CN219791687U - Plain glass buffering storage bin equipment - Google Patents

Abstract

The utility model discloses plain glass caching bin equipment, which comprises a vertical frame, a caching bin arranged on the vertical frame and a bin lifting device for driving the caching bin to move up and down; the buffer storage bin is internally provided with a plurality of layers of conveying roller layer assemblies for storing plain glass, the conveying roller layer assemblies are connected with roller power clutch devices, and the roller power clutch devices are used for switching power for each layer of conveying roller layer assemblies. Compared with the prior art, the buffer storage bin of the device is simple in design, power is switched for the conveying roller layer assembly of each layer through the roller power clutch device, feeding and discharging actions are few, and the contact area of the conveying belt and a product is small, so that the risk of scraping the product is reduced.

Description

Plain glass buffering storage bin equipment

Technical Field

The utility model relates to the technical field of production line caching, in particular to plain glass caching bin equipment.

Background

Along with the continuous development and progress of the automatic production technology, the automation degree of the production line is higher and higher, the automatic production line is longer and longer, and the buffer storage bin plays an important role in ensuring that the automatic line can work continuously.

Particularly in plain glass field, current ordinary buffer storage feed bin needs to realize the feeding ejection of compact function of buffer storage feed bin with the help of pushing away material pumping mechanism, and the design is loaded down with trivial details, and the action is many and occupation area is big, relies on the product to slide business turn over buffer storage feed bin simultaneously, produces the risk of scraping the appearance of colored product.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide plain glass caching bin equipment, which improves caching efficiency and reduces scratch risks.

In view of the purpose, the embodiment of the utility model provides plain glass caching bin equipment, which comprises a vertical frame, a caching bin arranged on the vertical frame and a bin lifting device for driving the caching bin to move up and down;

the buffer storage bin is internally provided with a plurality of layers of conveying roller layer assemblies for storing plain glass, the conveying roller layer assemblies are connected with roller power clutch devices, and the roller power clutch devices are used for switching power for each layer of conveying roller layer assemblies.

Further, every layer the conveying roller layer subassembly all includes the roller that two intervals set up, overlaps in the position that is close to two tip of two roller and is equipped with two roller belt assemblies, two be provided with the round belt idler subassembly between the roller belt assembly.

Further, each roller belt assembly comprises two rollers sleeved on the roller shafts and roller belts sleeved on the two rollers, and the width of each roller belt is just matched with that of each roller.

Further, the round belt idler wheel assembly comprises two round belt idler wheels sleeved on the roller shafts and idler belts sleeved on the two round belt idler wheels.

Further, a roll shaft gear is mounted at one end of the roll shaft, and the roll shaft gear is connected with an external driving assembly.

Further, the driving assembly comprises a driving motor and a motor gear piece rotatably connected to the output end of the driving motor.

Further, the roller power clutch device comprises a power clutch cylinder, and the roller power clutch device is arranged at the bottom of the driving motor and used for switching power.

Further, the device also comprises a bin shell, wherein the bin shell is in a cuboid shape with two open ends and comprises a feed inlet and a discharge outlet;

and two ends of each conveying roller layer assembly are rotatably arranged on the plate bodies at two sides of the storage bin shell at intervals along the vertical direction.

Further, the stock bin lifting device comprises a lifting linear guide rail arranged on the vertical frame and a lifting driving motor for driving the lifting linear guide rail to move up and down; the lifting support is fixedly arranged on the sliding block of the lifting linear guide rail, and the lifting support is fixedly connected with the bottom of the bin shell.

The utility model has the beneficial effects that: the embodiment of the utility model provides plain glass caching bin equipment, which comprises a vertical frame, a caching bin arranged on the vertical frame and a bin lifting device for driving the caching bin to move up and down; the buffer storage bin is internally provided with a plurality of layers of conveying roller layer assemblies for storing plain glass, the conveying roller layer assemblies are connected with roller power clutch devices, and the roller power clutch devices are used for switching power for each layer of conveying roller layer assemblies. Compared with the prior art, the buffer storage bin of the device is simple in design, power is switched for the conveying roller layer assembly of each layer through the roller power clutch device, feeding and discharging actions are few, and the contact area of the conveying belt and a product is small, so that the risk of scraping the product is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a plain glass buffer bin device according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a conveying roller layer assembly of a plain glass buffer bin device according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of an external driving assembly and a roller power clutch device of a plain glass buffer bin device according to an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a lifting linear guide rail and a lifting support of a plain glass buffer bin device according to an embodiment of the present utility model.

