CN218464952U - Adsorption device for transferring double-layer glass - Google Patents

Abstract

The utility model relates to a glass production and processing field provides an adsorption equipment for shifting double glazing, and its mainly used shifts to double glazing's absorption, including the base, locate roating seat on the base, the rotatory rotating electrical machines of drive roating seat, locate lifter on the roating seat, liftable locate the elevating system that lift seat, drive lift seat on the lifter go up and down, locate the adsorption seat on the lift seat, be equipped with at least one adsorption head on the adsorption seat, an adsorption equipment is connected to the adsorption head. Through the rotatory adsorption head of rotating electrical machines, through elevating system lift adsorption head, can adsorb the double glazing that finishes producing, with double glazing transfer to the flatbed on, saved the cost of labor, reduce the collision that takes place among the transfer process, improved production efficiency, solved double glazing and transferred to the flatbed in-process, consumeed manpower and materials, probably take place to collide with the technical problem who leads to wearing and tearing.

Description

Adsorption device for transferring double-layer glass

Technical Field

The utility model relates to a glass production and processing field especially relates to an adsorption equipment for shifting double glazing.

Background

The double-layer glass is composed of two pieces of glass, a hollow structure is formed between the two pieces of glass, aluminum profiles and glue are adopted for fixing the two pieces of glass on the peripheral sides, the double-layer glass has good sound insulation, sun protection and wind protection effects, most of the existing double-layer glass is good in function, attractive in appearance and high in grade; after the double-layer hollow glass is produced, the double-layer hollow glass is generally transported to a flat car for transportation by manpower, so that the double-layer glass is heavy in weight and consumes manpower and material resources; when the double-layer glass is cleaned and dried, because the two surfaces of the double-layer glass need to be cleaned and dried, the double-layer glass is generally conveyed vertically or obliquely (the angle between the double-layer glass and the horizontal plane is 70-90 degrees when the double-layer glass is inclined) so as to be convenient for cleaning and drying the two surfaces of the double-layer glass, but the double-layer glass possibly has incomplete dry glue which is possibly adhered to a human body, the clothes of staff are possibly damaged, and the double-layer glass is possibly collided to cause abrasion in the carrying process.

SUMMERY OF THE UTILITY MODEL

Therefore, to the above-mentioned problem, the utility model provides an adsorption equipment for shifting double glazing is proposed. The technical problem that the double-layer glass is transferred to a flat car, manpower and material resources are consumed, and the double-layer glass is likely to collide to cause abrasion is solved.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an adsorption equipment for shifting double glazing, its mainly used is to double glazing's absorption transfer, includes the base, locate roating seat on the base, the rotatory rotating electrical machines of drive roating seat, locate lifter on the roating seat, liftable locate the seat on the lifter, drive the elevating system that the seat goes up and down, locate the adsorption seat on the seat that goes up and down, be equipped with at least one adsorption head on the adsorption seat, an adsorption equipment is connected to the adsorption head.

Further:

still include the base, locate the pushing mechanism on the base, pushing mechanism can promote the flatbed and remove, be equipped with the spout on the base, the flatbed slidable is on the spout.

The pushing mechanism comprises two opposite pushing cylinders, a first buffer mechanism connected to the pushing cylinders and a fixing portion connected to the first buffer mechanism, the first buffer mechanism comprises a first fixing plate fixed to the pushing cylinders, a guide rod arranged on the first fixing plate, a second fixing plate arranged on the fixing portion and a guide sleeve arranged on the second fixing plate, the guide rod is inserted into the guide sleeve, a buffer spring is arranged in the guide sleeve, and the end portion of the guide rod is fixed to the buffer spring.

The fixing part is provided with a buffer rubber.

A pressure sensor is arranged between the pushing cylinder and the first buffer mechanism.

A slope is arranged on the base.

And a second buffer mechanism is arranged between the lifting seat and the adsorption seat.

The base is internally provided with four lifting grooves, each lifting groove is internally provided with a trundle in a liftable mode, the lifting grooves are internally provided with electric push rods for driving the trundles to lift, and the trundles can be abutted against the ground to jack up the base.

