft 31, and the position of the sliding block 32 on the first shaft 31 can be adjusted by sliding relative to the first shaft 31; and one side of the sliding block 32 is provided with a second fixing hole 322 communicating with the first through hole 321, thereby forming a "T" shaped hole in the interior of the sliding block 32, and the position of the sliding block 32 on the first shaft 31 can be fixed by connecting a second locking member in the second fixing hole 322.

Specifically, when in use, an operator wears rubber gloves with both hands to connect a plurality of sets of bracket assemblies by using the supporting lines 41 to form a curved surface or a plane, moves the second limiting members 411 on the supporting lines 41 to be uniformly distributed on the supporting lines 41 to move the sliding blocks 32 on the first shafts 31 to a specified position and fix, places the glass body 5 against the side, holds the glass body 5 to move the other sliding block 32 on the first shafts 31 until the second shafts 33 on the sliding blocks 32 are glazed, fixes the sliding blocks 32, moves the first limiting members 331 on the second shafts 33 to limit the position of the glass body 5 in the second direction, moves the corresponding second limiting members 411 on the supporting lines 41 to limit the position of the glass body 5 in the first direction, determines the number of the glass bodies 5 placed on the bracket mechanism according to the size of the glass bodies 5, and after the placement of the glass bodies 5 is completed, and stacking the bracket mechanisms, and preparing for ink curing and drying operation or transferring to the next procedure for operation.

It should be noted that in the description of the present specification, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.