CN217577951U - Auxiliary frame loading equipment and frame assembling device - Google Patents

Abstract

The application provides supplementary frame equipment and group frame device, wherein supplementary frame equipment includes: at least two lifting upright columns which are arranged at intervals; the frame hangers are arranged at intervals, connected with the lifting upright posts and configured to hang the interval frames to be assembled; the transverse driving assembly is connected with the lifting upright post and is configured to drive the lifting upright post and the frame hanging frame to simultaneously move transversely; and the lifting driving assembly is connected with the transverse driving assembly and the lifting upright column and is configured to drive the lifting upright column and the frame hanging frame to simultaneously move longitudinally. The top edge of the interval frame to be assembled can be positioned through the auxiliary upper frame device, the three-edge positioning of the interval frame can be realized through the frame assembling device, the error of the interval frame caused by rigid deformation is reduced, the frame assembling precision is guaranteed, the automatic auxiliary function can be realized for the large-size interval frame, the labor is reduced, and the production efficiency and the manufacturing precision of the hollow glass are improved.

Description

Auxiliary frame loading equipment and frame assembling device

Technical Field

The application relates to the technical field of hollow glass production and assembly equipment, in particular to auxiliary frame feeding equipment and a frame assembling device.

Background

In the production process of hollow glass, a very important link is the framing of the glass and the intermediate spacing frame. And (3) during framing, filling a drying agent into the spacing frame, coating butyl on the side wall, and manually placing the spacing frame at a specified position of glass to finish framing. At present, the frame assembling table in China is positioned at two sides (one side is added with the bottom side), namely, a spacing frame is leaned against the frame assembling table to complete the positioning of the two sides, and then the rest sides are corrected manually and attached to the glass.

The spacing frame is usually a hollow rectangular tube which needs to be filled with a drying agent, and the rigidity of the spacing frame is poor, so that when the specification of the spacing frame is large, the deformation of the spacing frame is serious, and the spacing frame can be attached to glass only by a large amount of manual work on the premise of not ensuring the precision. Therefore, for a larger spacing frame, the frame assembling can be completed only by a large amount of manpower cooperation, which consumes manpower and cannot ensure the frame assembling precision.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present application is to provide an auxiliary framing device and a framing device.

Based on the above object, the present application provides an auxiliary framing apparatus, comprising:

at least two lifting upright columns which are arranged at intervals;

a plurality of spaced frame hangers connected to the lifting columns and configured to suspend spaced frames to be assembled;

the transverse driving assembly is connected with the lifting upright post and is configured to drive the lifting upright post and the frame hanging rack to simultaneously move transversely;

and the lifting driving assembly is connected with the transverse driving assembly and the lifting upright column and is configured to drive the lifting upright column and the frame hanging frame to simultaneously move longitudinally.

Further, the frame hanger includes:

the mounting base is connected with the lifting upright post;

the swinging rod is movably connected with the mounting base, and the top of the swinging rod is provided with a limiting rod which is configured to be opened or closed relative to the mounting base;

the supporting plate is connected with the mounting base, and when the swinging rod is closed relative to the mounting base, the supporting plate is positioned between the mounting base and the limiting rod and is configured to hang the spacing frame to be assembled.

Further, the frame hanger further comprises:

and the swinging cylinder is connected with the mounting base and the swinging rod and is configured to drive the swinging rod to open or close relative to the mounting base.

Further, the lateral drive assembly comprises:

a lateral drive mechanism;

and the at least two transverse transmission pieces are connected with the transverse driving mechanism, correspond to the at least two lifting upright columns one to one and are configured to drive the at least two lifting upright columns to move transversely simultaneously under the driving of the transverse driving mechanism.

Further, the transverse drive comprises: horizontal hold-in range, action wheel and follow the driving wheel, horizontal hold-in range passes through the action wheel and is connected from the driving wheel transmission, the action wheel with horizontal actuating mechanism connects, horizontal hold-in range and corresponding the lift stand is connected, horizontal hold-in range is configured to drive and corresponds the lift stand carries out lateral shifting.

