CN216581697U - Big glass piling bin - Google Patents

Abstract

The utility model provides a large glass stacking rack, which comprises a rectangular base, wherein an A-shaped rack is fixed at the middle position on the base, and two first supporting surfaces are formed at two sides of the A-shaped rack; a plurality of supporting frames are fixed on the base at two sides of the A-shaped frame, the top surface of each supporting frame is a second supporting surface, and each first supporting surface is vertical to the adjacent second supporting surface; a plurality of sliding rods are arranged at the two ends of the A-shaped frame, the axis of each sliding rod is parallel to the axis of the A-shaped frame, and each sliding rod is connected to the inner wall surface of the A-shaped frame in a sliding mode through a sliding sleeve; one end of each sliding rod, which is close to the end face of the A-shaped frame, is detachably connected with a first swing arm, the other end of each sliding rod is fixedly provided with a second swing arm, the axes of the first swing arm and the second swing arm are all vertical to the axis of the sliding rod, and the first swing arm and the second swing arm extend to the same side of the sliding rod; the utility model has the advantages of effectively avoiding the overturn of the glass and the like.

Description

Big glass piling bin

Technical Field

The utility model relates to a glass deep-processing technology field specifically is a big board glass piling bin.

Background

I need to finish through multiple processing technologies in the deep processing process of glass, sometimes after a processing procedure is finished, the glass needs to be stacked on a glass stacking frame and transferred to the next procedure equipment in a workshop, and in the transferring process, if a binding band is arranged, the procedure is more complicated, time and labor are consumed, and the production efficiency is reduced; if do not beat the bandage, there is the risk that glass emptys again in the transportation, especially to big board glass, it emptys and seriously threatens staff's life safety, and is dangerous very big, so need design a section can enough effectively prevent that glass from toppling over, and the glass piling bin that does not consume time and difficultly again is imperative.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a big board glass piling bin to the above-mentioned problem that prior art exists, the utility model aims to solve the technical problem that a section can enough prevent effectively that glass from empting, the difficult glass piling bin consuming time again.

The purpose of the utility model can be realized by the following technical proposal: the stacking rack for the large glass plates is characterized by comprising a rectangular base, wherein an A-shaped rack is fixed in the middle of the base, and two first supporting surfaces are formed on two sides of the A-shaped rack; a plurality of supporting frames are fixed on the base at two sides of the A-shaped frame, the top surface of each supporting frame is a second supporting surface, and each first supporting surface is vertical to the adjacent second supporting surface; a plurality of sliding rods are arranged at two ends of the A-shaped frame, the axis of each sliding rod is parallel to the axis of the A-shaped frame, and each sliding rod is connected to the inner wall surface of the A-shaped frame in a sliding mode through a sliding sleeve; one end of each sliding rod, which is close to the end face of the A-shaped frame, is detachably connected with a first swing arm, the other end of each sliding rod is fixedly provided with a second swing arm, the axes of the first swing arm and the second swing arm are all vertical to the axis of the sliding rod, and the first swing arm and the second swing arm extend to the same side of the sliding rod; each first swing arm can be detachably connected with a rotating shaft, and each rotating shaft is rotatably connected with a baffle; and each second swing arm is fixed with a balancing weight.

When the glass is hoisted on the stacking frame, the sliding rods can be pulled out of the A-shaped frame, at the moment, the sliding rods are driven to rotate by the counter weight blocks, the rotating shafts and the baffle plates under the action of gravity, and finally, the first swing arms and the second swing arms are in a natural sagging state; and then, the first swing arm is pushed until the first swing arm is tightly attached to the end face of the A-shaped frame, and at the moment, the sliding rod, the rotating shaft and the baffle plate are all retracted into the A-shaped frame, so that the space occupied by the stacking frame is reduced, and unnecessary loss and danger caused by unnecessary contact between the first swing arm and the glass being hoisted can be effectively avoided. After the hoisting is finished, the sliding rod can be pulled out again, so that the baffle is completely positioned outside the glass; then, swinging the swing arm to enable the stacked glass to be positioned between the baffle and the first supporting surface; then, pushing the swing arm until the swing arm is tightly attached to the edge of the glass; and finally, adjusting the angle of the baffle, slowly releasing the swing arm, and naturally attaching the baffle to the surface of the glass to limit the upper part of the glass. In this piling bin, because what the slope was placed during glass to the litter is the axle, will have very big partly to turn into the thrust of thinking first holding surface to glass upper portion at the gravity of baffle, first swing arm, pivot, and the other end of litter is fixed with the balancing weight through the second swing arm, makes this thrust strengthened, can effectively provide in the both ends of "A" type frame and restrict glass, takes place to topple when avoiding it to transport. And, the baffle of rotating connection in the pivot has not only increased its and glass surface's area of contact, avoids it when spacing to glass, causes glass to damage, and because the length of swing arm is certain, its swing angle will change along with the thickness that glass stacked, and the baffle of rotating connection then can be the biggest area contact glass surface all the time.

In the large glass stacking rack, the top of the A-shaped rack is provided with an operating platform, and two sides of the operating platform are provided with handrails; and a plurality of ladder boards are fixedly connected to the two end surfaces of the A-shaped frame.

Because the stacking rack is used for stacking and amplifying plate glass, the stacking rack has larger external dimension, and sometimes workers need to go to the top of the stacking rack for operation, so a step plate and an operation platform are arranged on the stacking rack. Moreover, the existence of the ladder board strengthens the structure of the A-shaped frame, so that the ladder board is more stable.

Drawings

Fig. 1 is a schematic perspective view of the stacking rack.

Fig. 2 is a side view of the stacking rack.

