CN211945334U - A multilayer rollgang device for sheet glass processing - Google Patents

Abstract

The utility model discloses a multilayer rollgang device for sheet glass processing, include: a first frame; the first conveying mechanism is arranged at the upper end of the first rack; the second conveying mechanism is arranged in the middle of the first rack; the second rack is arranged at one end of the first rack; the movable edge leaning mechanism is arranged at the upper end of the second rack; and the air floatation conveying mechanism is arranged in the middle of the second rack. Through the application of the utility model, the up-and-down linkage of the glass processing production line is realized, the process layout of the roller way arrangement is greatly optimized, and the floor area of the production line is reduced; the moving edge leaning mechanism and the air floatation conveying mechanism are adopted to quickly and efficiently finish the transfer of the plate glass on different roller ways, and the production efficiency is greatly improved.

Description

A multilayer rollgang device for sheet glass processing

Technical Field

The utility model relates to a glass carries technical field, especially relates to a multilayer rollgang device for sheet glass processing.

Background

At present, domestic glass processing products are increasingly diversified, and especially, plate glass is processed. The roller bed device is a necessary part in the arrangement of various glass processing production lines in a large number of production industries such as photovoltaic industry, building industry, household appliance industry and the like, however, most production industries often encounter the problem that the normal production process is influenced due to the fact that the size of a long glass plate production line is limited, the normal process roller bed arrangement cannot be adopted, the production efficiency is seriously influenced, and huge loss is caused to the productivity of a production workshop.

SUMMERY OF THE UTILITY MODEL

In view of the above, in order to solve the above problem, an object of the present invention is to provide a multi-layer roller way device for processing sheet glass, comprising:

a first frame;

the first conveying mechanism is arranged at the upper end of the first rack;

the second conveying mechanism is arranged in the middle of the first rack;

the second rack is arranged at one end of the first rack;

the movable edge leaning mechanism is arranged at the upper end of the second rack;

and the air floatation conveying mechanism is arranged in the middle of the second rack.

In another preferred embodiment, the first conveying mechanism includes:

the first conveying base is fixedly arranged at the upper end of the first rack;

the two first roller way supporting structures are respectively arranged on two sides of the first conveying base;

the first transmission shaft is arranged on one side, close to the outside, of the upper surface of the first conveying base relative to the first roller way supporting structure;

one end of each first conveying roller penetrates through one first roller way supporting structure to be in transmission connection with the first transmission shaft, and the other end of each first conveying roller is installed on the other first roller way supporting structure;

the first transmission motor is arranged on one side of the first conveying base and drives a plurality of first conveying rollers to run through the first conveying rollers and the first transmission shaft;

each first lifting type conveying belt mechanism is arranged on the upper surface of the first conveying base in a lifting manner, and each first lifting type conveying belt mechanism is arranged between two adjacent first conveying rollers;

and each first side-leaning wheel is arranged on the first roller way supporting structure which is just opposite to the running direction of each first lifting type conveying belt mechanism.

In another preferred embodiment, the second conveying mechanism includes:

the second conveying base is fixedly arranged in the middle of the first rack;

the two second roller channel supporting structures are respectively arranged on two sides of the second conveying base;

the second transmission shaft is arranged on one outer side, close to the second roller way supporting structure, of the upper surface of the second conveying base;

one end of each second conveying roller penetrates through one second roller channel supporting structure to be in transmission connection with the first transmission shaft, and the other end of each second conveying roller is installed on the other second roller channel supporting structure;

and the second transmission motor is arranged on one side of the second conveying base and drives the plurality of second conveying rollers to run through one second conveying roller and the second transmission shaft.

In another preferred embodiment, the moving edge-resting mechanism comprises: the fixing mechanism is fixedly arranged on one side of the upper end of the second rack, and the moving mechanism is arranged on the other side of the upper end of the second rack.

