CN213325622U - Laminated lifting positioning frame for glass - Google Patents

Abstract

The utility model relates to a glass loading device field specifically discloses a glass's range upon range of locating rack that rises and falls, supports through the setting and holds the board, supports to holding the board and remove for the reference column, makes the utility model provides a glass's range upon range of locating rack that rises and falls when piling up glass, each moves the glass that comes through outside transfer equipment and places the position and all keep the same clearance in order to support holding the board, also be based on the mobile effect who supports holding the board promptly for each glass's of placing the locating position keeps the certain distance with supporting the board, avoided piling up untidy, the higher problem of required precision that direct and fixed knot structure direct contact location brought, improved glass and piled up the degree of accuracy, reduced the positioning accuracy requirement who piles up the positioning instrument to glass, reduced equipment cost. Meanwhile, the movable abutting plate is arranged, so that the device can adapt to stacking and positioning of glass with various sizes, and gaps between the glass and the abutting plate can be completely adapted through the movement of the abutting plate.

Description

Laminated lifting positioning frame for glass

Technical Field

The utility model relates to a glass loading equipment field, in particular to glass's range upon range of locating rack that rises and falls.

Background

The glass is usually large-area glass blocks produced in factories, and then is cut and processed in various large-scale factories to obtain glass with required size after being carried, for example, float glass obtains larger size when being formed, and the weight of the float glass is also larger.

And in the current locating rack that is used for piling up large-scale size glass, large-scale glass's weight all becomes ton calculation, the structure that needs the locating rack when the equipment that shifts glass in the automation line shifts glass to the locating rack is fixed a position, make the glass of placing neatly pile up, and be used for fixing a position glass's structure all be fixed knot structure, can't adjust, make the equipment positioning accuracy requirement to shifting glass too high, if the location structure when breakage appears or buckle, the glass that piles up will appear fixing a position inaccurately and the piling up that leads to is untidy, there is the risk that piles up the error and lead to the glass landing even.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that the current glass piles up the unable regulation of structure that the locating rack is used for the location, the utility model provides a glass's range upon range of locating rack that rises and falls.

The utility model solves the technical problem, and provides a technical scheme as follows: a glass stacking, lifting and positioning frame comprises a supporting assembly and a positioning assembly, wherein one end of the positioning assembly is rotatably connected with the supporting assembly, and glass is laid on one side, away from the supporting assembly, of the positioning assembly; the positioning assembly comprises a placing plane, at least two positioning columns and at least two abutting plates, the at least two positioning columns are arranged on the same side face of the placing plane, one abutting plate is arranged on one side, close to the placing plane, of one positioning column, the abutting plates are in sliding connection with the positioning columns, and the distance between the abutting plates and the placing plane can be adjusted; when the glass is laid on the placing plane, the abutting plates are positioned on the side surfaces of the glass, and a preset gap is formed between the side surface of each glass and each abutting plate; the supporting assembly is rotatably connected with one end, close to the positioning column, of the placing plane.

Preferably, a threaded hole is formed in the positioning column, a screw is positioned on one side, close to the positioning column, of the abutting plate, and the screw is in threaded connection with the threaded hole; a convex connecting column is arranged on one side, close to the positioning column, of the abutting plate, a sliding hole is formed in the position, corresponding to the connecting column, of the positioning column, the connecting column is arranged in the sliding hole, and the moving direction of the connecting column is the same as that of the screw rod.

Preferably, a distance measuring rod is positioned on the outer peripheral side of the threaded hole, the distance measuring rod is connected with the threaded hole in a sliding mode, and the moving direction of the distance measuring rod is the same as that of the screw; the surface of the distance measuring rod is provided with scales.

Preferably, the supporting assembly comprises a supporting frame and a pushing cylinder, and one end of the supporting frame, which is close to the positioning column, is rotatably connected with the placing plane; the pushing cylinder is connected with the placing plane and pushes the placing plane to rotate relative to the supporting frame.

Preferably, the device also comprises a moving element, the moving element is rotatably connected with one end of the support frame, which is far away from the placing plane, and the support frame can rotate on the moving element; the moving member comprises a moving wheel, and the moving wheel rotates to drive the moving member to move in a preset area.

Preferably, a soft rubber pad is arranged on the surface of one side, away from the support frame, of the placing plane; the soft rubber cushion is arranged on one side, close to the placing plane, of the abutting plate.

Preferably, the placing plane is of a hollow structure.