In the figure, 1, a base; 2. an "A" shaped frame; 21. a first support surface; 22. a slide rod; 23. a sliding sleeve; 24. a first swing arm; 25. a second swing arm; 26. a rotating shaft; 27. a baffle plate; 28. a balancing weight; 29. an operating platform; 3. a support frame; 31. a second support surface; 4. a railing; 5. a step plate.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the stacking rack for large glass plates comprises a rectangular base 1, wherein an a-shaped rack 2 is fixed at the middle position of the base 1, and two first supporting surfaces 21 are formed at two sides of the a-shaped rack 2; a plurality of support frames 3 are fixed on the base 1 at two sides of the A-shaped frame 2, the top surface of each support frame 3 is a second support surface 31, and each first support surface 21 is vertical to the adjacent second support surface 31; a plurality of sliding rods 22 are arranged at two ends of the A-shaped frame 2, the axis of each sliding rod 22 is parallel to the axis of the A-shaped frame 2, and each sliding rod 22 is connected to the inner wall surface of the A-shaped frame 2 in a sliding mode through a sliding sleeve 23; a first swing arm 24 is detachably connected to one end of each sliding rod 22 close to the end face of the A-shaped frame 2, a second swing arm 25 is fixed to the other end of each sliding rod 22, the axes of each first swing arm 24 and each second swing arm 25 are perpendicular to the axis of each sliding rod 22, and the first swing arm 24 and the second swing arm 25 extend to the same side of the sliding rod 22; each first swing arm 24 can be detachably connected with a rotating shaft 26, and each rotating shaft 26 is rotatably connected with a baffle plate 27; each second swing arm 25 is fixed with a weight block 28.

When the glass is hung on the stacking rack, each sliding rod 22 can be drawn out of the A-shaped rack 2, at the moment, under the action of gravity, the sliding rod 22 is driven to rotate by the counterweight 28, the rotating shaft 26 and the baffle 27, and finally, each first swing arm 24 and each second swing arm 25 are in a natural sagging state; then, the first swing arm 24 is pushed until the first swing arm is tightly attached to the end face of the A-shaped frame 2, and at the moment, the slide rod 22, the rotating shaft 26 and the baffle 27 are all retracted into the A-shaped frame 2, so that the space occupied by the stacking frame is reduced, and unnecessary loss and danger caused by unnecessary contact with the glass being lifted can be effectively avoided. After the hoisting is completed, we can pull out the slide rod 22 again to make the baffle 27 completely outside the glass; then, swinging the swing arm to enable the stacked glass to be positioned between the baffle plate 27 and the first supporting surface 21; then, pushing the swing arm until the swing arm is tightly attached to the edge of the glass; finally, the angle of the baffle 27 is adjusted, the swing arm is released slowly, and the baffle 27 naturally clings to the surface of the glass, so that the upper part of the glass is limited. In this piling bin, because what the slope was placed during glass, with litter 22 as the axle, will have very big partly transformation at the gravity of baffle 27, first swing arm 24, pivot 26 to the thrust that wants first holding surface 21 on glass upper portion, and the other end of litter 22 is fixed with balancing weight 28 through second swing arm 25 for this thrust is strengthened, can effectively provide in the both ends of "A" type frame 2 and restrict glass, takes place to topple when avoiding it to transport. Moreover, the baffle 27 connected to the rotating shaft 26 in a rotating manner not only increases the contact area between the baffle 27 and the surface of the glass and prevents the glass from being damaged when the baffle is limited, but also changes the swing angle of the swing arm along with the thickness of the stacked glass because the swing arm has a certain length, and the baffle 27 connected in a rotating manner can always contact the surface of the glass in the largest area.

An operating platform 29 is arranged at the top of the A-shaped frame 2, and handrails 4 are arranged on two sides of the operating platform 29; two end surfaces of the A-shaped frame 2 are fixedly connected with a plurality of ladder boards 5 in the sea. Since the stacking rack is used for stacking and enlarging glass plates, the stacking rack has larger external dimension, and sometimes workers need to go to the top of the stacking rack for operation, so that the ladder plate 5 and the operation platform 29 are arranged on the stacking rack. Furthermore, the presence of the step 5 strengthens the structure of the "a" frame 2, making it more stable.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (2)

1. The large-plate glass stacking frame is characterized by comprising a rectangular base (1), wherein an A-shaped frame (2) is fixed at the middle position of the base (1), and two first supporting surfaces (21) are formed on two sides of the A-shaped frame (2); a plurality of supporting frames (3) are fixed on the base (1) on two sides of the A-shaped frame (2), the top surface of each supporting frame (3) is a second supporting surface (31), and each first supporting surface (21) is perpendicular to the adjacent second supporting surface (31); a plurality of sliding rods (22) are arranged at two ends of the A-shaped frame (2), the axis of each sliding rod (22) is parallel to the axis of the A-shaped frame (2), and each sliding rod (22) is connected to the inner wall surface of the A-shaped frame (2) in a sliding mode through a sliding sleeve (23); one end of each sliding rod (22) close to the end face of the A-shaped frame (2) is detachably connected with a first swing arm (24), the other end of each sliding rod (22) is fixed with a second swing arm (25), the axes of each first swing arm (24) and each second swing arm (25) are perpendicular to the axis of the sliding rod (22), and the first swing arm (24) and the second swing arm (25) extend to the same side of the sliding rod (22); each first swing arm (24) can be detachably connected with a rotating shaft (26), and each rotating shaft (26) is rotatably connected with a baffle (27); and a balancing weight (28) is fixed on each second swing arm (25).

2. The large plate glass stacking rack according to claim 1, wherein an operating platform (29) is arranged at the top of the A-shaped rack (2), and railings (4) are arranged on two sides of the operating platform (29); and a plurality of ladder boards (5) are fixedly connected to the two end surfaces of the A-shaped frame (2).

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