In another preferred embodiment, the fixing mechanism includes: the fixing frame is fixedly installed on one side of the upper end of the second rack, the fixing frame is aligned with the first roller way supporting structure close to the first transmission shaft, and the soft felt is fixedly installed on one side, close to the moving mechanism, of the fixing frame.

In another preferred embodiment, the moving mechanism includes:

the fixed seat is arranged on the other side of the upper end of the second rack;

the two linear guide rails are respectively arranged at two ends of the upper surface of the fixed seat and are arranged along the direction vertical to the fixed frame;

the two sliding blocks are respectively and slidably arranged on the two linear guide rails;

the two support rods are fixedly arranged on the two sliding blocks and are arranged along the direction perpendicular to the fixed frame;

one side of each supporting bar is fixedly connected with one end of each supporting bar;

each second side wheel is arranged on one side, close to the fixing frame, of the support bar, and each second side wheel is right opposite to the soft felt;

a driving motor, driving motor install in the upper surface of fixing base, driving motor locates two between the linear guide, driving motor's output shaft with support bar fixed connection.

In another preferred embodiment, the moving mechanism further comprises: and the photoelectric switch is arranged at one end, close to the first conveying mechanism, of the support bar.

In another preferred embodiment, the air floatation conveying mechanism comprises:

the air floatation device is fixedly arranged in the middle of the second rack, a plurality of air holes are formed in the air floatation device, and a plurality of rectangular holes are formed in the air floatation device;

each second lifting type conveying belt mechanism is arranged in one rectangular hole in a lifting manner, and the arrangement direction of each second lifting type conveying belt mechanism is parallel to the two second transmission shafts;

and the air supply device is fixedly arranged below the air floatation device and is connected with each air hole through the air floatation device.

The utility model discloses owing to adopted above-mentioned technical scheme, make it compare the positive effect that has with prior art to be:

(1) the up-and-down linkage of the glass processing production line is realized, the process layout of roller way arrangement is greatly optimized, and the floor area of the production line is reduced;

(2) the moving edge leaning mechanism and the air floatation conveying mechanism are adopted to quickly and efficiently finish the transfer of the plate glass on different roller ways, and the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic view of a multi-layer roller conveyor apparatus for processing sheet glass according to the present invention;

fig. 2 is a schematic view of a first conveying mechanism of a multi-layer conveying roller way device for processing plate glass according to the present invention;

fig. 3 is a schematic view of a second conveying mechanism of the multi-layer conveying roller way device for processing plate glass according to the present invention;

FIG. 4 is a schematic view of a movable edge-abutting mechanism of a multi-layer roller conveyor for processing sheet glass according to the present invention;

fig. 5 is a schematic view of the air floatation conveying mechanism of the multi-layer conveying roller device for processing plate glass of the present invention.

In the drawings: 100. a first conveying mechanism; 200. a second conveying mechanism; 300. a movable edge leaning mechanism; 400. an air floatation conveying mechanism; 500. a plate glass; 110. a first transport base; 120. a first roller bed support structure; 130. a first drive shaft; 140. a first conveying roller; 150. a first drive motor; 160. A first elevation type conveyor belt mechanism; 170. a first side wheel; 210. a second transport base; 220. a second roller way support structure; 230. a second drive shaft; 240. a second conveying roller; 250. a second drive motor; 310. a fixing mechanism; 320. a moving mechanism; 311. a fixed mount; 312. soft felt; 321. a fixed seat; 322. a linear guide rail; 323. a slider; 324. a support bar; 325. a supporting strip; 326. a second side wheel; 327. a drive motor; 328. a photoelectric switch; 410. an air floatation device; 411. air holes; 420. and the second lifting type conveying belt mechanism.

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.