Compared with the prior art, the utility model provides a glass's range upon range of locating rack that rises and falls has following advantage:

1. through setting up to holding the board, support and hold the board and remove for the reference column, make the utility model provides a glass's range upon range of locating rack is when piling up glass, each moves the glass of coming through outside transfer device and places the position and all keep the same clearance in order to support holding the board, also be based on the mobile action who supports holding the board promptly for each location position of placing glass keeps the certain distance with supporting holding the board, the piling up of having avoided direct and fixed knot structure direct contact location to bring is not neat, the higher problem of required precision, the degree of accuracy that glass piles up has been improved, the location required precision that piles up the positioning instrument to glass has been reduced, equipment cost has been reduced. Meanwhile, the movable abutting plate is arranged, so that the device can adapt to stacking and positioning of glass with various sizes, and gaps between the glass and the abutting plate can be completely adapted through the movement of the abutting plate.

2. The user pushes the abutting plate to move after one end of the screw rod is close to the abutting plate by rotating the screw rod, and the connecting column is located in the sliding hole and slides to control the moving direction of the abutting plate. The user also can support the position of holding the board through the screw rod adjustment, and two support on two reference columns to hold the board and can confirm two displacement distance that support the board based on the number of turns that rotates the screw rod to judge two and support and hold the board and remove length and equal, place more steadily under a plurality of parallel support boards with the glass of guaranteeing to place.

3. A distance measuring rod is positioned on the outer peripheral side of the threaded hole and is in sliding connection with the threaded hole, the distance measuring rod and the screw rod are in the same moving direction, and scales are arranged on the surface of the distance measuring rod. During the use, the user promotes through the screw rod and supports the board removal back, supports at the board surface of supporting holding at the removal range finding pole, and the user can be used to look over the distance of current removal through observing the scale on the range finding pole for the removal range finding of supporting holding the board is more accurate.

4. The laminated lifting positioning frame for the glass further comprises a moving element, the moving element is connected with one end, deviating from the placing plane, of the supporting frame in a rotating mode, the supporting frame can be located on the moving element in a rotating mode, so that a user can adjust the working angle of the supporting frame based on the moving element to meet the requirements of a plurality of different production lines, the positioning angle can be adjusted conveniently, and production efficiency is improved. Meanwhile, the moving member comprises a moving wheel, the moving wheel rotates to drive the moving member to move in a preset area, so that the laminated lifting positioning frame of the glass can move in a production area based on the moving member, particularly in an automatic production line, the laminated lifting positioning frame of the glass can work alternately by arranging a plurality of the laminated lifting positioning frames of the glass, and the working efficiency is improved.

5. The placing plane and the abutting plate are respectively provided with a soft silica gel pad, so that the glass placing protection is improved, and the damage caused by collision is avoided.

6. The placing plane can be of a hollow structure, sliding danger caused by contact between the placing plane and the glass surface is avoided, and positioning stability of the glass is improved.

Drawings

Figure 1 is a schematic view of a laminated landing gear for glass according to a first embodiment of the present invention.

Fig. 2 is a schematic top view of a laminated landing gear for glass according to a first embodiment of the present invention.

Figure 3 is a schematic view of the first embodiment of the present invention showing the configuration of a glass laminate landing gear with the central storage plane 121 inverted.

Description of reference numerals:

1-a laminated lifting positioning frame for glass,

11-support component, 111-support frame, 112-pushing cylinder,

12-positioning component, 121-placing plane, 122-positioning column, 1221-threaded hole, 1222-sliding hole, 1223-distance measuring rod, 123-holding plate, 1231-screw rod, 1232-connecting column,

13-moving member, 131-moving wheel.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Referring to fig. 1, 2 and 3, a first embodiment of the present invention provides a stacked lifting and lowering positioning frame 1 for glass, which includes a supporting component 11 and a positioning component 12, wherein one end of the positioning component 12 is rotatably connected to the supporting component 11, and glass is laid on one side of the positioning component 12 away from the supporting component 11.

The positioning assembly 12 includes a placing plane 121, at least two positioning posts 122 and at least two abutting plates 123, the at least two positioning posts 122 are disposed on the same side of the placing plane 121, one abutting plate 123 is disposed on one side of the positioning post 122 close to the placing plane, the abutting plates 123 are slidably connected with the positioning posts 122, the abutting plates 123 can adjust the distance relative to the placing plane 121, when glass is laid on the placing plane 121, the abutting plates 123 are located on the side of the glass, each glass has a preset distance a (a size shown in fig. 1) from the abutting plates 123, and a user can drive the abutting plates 123 to move, so that the abutting plates 123 abut against the side of the glass.

