CN217837550U - Online sheet storage system equipment for glass storage - Google Patents

Abstract

The utility model discloses an online piece system equipment that stores up for glass storage, include: frame and rack-mounted a plurality of groups glass storage structure, a plurality of groups glass storage structure is followed the length direction of frame is equidistant setting, glass storage structure includes: driven shaft, tensioning shaft, the driven shaft rotates to be installed in the frame, the tensioning shaft rotates to be installed under the driven shaft, the driven shaft with the tensioning shaft is connected through two sets of chain drive structure transmissions, and is two sets of chain drive structure symmetric distribution in the both sides of driven shaft. The utility model discloses not only increased the reserves volume of glass piece, improved work efficiency moreover, reduced equipment cost.

Description

Online sheet storage system equipment for glass storage

Technical Field

The utility model relates to a technical field of glass deep-processing especially relates to an online piece system equipment that stores up for glass storage.

Background

In recent years, the glass deep processing industry in China has been greatly developed, and new functional glass, such as ultrathin glass, solar glass, novel energy-saving hollow glass and the like, is continuously developed. Particularly, in the processing of the substrate glass of the cadmium telluride thin film solar cell, the processing environment is extremely high.

In the present glass deep processing line, the glass sheet storage device is mostly a screw rod lifter, but the screw rod lifter structure limits the storage capacity of glass sheets and reduces the processing efficiency.

Disclosure of Invention

Aiming at the problems of the existing glass sheet storage device, the on-line sheet storage system equipment for glass storage is convenient to store and high in storage capacity.

The specific technical scheme is as follows:

an in-line sheet storage system apparatus for glass storage comprising: frame and rack-mounted a plurality of groups glass storage structure, a plurality of groups glass storage structure is followed the length direction of frame is equidistant setting, glass storage structure includes:

the driven shaft is rotatably arranged on the rack;

the tensioning shaft is rotatably arranged right below the driven shaft, the driven shaft and the tensioning shaft are in transmission connection through two groups of chain transmission structures, and the two groups of chain transmission structures are symmetrically distributed on two sides of the driven shaft;

the chain transmission structure comprises a driving chain wheel fixedly sleeved on the driven shaft and a driven chain wheel fixedly sleeved on the tensioning shaft, and the driving chain wheel is connected with the driven chain wheel through transmission chain;

two fixed a plurality of glass bracing piece that is provided with between the driving chain, a plurality of glass is equidistant setting along vertical direction.

As a further improvement and optimization of the scheme, the driven shaft is horizontally arranged and is perpendicular to the length direction of the rack, and the axial direction of the tensioning shaft is parallel to the axial direction of the driven shaft.

As a further improvement and optimization of the present solution, the present invention further comprises a tensioning structure for controlling tensioning of the transmission chain, the tensioning structure comprising:

the tension beam is fixedly arranged on the rack and positioned below the driven shaft, two connecting plates are arranged on the tension beam at intervals, and guide rails with vertical guide directions are arranged on the opposite end surfaces of the two connecting plates;

the tensioning shaft is rotatably arranged between the two bearing seats, the two bearing seats are respectively provided with a sliding block, and the two sliding blocks are respectively arranged in the two guide rails in a sliding manner;

the bottom end of the screw rod is fixedly connected with the sliding block, the top end of the screw rod penetrates through the straining beam and extends to the upper portion of the straining beam, and a nut is installed on the top end of the screw rod in a threaded mode.

As a further improvement and optimization of the scheme, the transmission mechanism further comprises a transmission assembly, and the transmission assembly is in transmission connection with the driven shaft.

As a further improvement and optimization of the solution, the transmission assembly comprises:

the driving shaft is rotatably installed on the rack, and the driving shaft is in transmission connection with the driven shaft through a transmission part.

The servo motor is fixedly arranged on the rack and is in transmission connection with the driving shaft through the speed reducer;

as a further improvement and optimization of the scheme, the axial direction of the driving shaft is parallel to the length direction of the rack.

As a further improvement and optimization of the scheme, the transmission part is in a bevel gear set structure.

As a further improvement and optimization of the scheme, the chain guide device further comprises a chain guide structure installed on the rack.

As a further improvement and optimization of the present solution, it further comprises a glass conveying structure for conveying glass in or out of the glass storage structure.

Compared with the prior art, the technical scheme has the positive effects that:

(1) The utility model adopts the hollow pin shaft chain and the chain wheel set mechanism to replace the traditional elevator structure, thereby greatly improving the transmission efficiency and reducing the equipment cost;

(2) The utility model adds the chain guide structure, improves the stability of the device, further improves the yield of the glass,

(3) The utility model discloses the internal thread is opened at glass support rod both ends, and the workman crosses with the bolt during equipment, and then assembles the glass support rod, improves workman assembly efficiency, and the glass support rod is also torn open easily and is traded.

