CN210594870U - Planting core panel vacuum suction and lifting device - Google Patents

Abstract

The utility model provides a hoist device is inhaled in planting core panel vacuum, includes the gallows, locate a plurality of interval arrangements's of gallows lower part section bar and with a plurality of vacuum chuck subassemblies that the section bar is connected, through first connecting portion swing joint between section bar and the gallows, through second connecting portion swing joint between section bar and the vacuum chuck subassembly. The utility model discloses can be used for hoisting that one side of panel, can hoist that one side of hollow tube again, the interval through the vacuum chuck subassembly is adjusted and can be applicable to the hoist and mount of the core panel of planting of unidimensional not moreover, and simple structure, low cost.

Description

Planting core panel vacuum suction and lifting device

Technical Field

The utility model relates to a hoist technical field, especially a planting core panel vacuum are inhaled and are hung device.

Background

The core plate designed by our factory comprises a first panel, a second panel and a plurality of hollow pipes arranged between the first panel and the second panel, wherein the hollow pipes and the two panels are welded into a whole, preferably brazed. The manufactured core board can be used in various fields of building structures, vehicles, ships, airplanes, space equipment, containers, bridges, roads, tunnels, rail bases, furniture, culvert pipes, vacuum pipes, bags and the like. The core planting means that a plurality of hollow pipes are fixed on one panel to form a core planting panel.

After the core-implanted panel is formed, the core-implanted panel is connected with another panel to form the core plate. Because the size of the core planting panel is large, a lifting appliance is needed for lifting. Because one side of the core implanting panel is the panel and the other side is the hollow tube, the core implanting panel is required to be placed according to the actual situation when being connected with the other panel. For example: when the core-implanted panel is hoisted to another panel, the lifting appliance is required to suck the panel side of the core-implanted panel, so that the hollow pipe can be directly connected with the other panel; when the core-embedded panel needs to be hoisted firstly and then another panel needs to be hoisted, the surface of the hollow tube needs to be sucked and hoisted towards the hoisting tool, so that the surface of the core-embedded panel faces downwards to be in contact with the ground or other shelving platforms, and then the other panel is hoisted and is in contact connection with the hollow tube; or when the core planting panel needs to be stored in advance, the surface of the hollow pipe needs to be sucked and hung towards the hanger.

Therefore, it is highly desirable to design a lifting tool, which can be used for lifting both the panel and the hollow tube, and is suitable for lifting the core-embedded panels of different sizes.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of prior art and providing a simple structure, low cost, wide range of application's plant core panel vacuum suction hoisting device.

The technical scheme of the utility model is that: a vacuum sucking and hanging device for a planting core panel comprises a hanging bracket and a plurality of hanging brackets arranged at the lower part of the hanging bracket

The hanging bracket comprises a plurality of sectional materials which are arranged at intervals and a plurality of vacuum sucker components which are connected with the sectional materials, wherein the sectional materials are movably connected with the hanging bracket through first connecting parts, and the sectional materials are movably connected with the vacuum sucker components through second connecting parts.

Furthermore, the section bar and the hanging bracket are in sliding connection, threaded connection or riveted through a first connecting part.

Further, the sliding connection structure is as follows: the hanger is characterized in that a sliding rail is arranged on a cross beam of the hanger, the first connecting portion comprises a sliding block and a mounting plate which are connected in an integrated mode, the sliding block is connected with the sliding rail in an adaptive mode, and the mounting plate is fixedly connected with the sectional material.

Further, the screwed or riveted structure is as follows: the first connecting part comprises a connecting plate, the connecting plate is of a groove body structure, one end of the first connecting plate is in threaded connection or riveting with the hanging bracket, the other end of the first connecting plate is in threaded connection or riveting with the section bar, and a cross beam of the hanging bracket is embedded into the groove body of the first connecting part; alternatively, the first connecting part comprises a first connecting plate and a second connecting plate, the second connecting plate is in threaded connection or riveted with the section bar, and the first connecting plate and the second connecting plate are connected into a whole through a cross beam of the hanging bracket through a bolt.