Further, the lift driving assembly includes:

a lifting drive mechanism;

and the at least two lifting transmission parts are in one-to-one correspondence with the at least two lifting upright columns and connected with the at least two lifting upright columns, and are configured to drive the at least two lifting upright columns to longitudinally move simultaneously under the driving of the lifting driving mechanism.

Further, the lifting drive member includes:

the lifting rack is connected with the corresponding lifting upright post;

and the lifting gear is meshed with the lifting rack and is connected with the lifting driving mechanism.

Further, still include horizontal base, horizontal drive assembly with the lift drive assembly all with horizontal base is connected.

Further, still include the connecting plate, the top of connecting plate with at least two lift stands all are connected, the bottom of connecting plate with a plurality of frame stores pylon all are connected.

Based on the same technical concept, the present application provides a group's frame device, includes:

the frame assembling table comprises a side edge positioning component, a bottom edge positioning component and a support frame, wherein the side edge positioning component and the bottom edge positioning component are connected with the support frame and are configured to position the side edge and the bottom edge of the spacing frame to be assembled;

the auxiliary framing apparatus as in any one of the above claims, coupled to the top of the gang of framing tables, is configured to position the top edge of the spacer frame to be assembled.

From the above, can see out, the supplementary frame equipment and group frame device on that this application provided can treat the topside of the interval frame of equipment through supplementary frame equipment and fix a position, through the group frame device that supplementary frame equipment and group frame platform combination formed, can realize the trilateral location to the interval frame, reduce the interval frame because the produced error of rigid deformation, guarantee the precision of group frame to can realize automatic auxiliary function to big specification interval frame, when reducing artifically, improve production efficiency and hollow glass's preparation precision.

Drawings

In order to more clearly illustrate the technical solutions in the present application or the related art, the drawings needed to be used in the description of the embodiments or the related art will be briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a conventional framing table used to assemble glass and spacer frames;

FIG. 2 is a schematic diagram illustrating a first directional structure of an auxiliary framing device according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an auxiliary framing apparatus of an embodiment of the present application in use in combination with an existing framing table;

FIG. 4 is a schematic view of an embodiment of the present application showing the swing lever of the frame hanger open;

FIG. 5 is a schematic view of the swing lever closing of the frame hanger of the present application;

FIG. 6 is a schematic view of a portion of FIG. 2 of the present application;

FIG. 7 is a second directional structural diagram of an auxiliary bezel apparatus according to an embodiment of the present application;

FIG. 8 is an enlarged partial view of B in FIG. 7 of the specification of the present application;

fig. 9 is a schematic structural diagram of a framing device according to an embodiment of the present application.

In the figure, 1, a transverse driving component; 11. a transverse drive mechanism; 12. a transverse transmission member; 121. a driven wheel; 122. a transverse synchronous belt; 13. a transverse side plate; 14. a transverse connecting frame;

2. a lift drive assembly; 21. a lifting drive mechanism; 22. lifting the transmission member; 221. a lifting rack; 222. A lifting gear; 23. a lifting mounting rack; 24. a lifting connecting shaft;

3. lifting the upright post;

4. a frame hanger; 41. installing a base; 411. mounting a bottom plate; 412. a first side plate; 413. a second side plate; 42. a pin shaft is connected in a swinging manner; 43. a swing lever; 431. a limiting rod; 44. a support plate; 441. a limiting port; 45. a swing cylinder;

5. a transverse base; 6. a connecting plate; 7. a framing table; 71. a support frame; 72. a side positioning assembly; 73. A bottom edge positioning component; 8. glass; 9. and (5) a spacing frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings in combination with specific embodiments.