It can be understood that the placing plane 121 can be configured as a hollow structure (as shown in fig. 2), so as to avoid the sliding risk caused by the contact between the placing plane 121 and the glass surface, and improve the positioning stability of the glass.

It can be understood that the placing plane 121 and the abutting plate 123 are both provided with soft silica gel pads, so that the glass placing protection is improved, and the damage caused by collision is avoided.

The supporting component 11 is rotatably connected to one end of the placing plane 121 close to the positioning post 122, and the supporting component 11 drives the placing plane 121 to rotate so as to turn over the placing plane 121.

It can be understood that the abutting plates 123 on the positioning columns 122 are disposed on the same side of the placing plane 121, and when a user drives the abutting plates 123 to move, the abutting plates 123 abut against the side surfaces of the glass at the same time, so that the stacked glass is stacked on the side surfaces of the corresponding abutting plates 123 in a flush manner under the limiting action of the abutting plates 123, and therefore, the stacked glass is convenient to hoist and transport in subsequent steps.

It can be understood that, in the present embodiment, the number of the positioning pillars 122 corresponds to the number of the supporting plates 123, and a supporting plate 123 is correspondingly disposed on a positioning pillar 122. The number of the positioning pillars 122 may be 2, 3 or more, as long as the positioning pillars 122 are disposed on the same side of the placing plane 121, and the positioning pillars 122 are disposed at equal intervals. In particular, when the number of positioning pillars 122 is even, the positioning pillars 122 are on the same side of the placing plane 121 and are symmetrically disposed about a center line of the placing plane 121. In the present embodiment, the number of positioning pillars 122 is 2 for illustration.

It can be understood that the laminated lifting and positioning frame 1 for glass is applied to a glass production line, when cut glass is automatically adsorbed and then moves from the production line to the horizontally arranged placing plane 121, each placed glass is spaced from the abutting plate 123, after enough glass is placed, the abutting plate 123 is driven by a user to abut against the side surface of the glass, the glass on the side surface is made to be flush, the placing plane 121 is driven to turn over by the supporting component 11, and when the placing plane 121 turns over, the positioning column 122 rotates the laminated glass downwards to press against the abutting plate 123 under the action of gravity (in the turning state shown in fig. 3). Because the flat operation of holding through holding the board 123 in advance on the plane 121 that places that sets up of level for the polylith glass atress that the stromatolite set up when the upset is even, avoid glass and holding the too big clearance between the board 123 and lead to glass to remove, improved the security of location glass, and polylith glass atress after the upset is more even when hoist and mount, has improved the stability and the security of hoist and mount.

It can be understood that when glass is placed in a laminated manner, putty powder is generally required to be added between surfaces contacted with the glass, direct corrosion of the surface of the glass is avoided, the sliding characteristic between the glass is improved after the putty powder is added, and if large displacement exists between the two pieces of glass, the glass easily slides to cause the large displacement and then falls out of the placing plane 121.

Support and hold the board 123 through the setting, support and hold the board 123 and remove for reference column 122, make the utility model provides a glass's range upon range of locating rack 1 is when piling up glass, each glass that moves over through outside transfer device places the position and all keeps the same clearance in order to support holding the board 123, also be based on the mobile effect who supports holding the board 123 promptly for each glass of placing's locating position keeps the certain distance with supporting holding the board 123, avoided piling up untidy, the higher problem of required precision that direct and fixed knot structure direct contact location brought, the degree of accuracy that glass piled up has been improved, the positioning accuracy requirement of piling up the location instrument to glass has been reduced, equipment cost has been reduced. Meanwhile, the movable abutting plate 123 is arranged, so that the device can adapt to stacking and positioning of glass with various sizes, and gaps between the glass and the abutting plate 123 can be completely adapted through the movement of the abutting plate 123.

Referring to fig. 1, a threaded hole 1221 is formed in the positioning column 122, a screw 1231 is positioned on a side of the abutting plate 123 close to the positioning column 122, and the screw 1231 is in threaded connection with the threaded hole 1221. A convex connecting column 1232 is arranged on one side of the holding plate 123 close to the positioning column 122, a sliding hole 1222 is arranged at a position of the positioning column 122 corresponding to the connecting column 1232, the connecting column 1232 is arranged in the sliding hole 1222, the moving direction of the connecting column 1232 is the same as that of the screw 1231, and the screw 1231 pushes the holding plate 123 to approach or depart from the placing plane 121.