Further, the section bar is in threaded connection with the vacuum chuck assembly.

Further, the second connecting portion are sucker supports, the sucker supports are L-shaped, one ends of the sucker supports are connected with the grooves of the section bars through bolts, and the other ends of the sucker supports are fixedly connected with the vacuum sucker assemblies.

Further, the vacuum chuck component comprises a rod body, the lower end of the rod body is connected with the vacuum chuck through a first threaded connecting piece, the upper end of the rod body is connected with a second connecting portion through a second threaded connecting piece, and a spring is arranged on the rod body.

Further, the hanger comprises a frame and a beam framework arranged on the frame, and the beam framework is provided with a mounting seat; the frame comprises two cross beams and two longitudinal beams, a square structure is enclosed, and a reinforcing rib is arranged between the two cross beams; the cross beam is connected with the section bar.

Further, two sides of the section bar are connected with a plurality of vacuum chuck assemblies through second connecting parts.

Furthermore, the length of the vacuum sucker component is greater than that of the hollow pipe on the core implanting panel, and the outer diameter of the vacuum sucker component is smaller than that of the hollow pipe.

The utility model has the advantages that: can be used for hoisting that one side of panel, can hoist that one side of hollow tube again, the interval through the vacuum chuck subassembly is adjusted and can be applicable to the hoist and mount of the core panel of planting of unidimensional not in addition.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the structure of the embodiment shown in FIG. 1;

FIG. 3 is an enlarged view of the structure of the section I shown in FIG. 1;

FIG. 4 is a schematic view of the connection structure of the vacuum chuck assembly of the embodiment shown in FIG. 1;

fig. 5 is a schematic structural view of a core-setting panel according to an embodiment of the present invention.

The attached drawings indicate the following:

1. a hanger; 11. a frame; 12. a beam skeleton; 111. a cross beam; 112. a stringer; 113. reinforcing ribs; 121. a mounting seat;

2. a section bar;

3. a vacuum chuck assembly; 31. a rod body; 32. a vacuum chuck; 33. a spring; 34. a first threaded connection; 35. a second threaded connection; 4. a core-embedded panel; 41. a hollow tube; 42. a panel;

5. a first connection portion; 51. a first connecting plate; 52. a second connecting plate; 53. a long bolt;

6. a suction cup holder; 61. a waist hole.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific examples.

As shown in fig. 1, 2 and 5: the utility model provides a hoist device is inhaled in planting core panel vacuum, includes gallows 1, locates a plurality of interval arrangement's of gallows 1 lower part section bar 2 and a plurality of vacuum chuck subassembly 3 of being connected with section bar 2, through 5 swing joint of first connecting portion between section bar 2 and the gallows 1, through second connecting portion swing joint between section bar 2 and the vacuum chuck subassembly 3.

The scheme has the following advantages: by selecting a plurality of vacuum sucker components 3, the device is particularly suitable for hoisting the core-implanted panel 4, namely, each vacuum sucker component 3 can extend into the hollow pipe 41 corresponding to the position of the vacuum sucker component to suck the part of the panel connected with the hollow pipe 31, thereby hoisting the core-implanted panel 4 and also directly sucking the surface 42 of the core-implanted panel. By designing the movable connection between the sectional material and the hanging bracket, the sectional material can be controlled to move transversely along the hanging bracket, so that the vacuum sucker component moves transversely; through the swing joint between design section bar and the vacuum chuck subassembly, can control vacuum chuck subassembly longitudinal movement, move along the section bar direction promptly. Therefore, the suction device is suitable for suction and lifting of hollow pipes with different intervals and also suitable for suction and lifting of core-planting panels with different sizes by controlling the horizontal and longitudinal arbitrary intervals of the vacuum sucker assembly to be adjusted.

The profile 2 of the present embodiment may be an aluminum alloy profile or a steel profile, etc., preferably an aluminum alloy profile, which has a light dead weight, thereby reducing the overall weight of the device.