It should be noted that technical terms or scientific terms used in the embodiments of the present application should have a general meaning as understood by those having ordinary skill in the art to which the present application belongs, unless otherwise defined. The use of "first," "second," and similar terms in the embodiments of the present application is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In the process of producing the hollow glass, a very important link is that the glass 8 is framed with the intermediate spacing frame 9. Referring to fig. 1, fig. 1 is a schematic view illustrating an assembly of a glass 8 and a spacer frame 9 using a conventional stack frame 7. The existing gang frame 7 generally includes: a support frame 71 for supporting the glass 8 to be assembled; a side positioning component 72 for positioning the side of the spacing frame 9 to be assembled; and a bottom edge positioning component 73 for positioning the bottom edge of the spacing frame 9 to be assembled. When assembling the frame, the glass 8 to be assembled is placed on the support frame 71 of the frame assembling table 7, the space frame 9 is filled with the drying agent, the inner wall of the space frame 9 is coated with butyl, and then the space frame 9 is manually placed at the designated position of the glass 8. One side edge of the spacing frame 9 is positioned by using the side edge positioning assembly 72, the bottom edge of the spacing frame 9 is positioned by using the bottom edge positioning assembly 73, and then the rest edges are corrected manually and attached to the glass 8 to complete the framing.

As described in the background art, the existing framing table 7 can only perform positioning on two sides, so when the specification of the spacing frame 9 is large, the deformation of the spacing frame 9 is severe, and the spacing frame can only be attached to the glass 8 on the premise that the precision is not guaranteed through a large amount of manpower, and the framing can be completed only by a large amount of manpower cooperation, which consumes manpower and cannot guarantee the framing precision.

Based on the above problem, the application provides a supplementary frame equipment and group frame device of going up, can treat the topside of the interval frame 9 of assembling and fix a position, and the group frame device that forms with the combination of group frame platform 7 can realize the trilateral location to interval frame 9, reduces interval frame 9 because the produced error of rigid deformation, guarantees the precision of group frame.

The present application will be described in further detail with reference to specific examples.

Referring to fig. 2, the present application provides an auxiliary bezel apparatus, including: at least two lifting columns 3 arranged at intervals; a plurality of spaced frame hangers 4 connected to the lifting columns 3 and configured to hang a spaced frame 9 to be assembled; a transverse driving assembly 1 connected to the lifting column 3 and configured to drive the lifting column 3 and the frame hanger 4 to simultaneously move transversely; and the lifting driving assembly 2 is connected with the transverse driving assembly 1 and the lifting upright post 3 and is configured to drive the lifting upright post 3 and the frame hanging rack 4 to simultaneously move longitudinally.

Specifically, supplementary upper ledge equipment still includes connecting plate 6, the top of connecting plate 6 with at least two lift stands 3 all are connected, the bottom of connecting plate 6 with a plurality of frame stores pylon 4 all are connected. The auxiliary upper frame equipment further comprises a transverse base 5, and the transverse driving assembly 1 and the lifting driving assembly 2 are connected with the transverse base 5.

At least two lifting upright columns 3 are arranged at intervals, the bottoms of the lifting upright columns 3 are connected with the connecting plate 6, and the lifting upright columns 3 are uniformly arranged at the top of the connecting plate 6. When the lifting upright post 3 is driven by the transverse driving component 1 and the lifting driving component 2 to move transversely and/or longitudinally, the lifting upright post 3 can drive the connecting plate 6 to move stably, so that the connecting plate 6 is prevented from shaking or inclining greatly. In this embodiment, two lifting columns 3 are arranged at intervals.

The frame stores pylon 4 interval is provided with a plurality ofly, and a plurality ofly the frame stores pylon 4 all with the bottom of connecting plate 6 is connected, and a plurality ofly the even setting of frame stores pylon 4 is in the bottom of connecting plate 6, frame stores pylon 4 is used for hanging the interval frame 9 of waiting to assemble. When the lifting upright posts 3 drive the connecting plates 6 to move, the connecting plates 6 drive the frame hangers 4 to move simultaneously, and then the spacing frames 9 to be assembled, which are hung on the frame hangers 4, are driven to move until the spacing frames 9 move to the designated positions. Set up a plurality of evenly distributed's frame stores pylon 4 for frame stores pylon 4 can be right interval frame 9 plays even supporting role, prevents that interval frame 9 from taking place to rock by a wide margin or slope at the removal in-process, and the position that leads to interval frame 9 to warp or install is inaccurate. In this embodiment, ten frame hangers 4 are provided at intervals.