In the figure: 100. a vertical frame; 1. caching a storage bin; 2. a stock bin lifting device; 10. a bin housing; 101. a feed inlet; 102. a discharge port; 11. a transport roller layer assembly; 110. a roll shaft; 111. a roller belt assembly; 112. a round belt idler assembly; 113. a roller shaft gear; 13. an external drive assembly; 130. a driving motor; 131. a motor gear member; 12. a roller power clutch device; 20. lifting the linear guide rail; 21. a lifting driving motor; 22. lifting support.

Detailed Description

The embodiment of the utility model provides plain glass caching bin equipment, which improves caching efficiency and reduces scratch risks.

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Examples:

fig. 1 is a schematic diagram of the overall structure of a plain glass buffer bin device, as shown in fig. 1, which comprises a vertical frame 100, a buffer bin 1 arranged on the vertical frame 100, and a bin lifting device 2 for driving the buffer bin 1 to move up and down;

the buffer bin 1 is internally provided with a plurality of layers of conveying roller layer assemblies 11 for storing plain glass, the conveying roller layer assemblies 11 are connected with roller power clutch devices 12, and the roller power clutch devices 12 are used for switching power for each layer of the conveying roller layer assemblies 11.

Working principle: a plurality of layers of conveying roller layer assemblies 11 for storing plain glass are designed in the buffer storage bin 1, each layer of conveying roller layer assemblies 11 is driven to move up and down by a bin lifting device 2, the power of the conveying roller layer assemblies 11 of each layer is switched by a roller power clutch device 12,

further, each conveying roller layer assembly 11 includes two rollers 110 disposed at intervals along the conveying direction of the raw glass, two roller belt assemblies 111 sleeved at two ends of the rollers 110, and a round belt idler assembly 112 disposed between the two roller belt assemblies 111.

In a specific embodiment, each layer of the conveying roller layer assembly 11 includes two roller shafts 110 disposed at intervals, and two roller belt assemblies 111 are sleeved at positions near two ends of the two roller shafts 110.

Specifically, the belt of each roller belt assembly 111 is a thin belt, two roller belt assemblies 111 are respectively arranged at two ends of two roller shafts 110, then a round belt idler wheel assembly 112 is arranged between the two roller belt assemblies 111 and is positioned at the bottom of the raw glass, the raw glass is supported by the three groups of belt wheel assemblies, and the raw glass is conveyed from the feed inlet 101 to the discharge outlet 102.

Further, each roller belt assembly 111 includes two rollers 1110 sleeved on the roller shaft 110, and a roller belt 1111 sleeved on the two rollers, and the width of the roller belt is just matched with that of the two rollers.

Specifically, each roller belt assembly 111 includes two rollers 1110 sleeved on the roller shaft 110, and two roller belts 1111 sleeved on the two rollers, wherein the width of each roller belt is just matched with that of the two rollers.

Further, the belt idler assembly 112 includes two belt idlers 1120 that are sleeved on the roller shafts 110, and an idler belt 1121 that is sleeved on the two belt idlers 1120.

Specifically, the roller belt assembly 111 on the side far away from the external driving assembly 13 is driven to rotate by the round belt idler assembly 112.

Further, a roller gear 113 is installed at one end portion of the roller 110, and the roller gear 113 is connected to the external driving unit 13.

Specifically, the output end of the external driving assembly 13 is in meshed connection with the roller shaft gear 113, and one side of the external driving assembly 13 is provided with the roller power clutch device 12.

Further, the external driving assembly 13 includes a driving motor 130 and a motor gear member 131 rotatably connected to an output end of the driving motor, the motor gear member 131 is engaged with the roller gear 113, the driving motor 130 drives the motor gear member 131 to rotate, and drives the roller gear 113 to rotate so that the roller 110 rotates to drive the roller belt assembly 111 and the round belt idler assembly 112 to rotate, so that the green glass is transported.

Further, the roller power clutch 12 includes a power clutch cylinder, and the roller power clutch 12 is disposed at the bottom of the driving motor 130 for switching power.

Specifically, the motor gear member 131 for assisting in switching the driving motor 130 by the power clutch cylinder 120 is connected to the roller gears 113 of different layers, respectively.

Further, the device also comprises a bin shell 10, wherein the bin shell 10 is in a cuboid shape with two open ends, and comprises a feed inlet 101 and a discharge outlet 102; specifically, raw glass enters from a feed port 101 and is carried out from a discharge port 102.

Specifically, two ends of each conveying roller layer assembly 11 are rotatably mounted on the plate bodies at two sides of the bin housing 10 at intervals along the vertical direction. Preset intervals are set between the conveying roller layer assemblies 11 for the plain glass to pass through.