Drawings

FIG. 1 is a schematic structural diagram of an on-line sheet storage system for glass storage according to the present invention;

FIG. 2 is a front view of an on-line sheet storage system apparatus for glass storage according to the present invention;

FIG. 3 is a top view of an in-line sheet storage system apparatus for glass storage according to the present invention;

FIG. 4 is a left side view of an in-line sheet storage system apparatus for glass storage in accordance with the present invention;

FIG. 5 is a schematic structural view of a tensioning structure of an on-line sheet storage system apparatus for glass storage according to the present invention;

in the drawings: 1. a frame; 2. a transmission assembly; 3. a glass storage structure; 4. a chain guide structure; 5. A tensioning structure; 6. a glass conveying structure; 21. a drive shaft; 22. a bevel gear set; 23. a speed reducer; 24. A servo motor; 31. a driven shaft; 32. a chain transmission structure; 33. tensioning the shaft; 34. a glass support rod; 311. a drive sprocket; 312. a drive chain; 313. a driven sprocket; 51. drawing a beam; 52. a connecting plate; 53. a bearing seat; 54. a guide rail; 55. a screw; 56. and a nut.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Fig. 1 is the utility model relates to a store up the structural schematic diagram of piece system equipment on line for glass storage, fig. 2 is the utility model discloses a main view that is used for the piece system equipment that stores up on line of glass storage, fig. 3 is the utility model discloses a store up the plan view of piece system equipment on line for glass storage, fig. 4 is the utility model relates to a left side view that is used for the piece system equipment that stores up on line of glass storage, fig. 5 is the utility model discloses a tensioning structure's structural schematic diagram that is used for the piece system equipment that stores up on line of glass storage, as shown in fig. 1-5, a store up piece system equipment on line for glass storage of a preferred embodiment is shown, include: frame 1 and a plurality of groups glass storage structure of installing in frame 1, a plurality of groups glass storage structure are equidistant setting along the length direction of frame 1, and glass storage structure includes: driven shaft 31, tensioning shaft 33, driven shaft 31 rotates and installs in frame 1, tensioning shaft 33 rotates and installs under driven shaft 31, driven shaft 31 is connected through the transmission of two sets of chain drive structure 32 with tensioning shaft 33, two sets of chain drive structure 32 symmetric distribution are in the both sides of driven shaft 31, chain drive structure 32 includes that fixed cover establishes drive sprocket 311 on driven shaft 31, fixed cover establishes driven sprocket 313 on tensioning shaft 33, drive sprocket 311 passes through driving chain 312 transmission with driven sprocket 313 and is connected, the fixed a plurality of glass bracing piece 34 that is provided with between two driving chains 312, a plurality of glass is equidistant setting along vertical direction.

Preferably, the drive chain 312 is a hollow pin chain.

Preferably, the glass support rods 34 are internally threaded at both ends and are bolted to the hollow pin chain.

More specifically, a storage area is formed in the area between two adjacent glass support rods 34 on the same vertical surface, and a plurality of storage areas on the same height form a storage groove for storing glass.

The lifting of each layer of glass supporting rod 34 on the synchronous belt in the vertical direction is realized by controlling the positive and negative rotation of the servo motor 24, and finally, the storage and the release of the glass in each layer of storage tank are realized.

Further, as a preferred embodiment, the driven shaft 31 is horizontally arranged and perpendicular to the longitudinal direction of the frame 1, and the axial direction of the tension shaft 33 is parallel to the axial direction of the driven shaft 31.

Further, as a preferred embodiment, a tensioning structure 5 is further included for controlling the tensioning of the drive chain 312, the tensioning structure including:

the tension beam 51 is fixedly arranged on the rack 1 and positioned below the driven shaft 31, two connecting plates 52 are arranged on the tension beam 51 at intervals, and guide rails 54 with vertical guide directions are arranged on the opposite end surfaces of the two connecting plates 52;

the number of the bearing seats 53 is two, the tensioning shaft 33 is rotatably installed between the two bearing seats 53, the two bearing seats 53 are respectively provided with a sliding block, and the two sliding blocks are respectively installed in the two guide rails 54 in a sliding manner;

the bottom end of the screw 55 is fixedly connected with the sliding block, the top end of the screw 55 penetrates through the tension beam 51 and extends to the upper side of the tension beam 51, and the top end of the screw 55 is provided with a nut 56 in a threaded mode.

Specifically, the screw 55 is connected with the bearing seat 53 with the sliding block through a nut 56, and the position of the tensioning shaft 33 is adjusted by controlling the nut 56 on the screw 55, so that the purpose of tensioning the hollow pin shaft chain is achieved.

Further, as a preferred embodiment, the device further comprises a transmission assembly 2, and the transmission assembly 2 is in transmission connection with the driven shaft 31.

Further, as a preferred embodiment, the transmission assembly 2 includes:

the driving shaft 21 and the driving shaft 21 are rotatably mounted on the frame 1, and the driving shaft 21 is in transmission connection with the driven shaft 31 through a transmission part.