The transverse driving assembly 1 is configured to drive the lifting upright column 3 and the frame hanger 4 to simultaneously move transversely, so as to drive the spacing frame 9 to be assembled to move transversely; the lifting driving assembly 2 is configured to drive the lifting upright 3 and the frame hanger 4 to move longitudinally at the same time, so as to drive the spacing frame 9 to be assembled to move longitudinally. The transverse driving component 1 and the lifting driving component 2 are driven to drive the spacing frame 9 to move transversely and/or longitudinally until the spacing frame 9 reaches a specified assembling position.

The transverse driving component 1 and the lifting driving component 2 are connected with the transverse base 5, and the transverse base 5 plays a role in supporting the transverse driving component 1 and the lifting driving component 2. The bottom of the transverse base 5 is provided with a plurality of supporting columns, and the supporting columns can support the whole equipment and can be used as connecting pieces to connect the equipment with other existing framing assembly tables 7 to be used as a whole framing assembly device.

In specific implementation, referring to fig. 3, the auxiliary framing device described in the present application is mounted on the top of the existing framing table 7. The glass 8 to be assembled is placed on the framing stop 7, the spacer 9 to be assembled is filled with a desiccant, and after the inner wall thereof is coated with butyl, the top edge thereof is hung on the frame hanger 4.

The lifting upright post 3 is driven by the transverse driving component 1 to transversely move so as to drive the spacing frame 9 to be assembled to transversely move; the lifting upright post 3 is driven by the lifting driving component 2 to move longitudinally, and then the spacing frame 9 to be assembled is driven to move longitudinally. The transverse driving component 1 and the lifting driving component 2 drive the spacing frame 9 to move transversely and/or longitudinally until the spacing frame 9 reaches the designated assembling position.

The side edge of the spacing frame 9 is positioned by the side edge positioning component 72 of the framing table 7, the bottom edge of the spacing frame 9 is positioned by the bottom edge positioning component 73, and then the other side edge of the spacing frame 9 is manually attached to the glass 8. At this time, the top edge of the spacer frame 9 hung on the frame hanger 4 is pulled by the other side edges and the bottom edge already attached to the glass 8, and therefore the spacer frame falls from the frame hanger 4 and is attached to the glass 8 below the spacer frame, and after manual inspection, adjustment and confirmation are made, the assembly is completed.

The application provides an auxiliary upper frame equipment and group frame device, can treat the topside of interval frame 9 of equipment through auxiliary upper frame equipment and fix a position, can realize the trilateral location to interval frame 9 through the group frame device that auxiliary upper frame equipment and 7 combinations of group frame platform formed, reduce interval frame 9 because the produced error of rigid deformation, guarantee the precision of group frame, and can realize automatic auxiliary function to big specification interval frame 9, when reducing artifically, improve production efficiency and cavity glass 8's preparation precision.

In some embodiments, referring to fig. 4 and 5, the frame hanger 4 includes: the mounting base 41 is connected with the lifting upright post 3; a swing lever 43 movably connected to the mounting base 41, having a top provided with a stopper rod 431 configured to be opened or closed with respect to the mounting base 41; a support plate 44 connected to the mounting base 41, wherein when the swing lever 43 is closed with respect to the mounting base 41, the support plate 44 is located between the mounting base 41 and the stopper rod 431, and configured to hang the spacer frame 9 to be assembled.

Specifically, the mounting base 41 includes a mounting bottom plate 411, a first side plate 412, and a second side plate 413. The mounting bottom plate 411 is connected to the connecting plate 6, and the first side plate 412 and the second side plate 413 are disposed at the bottom of the mounting bottom plate 411 at intervals.

The swing rod 43 is movably connected with the mounting base 41, so that the swing rod 43 can be opened or closed relative to the mounting base 41, and the limiting rod 431 is arranged on one side, close to the mounting base 41, of the swing rod 43. The movable connection mode can be a rotary connection mode, an articulated connection mode, a connection piece mode or other conventional connection modes. In this embodiment, the swing rod 43 is connected to the first side plate 412 through a swing connecting pin 42.