When the device is used, a user rotates the screw 1231, so that one end of the screw 1231 is close to the holding plate 123 and then pushes the holding plate 123 to move, and the connecting column 1232 is located in the sliding hole 1222 to slide for controlling the moving direction of the holding plate 123. The user can also adjust the position of the abutting plates 123 through the screws 1231, and the abutting plates 123 on the two positioning columns 122 can determine the moving distance of the two abutting plates 123 based on the number of turns of the rotating screws 1231, so as to determine whether the moving lengths of the two abutting plates 123 are equal, thereby ensuring that the placed glass is placed more stably under the multiple parallel abutting plates 123.

It can be understood that the abutting plate 123 can also move relative to the positioning post 122 under the driving of an air cylinder, a worm gear or a hydraulic cylinder, for example, by connecting the air cylinder, and the control air cylinder accurately controls the movement of the abutting plate 123.

Optionally, please continue to refer to fig. 1 and fig. 2, as an embodiment, a distance measuring rod 1223 is positioned on an outer peripheral side of the threaded hole 1221, the distance measuring rod 1223 is slidably connected to the threaded hole 1221, the moving direction of the distance measuring rod 1223 is the same as the moving direction of the screw 1231, and a scale is provided on a surface of the distance measuring rod 1223. During the use, after the user pushes the abutting plate 123 to move through the screw 1231, the distance measuring rod 1223 abuts against the surface of the abutting plate 123, and the user can check the current moving distance by observing the scale on the distance measuring rod 1223, so that the moving distance measurement of the abutting plate 123 is more accurate.

With reference to fig. 1 and fig. 2, the supporting assembly 11 includes a supporting frame 111 and a pushing cylinder 112, and one end of the supporting frame 111 close to the positioning pillar 122 is rotatably connected to the placing plane 121. The pushing cylinder 112 is connected to the placing plane 121, and the pushing cylinder 112 pushes the placing plane 121 to rotate relative to the supporting frame 111.

When the glass is placed, the supporting frame 111 and the placing plane 121 are both in a horizontal state, and after the glass is stacked and the abutting plate 123 abuts against the side surface of the glass, the pushing cylinder 112 is driven to work, so that one end of the placing plane 121 close to the positioning column 122 serves as a rotating shaft, and the rotating shaft rotates relative to the supporting frame 111, so that the positioning column 122 rotates downwards to bear the self gravity of the glass.

Referring to fig. 1, the stacked lifting and positioning frame 1 for glass further includes a moving member 13, the moving member 13 is rotatably connected to one end of the supporting frame 111 away from the placing plane 121, and the supporting frame 111 can rotate on the moving member 13, so that a user can adjust a working angle of the supporting frame 111 based on the moving member 13 to meet requirements of a plurality of different production lines, and adjust a positioning angle conveniently, thereby improving production efficiency.

The moving member 13 comprises a moving wheel 131, the moving wheel 131 rotates to drive the moving member 13 to move in a preset area, so that the laminated lifting and positioning frame 1 of the glass can move in a production area based on the moving member 13, particularly in an automatic production line, the laminated lifting and positioning frame 1 of the glass can work alternately by arranging a plurality of the movable lifting and positioning frames, and the working efficiency is improved.

Compared with the prior art, the utility model provides a glass's range upon range of locating rack that rises and falls has following advantage:

1. through setting up to holding the board, support and hold the board and remove for the reference column, make the utility model provides a glass's range upon range of locating rack is when piling up glass, each moves the glass of coming through outside transfer device and places the position and all keep the same clearance in order to support holding the board, also be based on the mobile action who supports holding the board promptly for each location position of placing glass keeps the certain distance with supporting holding the board, the piling up of having avoided direct and fixed knot structure direct contact location to bring is not neat, the higher problem of required precision, the degree of accuracy that glass piles up has been improved, the location required precision that piles up the positioning instrument to glass has been reduced, equipment cost has been reduced. Meanwhile, the movable abutting plate is arranged, so that the device can adapt to stacking and positioning of glass with various sizes, and gaps between the glass and the abutting plate can be completely adapted through the movement of the abutting plate.