The concrete structure of the scheme is as follows:

the hanger 1 comprises a frame 11 and a beam framework 12 arranged on the frame, the beam framework 12 is of a truss structure, four mounting seats 121 are arranged on the beam framework 12, and mounting holes are formed in the mounting seats 121 and used for fixing the hanger, for example, the hanger is connected with a lifting mechanism and/or a translation mechanism, so that the lifting or the translation of an object to be lifted is realized. The frame 11 comprises two cross beams 111 and two longitudinal beams 112, which form a square frame, and a reinforcing rib 113 is arranged between the two cross beams 111. The two cross beams 111 are movably connected with the section bars 2 through first connecting parts, and each section bar 2 is perpendicular to the cross beams 111.

The movable connection between the section bar 2 and the hanger 1 can be sliding connection, screw connection or riveting connection.

The following is a preferred embodiment of the screw connection of the hanger to the profile:

as shown in fig. 4: the first connecting part 5 comprises a first connecting plate 51 and a second connecting plate 52, the first connecting plate 51 is arranged at the upper part of the cross beam 111, the second connecting plate 52 is arranged at the lower part of the cross beam 111, grooves are formed in the upper part and the lower part of the cross beam, threaded holes are formed in the grooves at intervals, and the first connecting plate 51 and the second connecting plate 52 are connected into a whole through threaded holes in the cross beam by long bolts 53; the second connecting plate 52 is bolted to the upper part of the profile 2. When the distance between adjacent profiles 2 needs to be adjusted, the first connecting plate 51 and the second connecting plate 52 can be detached and the positions can be confirmed again, and by adjusting the distance between the profiles, the transverse adjustment of the vacuum chuck assembly can be realized. This structure can reduce the cost of the equipment and simplify the structure.

The following is a preferred embodiment of the sliding connection of the hanger to the profile:

the crossbeam lower part of gallows is equipped with the slide rail, first connecting portion include slider and the mounting panel that the integral type is connected, slider and slide rail adaptation are connected, mounting panel and section bar fixed connection. The distance between adjacent sectional materials can be adjusted by manually adjusting the sliding block to move along the sliding rail.

As shown in fig. 3: two sides of the section bar 2 are connected with a plurality of vacuum sucker components 3 through second connecting parts. Two sides of section bar 2 all are equipped with the recess, are equipped with the screw hole in the recess, and every side of the preferred section bar of this embodiment all is equipped with two recesses that the interval set up. The second connecting portion are sucking disc support 6, and the sucking disc support is the L type, and that one end on long limit of sucking disc support 6 is equipped with the waist hole, through bolted connection between two recesses of waist hole 61 and section bar, fixed connection between that one end of minor face of sucking disc support and the vacuum chuck subassembly. When the space between every two adjacent vacuum chuck assemblies on the section bar needs to be adjusted, the chuck support can be detached, and the position on the section bar can be confirmed again.

Vacuum chuck subassembly 3 includes the body of rod 31, and the lower extreme of the body of rod 31 passes through first threaded connection 34 and connects vacuum chuck 32, and the upper end of the body of rod 31 passes through second threaded connection 35 and connects suction cup support 6, is equipped with spring 33 on the body of rod 31. The first threaded connecting piece is of a sleeve structure; the second threaded connector 35 comprises a sleeve and a nut, an external thread is arranged on the sleeve, and the sucker support 6 and the sleeve are fixed through the nut. By providing the spring 33, the telescopic length of the vacuum cups 32 can be adjusted to keep all vacuum cups on the same level. The length of vacuum chuck subassembly is greater than the length of the hollow tube on the core-implanted panel, and the external diameter of vacuum chuck subassembly is less than the external diameter of hollow tube, and like this, the body of rod and the vacuum chuck of vacuum chuck subassembly all can stretch into in the hollow tube to it hoists to hold the panel.