The supporting plate 44 is connected to the second side plate 413, and the supporting plate 44 is used for suspending the spacer frame 9 to be assembled. When the swing rod 43 is closed relative to the mounting base 41, the supporting plate 44 is located between the second side plate 413 and the limiting rod 431, at this time, the spacing frame 9 to be assembled can be hung on the supporting plate 44, and the limiting rod 431 can play a role of blocking and limiting, so that the spacing frame 9 is prevented from falling off the supporting plate 44 in the moving process, and the stability and the safety of the spacing frame 9 in the moving process are ensured. When the swing rod 43 is opened relative to the mounting base 41, the limiting rod 431 leaves the supporting plate 44 and no longer plays a limiting role, so that the side, away from the second side plate 413, of the supporting plate 44 loses the barrier, and at the moment, the top edge of the spacing frame 9 hung on the supporting plate 44 is pulled by the other side edge and the bottom edge which are already attached to the glass 8, so that the top edge falls off the supporting plate 44 and is directly attached to the glass 8 below the supporting plate.

Further, the frame hanger 4 further comprises: a swing cylinder 45, wherein the swing cylinder 45 is connected to both the mounting base 41 and the swing lever 43, and is configured to drive the swing lever 43 to open or close relative to the mounting base 41.

Specifically, the swing cylinder 45 is located between the first side plate 412 and the second side plate 413, a base of the swing cylinder 45 is connected to the bottom of the mounting base plate 411, and a piston end of the swing cylinder 45 is connected to the swing rod 43. When the swing cylinder 45 is started, the piston rod of the swing cylinder 45 extends outwards and pushes the swing rod 43 to rotate in a direction away from the mounting base 41, so that the swing rod 43 is opened relative to the mounting base 41, and the spacing frame 9 to be mounted can slide off the supporting plate 44; when the swing cylinder 45 stops, the piston rod of the swing cylinder 45 retracts and drives the swing rod 43 to rotate towards the direction close to the mounting base 41, so that the swing rod 43 is closed relative to the mounting base 41, and the limiting rod 431 can play a role in preventing the spacing frame 9 from falling off the supporting plate 44.

Furthermore, a position of the supporting plate 44 corresponding to the position-limiting rod 431 is provided with a position-limiting opening 441, and the position-limiting rod 431 can pass through the position-limiting opening 441. When the swing rod 43 is closed relative to the mounting base 41, the limiting rod 431 passes through the limiting opening 441, and a gap is prevented from being left between the supporting plate 44 and the limiting rod 431, so that the spacing frame 9 falls out of the gap, and the effect of preventing the spacing frame 9 from falling off can be better achieved.

In some embodiments, with reference to fig. 2, 6, the transverse drive assembly 1 comprises: a lateral drive mechanism 11; at least two transverse transmission members 12, all connected with the transverse driving mechanism 11, the at least two transverse transmission members 12 are in one-to-one correspondence with the at least two lifting columns 3 and connected to the at least two lifting columns 3, and are configured to drive the at least two lifting columns 3 to move transversely simultaneously under the driving of the transverse driving mechanism 11.

In particular, the transverse transmission member 12 comprises: horizontal hold-in range 122, action wheel and follow driving wheel 121, horizontal hold-in range 122 passes through the action wheel and is connected from driving wheel 121 transmission, the action wheel with horizontal drive mechanism 11 is connected, horizontal hold-in range 122 with correspond lift stand 3 is connected, horizontal hold-in range 122 is configured to drive and corresponds lift stand 3 carries out lateral shifting.

The transverse synchronous belt 122 is connected with the corresponding lifting upright post 3 through a transverse connecting frame 14. The driving wheel and the driven wheel 121 of the at least two transverse transmission members 12 are both connected with the transverse base 5, and the transverse base 5 provides support for the driving wheel and the driven wheel 121. Each driving wheel is connected with the transverse driving mechanism 11, and the transverse driving mechanism 11 can drive all the driving wheels to rotate at the same time. When the spacing frame 9 needs to be moved transversely, the transverse driving mechanism 11 is started, the transverse driving mechanism 11 drives all driving wheels to rotate, the driving wheels drive the transverse synchronous belts 122 connected with the driving wheels to move, the transverse synchronous belts 122 drive the lifting upright posts 3 connected with the driving wheels to move transversely until the spacing frame 9 to be assembled reaches a specified transverse position, the transverse driving mechanism 11 is stopped to be driven, and the lifting upright posts 3 and the spacing frame 9 stop moving transversely. In this embodiment, the transverse driving mechanism 11 is a transverse driving motor set, the transverse driving motor set is connected with all the driving wheels through a long shaft, and the transverse driving motor set can drive all the driving wheels to rotate simultaneously.