2. The user pushes the abutting plate to move after one end of the screw rod is close to the abutting plate by rotating the screw rod, and the connecting column is located in the sliding hole and slides to control the moving direction of the abutting plate. The user also can support the position of holding the board through the screw rod adjustment, and two support on two reference columns to hold the board and can confirm two displacement distance that support the board based on the number of turns that rotates the screw rod to judge two and support and hold the board and remove length and equal, place more steadily under a plurality of parallel support boards with the glass of guaranteeing to place.

3. A distance measuring rod is positioned on the outer peripheral side of the threaded hole and is in sliding connection with the threaded hole, the distance measuring rod and the screw rod are in the same moving direction, and scales are arranged on the surface of the distance measuring rod. During the use, the user promotes through the screw rod and supports the board removal back, supports at the board surface of supporting holding at the removal range finding pole, and the user can be used to look over the distance of current removal through observing the scale on the range finding pole for the removal range finding of supporting holding the board is more accurate.

4. The laminated lifting positioning frame for the glass further comprises a moving element, the moving element is connected with one end, deviating from the placing plane, of the supporting frame in a rotating mode, the supporting frame can be located on the moving element in a rotating mode, so that a user can adjust the working angle of the supporting frame based on the moving element to meet the requirements of a plurality of different production lines, the positioning angle can be adjusted conveniently, and production efficiency is improved. Meanwhile, the moving member comprises a moving wheel, the moving wheel rotates to drive the moving member to move in a preset area, so that the laminated lifting positioning frame of the glass can move in a production area based on the moving member, particularly in an automatic production line, the laminated lifting positioning frame of the glass can work alternately by arranging a plurality of the laminated lifting positioning frames of the glass, and the working efficiency is improved.

5. The placing plane and the abutting plate are respectively provided with a soft silica gel pad, so that the glass placing protection is improved, and the damage caused by collision is avoided.

6. The placing plane can be of a hollow structure, sliding danger caused by contact between the placing plane and the glass surface is avoided, and positioning stability of the glass is improved.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (7)

1. The utility model provides a glass's range upon range of positioning frame that rises and falls which characterized in that: the glass positioning device comprises a supporting component and a positioning component, wherein one end of the positioning component is rotatably connected with the supporting component, and glass is laid on one side of the positioning component, which is far away from the supporting component;

the positioning assembly comprises a placing plane, at least two positioning columns and at least two abutting plates, the at least two positioning columns are arranged on the same side face of the placing plane, one abutting plate is arranged on one side, close to the placing plane, of one positioning column, the abutting plates are in sliding connection with the positioning columns, and the distance between the abutting plates and the placing plane can be adjusted;

when the glass is laid on the placing plane, the abutting plates are positioned on the side surfaces of the glass, and a preset gap is formed between the side surface of each glass and each abutting plate;

the supporting assembly is rotatably connected with one end, close to the positioning column, of the placing plane.

2. A laminated landing gear for glass as claimed in claim 1, wherein: a threaded hole is formed in the positioning column, a screw rod is positioned on one side, close to the positioning column, of the abutting plate, and the screw rod is in threaded connection with the threaded hole;

a convex connecting column is arranged on one side, close to the positioning column, of the abutting plate, a sliding hole is formed in the position, corresponding to the connecting column, of the positioning column, the connecting column is arranged in the sliding hole, and the moving direction of the connecting column is the same as that of the screw rod.

3. A laminated landing gear for glass as claimed in claim 2, wherein: a distance measuring rod is positioned on the outer peripheral side of the threaded hole, the distance measuring rod is connected with the threaded hole in a sliding mode, and the moving directions of the distance measuring rod and the threaded rod are the same;

the surface of the distance measuring rod is provided with scales.

4. A laminated landing gear for glass as claimed in claim 1, wherein: the supporting assembly comprises a supporting frame and a pushing cylinder, and one end of the supporting frame, which is close to the positioning column, is rotatably connected with the placing plane;

the pushing cylinder is connected with the placing plane and pushes the placing plane to rotate relative to the supporting frame.

5. A laminated landing gear for glass as claimed in claim 4, wherein: the movable piece is rotatably connected with one end of the support frame, which is far away from the placing plane, and the support frame can rotate on the movable piece;

the moving member comprises a moving wheel, and the moving wheel rotates to drive the moving member to move in a preset area.

6. A laminated landing gear for glass as claimed in claim 5, wherein: a soft rubber pad is arranged on the surface of one side, away from the supporting frame, of the placing plane;

the soft rubber cushion is arranged on one side, close to the placing plane, of the abutting plate.

7. A laminated landing gear for glass as claimed in claim 1, wherein: the placing plane is of a hollow structure.

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