By adopting the technical scheme, the beneficial effects of the utility model are that:

the utility model can rotate the adsorption head by the rotating motor, and the adsorption head is lifted by the lifting mechanism, so that the double-layer glass after production can be adsorbed and transferred to the flat car, thereby saving labor cost, reducing collision in the transfer process and improving production efficiency; furthermore, the flat car is pushed by the pushing mechanism, the flat car does not need to be pushed manually, when the double-layer glass rotates to the flat car, the flat car can move, the double-layer glass is placed after being abutted against other glass, the labor cost is saved, and meanwhile, the adsorption head only needs to rotate and lift without moving horizontally; furthermore, the first buffer mechanism has a buffer function, and when the double-layer glass is placed and is in contact with other double-layer glass, the abrasion caused by hard-to-hard contact is prevented; further, the buffer rubber has a buffer function; further, the flat car can be pushed onto the base through the slope; furthermore, when the adsorption head is in contact with the double-layer glass and the double-layer glass is placed, the second buffer mechanism can better buffer the double-layer glass and prevent the double-layer glass from being abraded; furthermore, the pressure sensor has the function of sensing pressure, when the double-layer glass is placed and the pressure is higher, the pushing cylinder is pushed to retreat, so that the action force between the two double-layer glass is prevented from being larger; furthermore, when the adsorption device needs to move, the casters jack up the base and move through the casters, and when the adsorption device works, the four casters are hidden in the lifting groove, so that the friction force between the base and the ground is large, and the base cannot move.

Drawings

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

FIG. 2 is a schematic structural view of a double-layer glass adsorbed by an adsorption device;

FIG. 3 is a schematic structural view of another state of the double glazing being adsorbed by the adsorption device;

FIG. 4 is a schematic structural view of a first damping mechanism;

FIG. 5 is a schematic view of the structure of the base;

fig. 6 is a schematic view of the caster of fig. 5 after it has been lowered.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 6, the present embodiment provides an adsorption device for transferring double glazing, which is mainly used for adsorption transfer of double glazing 6, and includes a base 1, a rotating base 11 disposed on the base 1, a rotating motor 12 driving the rotating base 11 to rotate, a lifting rod 13 disposed on the rotating base 11, a lifting base 14 disposed on the lifting rod 13 in a liftable manner, a lifting mechanism 19 driving the lifting base 14 to lift, a second buffer mechanism 15 disposed on the lifting base 14, and an adsorption base 16 disposed on the second buffer mechanism 15, wherein an adsorption head 17 is disposed on the adsorption base 16, and the adsorption head 17 is connected to an adsorption device 18. Still include base 2, locate pushing mechanism 3 on base 2, pushing mechanism 3 can promote flatbed 4 and remove, is equipped with spout 21 on base 2, and flatbed 4 slidable is on spout 21. The pushing mechanism 3 includes two pushing cylinders 31 oppositely disposed, a first buffer mechanism 32 connected to the pushing cylinders 31, and a fixing portion 33 connected to the first buffer mechanism 32, the first buffer mechanism 32 includes a first fixing plate 321 fixed to the pushing cylinders 31, a guide rod 322 disposed on the first fixing plate 321, a second fixing plate 323 disposed on the fixing portion 33, and a guide sleeve 324 disposed on the second fixing plate 323, the guide rod 322 is inserted into the guide sleeve 324, a buffer spring 325 is disposed in the guide sleeve 324, an end of the guide rod 322 is fixed to the buffer spring 325, a buffer rubber 35 is disposed on the fixing portion 33, the buffer rubber 35 can abut against the flat car 4, and a pressure sensor 35 is disposed between the pushing cylinders 31 and the first buffer mechanism 32. Be equipped with four lifting grooves 10 in the base 1, be equipped with truckle 5 in every lifting groove 10 liftably, be equipped with the electric push rod 51 that drive truckle 5 goes up and down in the lifting groove 10, truckle 5 can support and lean on in ground with base 1 jack-up.

The utility model discloses also can not set up base 2, through artifical promotion flatbed 4, though need consume the manual work, the staff only need promote flatbed 4 can, the operation is comparatively light simple, specifically sets up as the condition.

The cushion rubber 35 may not be provided, and may be provided as appropriate.

A groove is formed in the guide sleeve 324, the buffer spring 325 is located in the groove, and the end of the guide rod 322 is inserted into the groove.

The lifting mechanism 19 is a cylinder, and can also be a linear motor or other linear motion mechanism, a top plate is arranged on the lifting rod 13, the lifting mechanism 19 can be arranged on the top plate, and the lifting mechanism 19 can also be arranged on the rotating base 11, specifically according to the situation.

The pressure sensor 35 is a known component, and the pressure sensor 35 may not be provided, and is not described herein again.