The working principle of the embodiment is as follows: first, the vacuum chuck is communicated with vacuum equipment (such as a vacuum generator) through the connecting pipe, then the vacuum equipment is started to suck, negative air pressure is generated in the vacuum chuck, and therefore the surface of the core-implanting panel to be lifted is firmly sucked, or the vacuum chuck extends into the hollow pipe to firmly suck the part of the panel connected with the hollow pipe, and then the core-implanting panel to be lifted can be carried. The position of the sucking disc can be adjusted at intervals transversely and longitudinally to be suitable for sucking and hanging different hollow pipe intervals, when the core planting panel is hoisted to a destination, the vacuum sucking disc is inflated stably into the vacuum sucking disc, so that negative air pressure in the vacuum sucking disc is changed into zero air pressure or slight positive air pressure, the vacuum sucking disc is separated from the core planting panel, and the task of lifting and conveying heavy objects is completed.

It can be said that, the vacuum of this embodiment is inhaled hoist device and can be used for hoisting that one side of panel, can hoist that one side of hollow tube again, and the interval through the vacuum chuck subassembly is adjusted and can be applicable to the hoist and mount of the core panel of planting of unidimensional not moreover, and simple structure, low cost.

Claims (10)

1. The utility model provides a planting core panel vacuum suction hoisting device which characterized in that, including the gallows, locate a plurality of interval arrangements's of gallows lower part section bar and with a plurality of vacuum chuck subassemblies that the section bar is connected, through first connecting portion swing joint between section bar and the gallows, through second connecting portion swing joint between section bar and the vacuum chuck subassembly.

2. The core-embedded panel vacuum suction and lifting device as claimed in claim 1, wherein the profile and the lifting frame are slidably connected, screwed or riveted through a first connecting portion.

3. The core-implanted panel vacuum suction and lifting device according to claim 2, wherein the sliding connection structure is: the hanger is characterized in that a sliding rail is arranged on a cross beam of the hanger, the first connecting portion comprises a sliding block and a mounting plate which are connected in an integrated mode, the sliding block is connected with the sliding rail in an adaptive mode, and the mounting plate is fixedly connected with the sectional material.

4. The plant core panel vacuum suction and lifting device of claim 2, wherein the screwed or riveted structure is: the first connecting part comprises a connecting plate, the connecting plate is of a groove body structure, one end of the first connecting plate is in threaded connection or riveting with the hanging bracket, the other end of the first connecting plate is in threaded connection or riveting with the section bar, and a cross beam of the hanging bracket is embedded into the groove body of the first connecting part; or the first connecting part comprises a first connecting plate and a second connecting plate, the second connecting plate is in threaded connection or riveted with the section bar, and the first connecting plate and the second connecting plate are connected into a whole through a cross beam which penetrates through the hanging bracket through a bolt.

5. The grafting core panel vacuum suction and lifting device as claimed in any one of claims 1 to 4, wherein the section bar is screwed with the vacuum suction cup component.

6. The core-embedded panel vacuum suction and lifting device as claimed in claim 5, wherein the second connecting portion is a suction cup bracket, the suction cup bracket is L-shaped, one end of the suction cup bracket is connected with the groove of the profile by a bolt, and the other end of the suction cup bracket is fixedly connected with the vacuum suction cup assembly.

7. The core-embedded panel vacuum suction and lifting device as claimed in any one of claims 1 to 4, wherein the vacuum suction assembly comprises a rod body, the lower end of the rod body is connected with the vacuum suction disc through a first threaded connector, the upper end of the rod body is connected with a second connecting part through a second threaded connector, and a spring is arranged on the rod body.

8. The vacuum sucking and hoisting device for the core-implanted panel according to any one of claims 1 to 4, wherein the hoisting device comprises a frame and a beam skeleton arranged on the frame, and a mounting seat is arranged on the beam skeleton; the frame comprises two cross beams and two longitudinal beams, a square structure is enclosed, and a reinforcing rib is arranged between the two cross beams; the cross beam is connected with the section bar.

9. The core-embedded panel vacuum suction and lifting device as claimed in any one of claims 1 to 4, wherein two side surfaces of the profile are connected with a plurality of vacuum suction cup assemblies through second connecting parts.

10. The hollow suction and lifting device for the core-embedded panel according to any one of claims 1 to 4, wherein the length of the vacuum suction component is greater than that of the hollow tube on the core-embedded panel, and the outer diameter of the vacuum suction component is smaller than that of the hollow tube.

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