Further, the bin lifting device 2 comprises a lifting linear guide rail 20 arranged on the vertical frame 100 and a lifting driving motor 21 for driving the lifting linear guide rail 20 to move up and down; the lifting support 22 is fixedly arranged on the sliding block 201 of the lifting linear guide rail 20, and the lifting support 22 is fixedly connected with the bottom of the bin housing 10.

Specifically, the lifting driving motor 21 drives the sliding block 201 of the lifting linear guide rail 20 to move up and down, the lifting bracket 22 is arranged on the sliding block 201, and the lifting bracket 22 is fixedly connected with the bottom of the bin housing 10, so that the bin housing 10 moves up and down, and the power of the conveying roller layer assemblies 11 at different layers can be conveniently switched.

In summary, the embodiment of the utility model provides a plain glass cache silo device, which comprises a vertical frame, a cache silo arranged on the vertical frame, and a silo lifting device for driving the cache silo to move up and down; the buffer storage bin is internally provided with a plurality of layers of conveying roller layer assemblies for storing plain glass, the conveying roller layer assemblies are connected with roller power clutch devices, and the roller power clutch devices are used for switching power for each layer of conveying roller layer assemblies. Through the interior design of this buffering feed bin has the transport gyro wheel layer subassembly that the multilayer is used for depositing plain glass, through feed bin elevating gear drive each layer transport gyro wheel layer subassembly reciprocates, switches power for the transport gyro wheel layer subassembly of each layer through gyro wheel power clutch, in addition, every layer transport gyro wheel layer subassembly is all through thin belt pulley subassembly interval setting for plain glass is difficult to by the fish tail in transit, reduces the risk that produces the scratch product outward appearance.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (9)

1. The plain glass caching bin equipment is characterized by comprising a vertical frame (100), a caching bin (1) arranged on the vertical frame (100), and a bin lifting device (2) for driving the caching bin (1) to move up and down;

the buffer storage bin (1) is internally provided with a plurality of layers of conveying roller layer assemblies (11) for storing plain glass, the conveying roller layer assemblies (11) are connected with roller power clutch devices (12), and the roller power clutch devices (12) are used for switching power for each layer of conveying roller layer assemblies (11).

2. The plain glass buffering storage bin device according to claim 1, wherein each conveying roller layer assembly (11) comprises two roller shafts (110) arranged at intervals, two roller belt assemblies (111) are sleeved at positions close to two end portions of the two roller shafts (110), and a round belt idler wheel assembly (112) is arranged between the two roller belt assemblies (111).

3. A raw glass buffer storage bin apparatus according to claim 2, wherein each roller belt assembly (111) comprises two rollers (1110) sleeved on a roller shaft (110), and a roller belt (1111) sleeved on the two rollers (1110), and the width of the roller belt (1111) is just matched with that of the two rollers (1110).

4. A raw glass buffer storage silo apparatus as defined in claim 2, wherein the round belt idler assembly (112) comprises two round belt idlers (1120) sleeved on roller shafts (110), and idler belts (1121) sleeved on the two round belt idlers (1120).

5. A raw glass buffer storage bin apparatus according to claim 2, wherein a roller gear (113) is mounted at one end of the roller shaft (110), and the roller gear (113) is connected with an external driving assembly (13).

6. The plain glass buffering storage bin device according to claim 5, wherein the driving assembly (13) comprises a driving motor (130) and a motor gear member (131) rotatably connected to an output end of the driving motor.

7. The plain glass buffering storage bin apparatus according to claim 6, wherein the roller power clutch device (12) comprises a power clutch cylinder, and the roller power clutch device (12) is arranged at the bottom of the driving motor (130) and used for switching power.

8. The plain glass buffering storage bin device according to claim 7, further comprising a storage bin shell (10), wherein the storage bin shell (10) is in a cuboid shape with two open ends, and comprises a feed inlet (101) and a discharge outlet (102);

the two ends of each conveying roller layer assembly (11) are rotatably arranged on the plate bodies on the two sides of the storage bin shell (10) at intervals along the vertical direction.

9. The plain glass buffering storage bin device according to claim 8, wherein the storage bin lifting device (2) comprises a lifting linear guide rail (20) arranged on the vertical frame (100) and a lifting driving motor (21) for driving the lifting linear guide rail (20) to move up and down; the lifting support (22) is fixedly arranged on the sliding block (201) of the lifting linear guide rail (20), and the lifting support (22) is fixedly connected with the bottom of the storage bin shell (10).