The servo motor 24 is fixedly arranged on the rack 1, and the servo motor 24 is in transmission connection with the driving shaft 21 through a speed reducer 23;

further, as a preferred embodiment, the axial direction of the driving shaft 21 is parallel to the longitudinal direction of the frame 1.

Further, as a preferred embodiment, the transmission member is in the form of a bevel gear set 22.

Specifically, the bevel gear set 22 includes a driving gear fixedly sleeved on the driving shaft 21 and a driven gear fixedly sleeved on the driven shaft 31, and the driving gear and the driven gear are both in bevel gear structures and are meshed with each other.

Further, as a preferred embodiment, the chain guide structure 4 is installed on the frame 1 for improving the stability of the equipment.

Further, as a preferred embodiment, the glass conveying structure 6 is further included, and the glass conveying structure 6 is used for inputting or outputting glass from the glass storage structure 3.

The lifting of the glass supporting rods 34 is controlled by the rotation of the chain wheel set in the embodiment, the glass supporting rods 34 are respectively installed on paired hollow pin chains, the driving shaft 21 is driven to rotate by the servo motor 24 through the speed reducer 23, the driving shaft 21 drives the driven shaft 31 to rotate through the bevel gear set 22, the driven shaft 31 drives the hollow pin chains to rotate through the tensioning shaft 33, the driving chain wheel 311 and the driven chain wheel 313 while rotating, and finally the storage and release of glass sheets on each layer of storage rods are achieved.

The embodiment adopts a hollow pin shaft chain and chain wheel set mechanism to replace the traditional lifter structure, thereby greatly improving the transmission efficiency and reducing the equipment cost; in addition, the chain guide structure 4 is additionally arranged in the embodiment, the stability of the equipment is improved, the yield of the glass is further improved, internal threads are formed in two ends of the glass support rod 34, when the equipment is assembled, a worker transversely penetrates through the equipment by using a bolt, the glass support rod 34 is further assembled, the assembly efficiency of the worker is improved, and the glass support rod 34 is easy to disassemble and replace.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (9)

1. An in-line sheet storage system apparatus for glass storage, comprising: frame and rack-mounted a plurality of groups glass storage structure, a plurality of groups glass storage structure is followed the length direction of frame is equidistant setting, glass storage structure includes:

the driven shaft is rotatably arranged on the rack;

the tensioning shaft is rotatably arranged right below the driven shaft, the driven shaft and the tensioning shaft are in transmission connection through two groups of chain transmission structures, and the two groups of chain transmission structures are symmetrically distributed on two sides of the driven shaft;

the chain transmission structure comprises a driving chain wheel fixedly sleeved on the driven shaft and a driven chain wheel fixedly sleeved on the tensioning shaft, and the driving chain wheel is connected with the driven chain wheel through transmission chain;

two fixed a plurality of glass bracing piece that is provided with between the driving chain, a plurality of glass is equidistant setting along vertical direction.

2. The on-line sheet storage system apparatus for glass storage of claim 1, wherein the driven shaft is arranged horizontally and perpendicular to a length direction of the rack, and an axial direction of the tensioning shaft is parallel to an axial direction of the driven shaft.

3. The in-line sheet storage system apparatus for glass storage of claim 1, further comprising a tensioning structure for controlling tensioning of the drive chain, the tensioning structure comprising:

the tension beam is fixedly arranged on the rack and positioned below the driven shaft, two connecting plates are arranged on the tension beam at intervals, and guide rails with vertical guide directions are arranged on the opposite end surfaces of the two connecting plates;

the tensioning shaft is rotatably arranged between the two bearing seats, the two bearing seats are respectively provided with a sliding block, and the two sliding blocks are respectively arranged in the two guide rails in a sliding manner;

the bottom end of the screw rod is fixedly connected with the sliding block, the top end of the screw rod penetrates through the straining beam and extends to the upper portion of the straining beam, and a nut is installed on the top end of the screw rod in a threaded mode.

4. The in-line sheet storage system apparatus for glass storage of claim 1, further comprising a drive assembly in driving connection with the driven shaft.

5. The in-line sheet storage system apparatus for glass storage of claim 4, wherein the drive assembly comprises:

the driving shaft is rotatably mounted on the rack, and the driving shaft is in transmission connection with the driven shaft through a transmission part;

the servo motor is fixedly installed on the rack and is in transmission connection with the driving shaft through a speed reducer.

6. The in-line sheet storage system apparatus for glass storage of claim 5, wherein an axial direction of the drive shaft is parallel to a length direction of the frame.

7. The in-line sheet storage system apparatus for glass storage of claim 6, wherein the transmission is a bevel gear set configuration.

8. The in-line sheet storage system apparatus for glass storage of claim 1, further comprising a chain guide structure mounted on the frame.

9. The in-line sheet storage system apparatus for glass storage of claim 1, further comprising a glass transport structure for transporting glass in or out of the glass storage structure.

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