In some embodiments, referring to fig. 7 and 8, the lift drive assembly 2 includes: a lift drive mechanism 21; at least two lifting transmission members 22, which are connected to the at least two lifting columns 3 in a one-to-one correspondence, and configured to drive the at least two lifting columns 3 to move longitudinally at the same time under the driving of the lifting driving mechanism 21.

Specifically, the lifting transmission member 22 includes: the lifting rack 221 is connected with the corresponding lifting upright post 3; and an elevating gear 222 engaged with the elevating rack 221 and connected to the elevating driving mechanism 21. The lifting gears 222 of the at least two lifting transmission members 22 are connected to the lifting driving mechanism 21, the lifting driving mechanism 21 can drive all the lifting gears 222 to rotate at the same time, and the rotating lifting gears 222 can drive the lifting racks 221 engaged therewith to move longitudinally, so as to drive the lifting columns 3 and the spacing frames 9 to move longitudinally until the spacing frames 9 reach the designated positions.

In this embodiment, the lifting driving mechanism 21 is a lifting driving motor set, an output shaft of the lifting driving motor set is connected to the lifting connecting shaft 24 through a gear pair, and each lifting gear 222 is connected to the lifting connecting shaft 24. The gear pair is a first gear and a second gear which are vertically meshed, the first gear is connected with an output shaft of the lifting driving motor set, and the second gear is connected with the lifting connecting shaft 24. When the lifting device is used, the lifting driving mechanism 21 is started, the output shaft of the lifting driving mechanism 21 drives the first gear to rotate, the first gear drives the second gear which is vertically meshed with the first gear to rotate, the second gear drives the lifting connecting shaft 24 to rotate, the lifting connecting shaft 24 drives all the lifting gears 222 to rotate, the rotating lifting gears 222 can drive the lifting racks 221 which are meshed with the rotating lifting gears to longitudinally move, and then the lifting upright posts 3 and the spacing frame 9 are driven to longitudinally move until the spacing frame 9 reaches the designated position.

Wherein, the lifting gear 222 is connected with the transverse synchronous belt 122 through a lifting mounting rack 23. When the transverse synchronous belt 122 drives the lifting column 3 to move transversely, the lifting gear 222 and the lifting driving mechanism 21 are also driven to move simultaneously. In actual use, only the lifting driving mechanism 21 is driven to move the lifting upright 3 and the spacing frame 9 longitudinally; only the transverse driving mechanism 11 can be driven to transversely move the lifting upright posts 3 and the spacing frames 9; the transverse driving mechanism 11 and the lifting driving mechanism 21 may also be driven simultaneously, so that the lifting upright 3 and the spacing frame 9 perform longitudinal movement and transverse movement simultaneously, and the specific movement condition is selected according to the actual situation, which is not limited herein.

Based on the same inventive concept, referring to fig. 9, the present application further provides a framing apparatus, including:

the framing table 7 comprises a side edge positioning component 72, a bottom edge positioning component 73 and a support frame 71, wherein the side edge positioning component 72 and the bottom edge positioning component 73 are connected with the support frame 71 and are configured to position the side edge and the bottom edge of the spacing frame 9 to be assembled;

the auxiliary framing device according to any of the above embodiments, coupled to the top of the framing table 7, is configured to position the top edge of the spacer frame 9 to be assembled.

Specifically, the group frame platform 7 may be any one of the existing group frame platforms 7 as long as it can position one side edge and the bottom edge of the spacing frame 9.