The base 2 is provided with a slope which is convenient for the flat car 4 to push on the base 2, and the slope can be omitted.

The elevation groove 10, the caster 5, and the electric push rod 51 may not be provided, and the electric push rod 51 may be replaced with an air cylinder, specifically, provided as the case may be.

The suction device 18 is usually disposed on the ground, and the suction device 18 is detachably connected to the suction head 17 through a hose, as the case may be.

The first buffer mechanism 32 may also be a rubber block or other structures, or the first buffer mechanism 32 may not be provided, but the buffer effect is relatively poor, specifically according to the situation.

The wheels of the flat car 4 are rollably disposed in the sliding grooves 21, which is well known in the art and will not be described herein.

The second buffer mechanism 15 has the same or different structure as the first buffer mechanism 32, and may be a rubber block or other structure, or the second buffer mechanism 15 may not be provided, but the buffering effect is relatively poor, specifically according to the situation.

The utility model discloses can adopt PLC or other control system control, for well-known technique, no longer describe here.

The utility model discloses a working method is:

the flat car 4 is pushed onto the base 2, wheels of the flat car 4 are arranged in a sliding groove 21, as shown in fig. 1, a pushing mechanism 3 acts to fix the flat car 4, double-layer glass 6 is produced on a production line, an adsorption head 17 adsorbs the double-layer glass 6, as shown in fig. 2, the adsorption head 17 is rotated to the position above the flat car 4 through a rotating motor 12, the double-layer glass 6 is lifted through a lifting mechanism 19, as shown in fig. 3, the pushing mechanism 3 pushes the flat car 4 to move, meanwhile, the double-layer glass 6 is slowly lowered through the lifting mechanism 19, the double-layer glass 6 is placed on the flat car 4, an adsorption device 18 is stopped, the adsorption head 17 is separated from the double-layer glass 6, the flat car 4 is retreated by a small distance, and the adsorption head 17 is restored to the original position to continue the next round of working procedures, so that the mode does not need manpower, the labor cost is greatly reduced, meanwhile, the double-layer glass 6 can be prevented from being collided, and the production efficiency is improved; when the movable base needs to be moved, the caster 5 jacks up the base 1, and the movable base moves through the caster 5 as shown in fig. 6, so that the movable base is simple and practical.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides an adsorption equipment for shifting double glazing, its mainly used is to the adsorption transfer of double glazing, its characterized in that: including the base, locate roating seat on the base, the rotatory rotating electrical machines of drive roating seat, locate lifter on the roating seat, locate the elevating platform on the lifter, drive elevating system that the seat goes up and down, locate the adsorption seat on the elevating platform with liftable, be equipped with at least one adsorption head on the adsorption seat, an adsorption equipment is connected to the adsorption head.

2. An adsorption device for transferring double glazing according to claim 1, wherein: still include the base, locate the pushing mechanism on the base, pushing mechanism can promote the flatbed and remove, be equipped with the spout on the base, the flatbed slidable is on the spout.

3. An adsorption device for transferring double glazing according to claim 2, characterized in that: the pushing mechanism comprises two opposite pushing cylinders, a first buffer mechanism connected to the pushing cylinders and a fixing portion connected to the first buffer mechanism, the first buffer mechanism comprises a first fixing plate fixed to the pushing cylinders, a guide rod arranged on the first fixing plate, a second fixing plate arranged on the fixing portion and a guide sleeve arranged on the second fixing plate, the guide rod is inserted into the guide sleeve, a buffer spring is arranged in the guide sleeve, and the end portion of the guide rod is fixed to the buffer spring.

4. A suction device for transferring double glazing according to claim 3, characterized in that: the fixing part is provided with a buffer rubber.

5. An adsorption device for transferring double glazing according to claim 3, wherein: and a pressure sensor is arranged between the pushing cylinder and the first buffer mechanism.

6. An adsorption device for transferring double glazing according to claim 2, characterized in that: a slope is arranged on the base.

7. An adsorption device for transferring double glazing according to claim 1, wherein: and a second buffer mechanism is arranged between the lifting seat and the adsorption seat.

8. An adsorption device for transferring double glazing according to any one of claims 1 to 7, wherein: the base is internally provided with four lifting grooves, each lifting groove is internally provided with a trundle in a liftable mode, the lifting grooves are internally provided with electric push rods for driving the trundles to lift, and the trundles can be abutted against the ground to jack up the base.

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