This application supplementary upper ledge equipment can use with the cooperation of current arbitrary group frame platform 7, the flexibility of use is very high, the suitability is strong, through the group frame device of supplementary upper ledge equipment and 7 combination formation of group frame platform, can realize the trilateral location to interval frame 9, reduce interval frame 9 because the produced error of rigid deformation, guarantee the precision of group frame, and can realize automatic auxiliary function to big specification interval frame 9, when reducing artifically, improve production efficiency and cavity glass 8's preparation precision.

It should be noted that the above describes some embodiments of the disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments described above and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the present disclosure, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the embodiments of the present disclosure as described above, which are not provided in detail for the sake of brevity.

The disclosed embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalents, improvements, and the like that may be made without departing from the spirit or scope of the embodiments of the present disclosure are intended to be included within the scope of the disclosure.

Claims (10)

1. An auxiliary framing apparatus, comprising:

at least two lifting upright columns which are arranged at intervals;

the frame hangers are arranged at intervals, are connected with the lifting upright posts and are configured to hang the interval frames to be assembled;

the transverse driving assembly is connected with the lifting upright post and is configured to drive the lifting upright post and the frame hanging rack to simultaneously move transversely;

and the lifting driving assembly is connected with the transverse driving assembly and the lifting upright column and is configured to drive the lifting upright column and the frame hanging frame to simultaneously move longitudinally.

2. The auxiliary framing apparatus of claim 1, wherein the frame hanger comprises:

the mounting base is connected with the lifting upright post;

the swinging rod is movably connected with the mounting base, and the top of the swinging rod is provided with a limiting rod which is configured to be opened or closed relative to the mounting base;

the supporting plate is connected with the mounting base, when the swinging rod is closed relative to the mounting base, the supporting plate is positioned between the mounting base and the limiting rod and is configured to hang the spacing frame to be assembled.

3. The auxiliary framing apparatus of claim 2, wherein the frame hanger further comprises:

and the swinging cylinder is connected with the mounting base and the swinging rod and is configured to drive the swinging rod to open or close relative to the mounting base.

4. The auxiliary framing apparatus of claim 1, wherein the lateral drive assembly comprises:

a lateral drive mechanism;

and the at least two transverse transmission pieces are connected with the transverse driving mechanism, correspond to the at least two lifting upright columns one to one and are configured to drive the at least two lifting upright columns to move transversely simultaneously under the driving of the transverse driving mechanism.

5. An auxiliary framing apparatus as claimed in claim 4, wherein the transverse drive comprises: horizontal hold-in range, action wheel and follow the driving wheel, horizontal hold-in range passes through the action wheel and is connected from the driving wheel transmission, the action wheel with horizontal actuating mechanism connects, horizontal hold-in range and corresponding the lift stand is connected, horizontal hold-in range is configured to drive and corresponds the lift stand carries out lateral shifting.

6. The auxiliary framing apparatus of claim 1, wherein the lift drive assembly comprises:

a lifting drive mechanism;

and the at least two lifting transmission parts are in one-to-one correspondence with the at least two lifting upright columns and connected with the at least two lifting upright columns, and are configured to drive the at least two lifting upright columns to simultaneously move longitudinally under the driving of the lifting driving mechanism.

7. The auxiliary framing apparatus of claim 6, wherein the lifting drive comprises:

the lifting rack is connected with the corresponding lifting upright post;

and the lifting gear is meshed with the lifting rack and is connected with the lifting driving mechanism.

8. The auxiliary framing apparatus of claim 1, further comprising a transverse base, the transverse drive assembly and the lift drive assembly each being connected to the transverse base.

9. The auxiliary framing apparatus of claim 1, further comprising a connecting plate, a top of the connecting plate being connected to both of the at least two lifting columns, and a bottom of the connecting plate being connected to both of the plurality of frame hangers.

10. A framing device, comprising:

the frame assembling table comprises a side edge positioning component, a bottom edge positioning component and a support frame, wherein the side edge positioning component and the bottom edge positioning component are connected with the support frame and are configured to position the side edge and the bottom edge of the spacing frame to be assembled;

the auxiliary bezel apparatus as claimed in any one of claims 1 to 9, coupled to a top of said gang of bezels, configured to locate a top edge of a spacer frame to be assembled.

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