As shown in fig. 1, there is shown a multi-layer rollgang apparatus for sheet glass 500 processing according to a preferred embodiment, comprising: a first frame (not shown); the first conveying mechanism 100 is arranged at the upper end of the first rack 100; the second conveying mechanism 200, the second conveying mechanism 200 locates in the middle part of the first stander; a second frame (not shown) disposed at one end of the first frame; the movable edge leaning mechanism 300 is arranged at the upper end of the second rack, and the movable edge leaning mechanism 300 is arranged at the upper end of the second rack; the air floatation conveying mechanism 400 is arranged in the middle of the second rack, and the air floatation conveying mechanism 400 is arranged in the middle of the second rack. Further, the whole device is divided into an upper layer and a lower layer by a first frame and a second frame, the first layer is the first conveying mechanism 100 and the movable side abutting mechanism 300, the second layer is the second conveying mechanism 200 and the air floating conveying mechanism 400, and the upper layer and the lower layer of the device are linked by the air floating conveying mechanism 400, so that the plate glass 500 can be conveyed in multiple layers.

Further, as a preferred embodiment, the first conveying mechanism 100 includes: the first conveying base 110 is fixedly arranged at the upper end of the first rack, and the first conveying base 110 is fixedly arranged at the upper end of the first rack; the two first roller way supporting structures 120 are respectively arranged at two sides of the first conveying base 110; a first transmission shaft 130, wherein the first transmission shaft 130 is disposed on an outer side of the upper surface of the first conveying base 110 relative to a first roller way supporting structure 120; one end of each first conveying roller 140 penetrates through one first roller way supporting structure 120 to be in transmission connection with the first transmission shaft 130, and the other end of each first conveying roller 140 is installed on the other first roller way supporting structure 120; a first driving motor 150, the first driving motor 150 being disposed at one side of the first conveying base 110, the first driving motor 150 driving the plurality of first conveying rollers 140 to operate through a first conveying roller 140 and a first driving shaft 130; a plurality of first lifting type conveying belt mechanisms 160, wherein each first lifting type conveying belt mechanism 160 is arranged on the upper surface of the first conveying base 110 in a lifting manner, and each first lifting type conveying belt mechanism 160 is arranged between two adjacent first conveying rollers 140; and each first side-leaning wheel 170 is arranged on a first roller way supporting structure 120 which is opposite to the running direction of each first lifting type conveying belt mechanism 160. Further, the plate glass 500 which is subjected to the preliminary processing is placed on the first conveying mechanism 100, the plurality of first lifting type conveying belt mechanisms 160 are firstly lifted, after the plate glass 500 is jacked up, the plurality of first lifting type conveying belt mechanisms 160 start to operate, the plate glass 500 moves to one side with the first plurality of first side wheels 170 until the plate glass is abutted to the first side wheels 170, then the first lifting type conveying matching mechanism descends, and then the first transmission shaft 130 operates under the action of the first transmission motor 150, so that the plurality of first conveying rollers 140 operate under the supporting action of the two first roller way supporting structures 120 until the plate glass 500 completely enters the movable side approaching mechanism 300.

Further, as a preferred embodiment, the moving edge leaning mechanism 300 includes: the fixing mechanism 310 is fixedly arranged on one side of the upper end of the second frame, and the moving mechanism 320 is arranged on the other side of the upper end of the second frame. Further, the flat glass 500 is brought from the first conveying mechanism 100 into the moving side abutting mechanism 300 by the clamping and guiding action of the fixing mechanism 310 and the moving mechanism 320.

Further, as a preferred embodiment, the fixing mechanism 310 includes: the fixing frame 311 is fixedly installed at one side of the upper end of the second rack, the fixing frame 311 is aligned with the first roller way supporting structure 120 close to the first transmission shaft 130, and the soft felt 312 is fixedly installed at one side of the fixing frame 311 close to the moving mechanism 320. Further, by assuming a soft felt 312 on the fixing frame 311, a guiding mechanism with soft support is provided for the conveying process of the plate glass 500, so as to avoid hard rubbing of the edge of the glass during the clamping and conveying process.

Further, as a preferred embodiment, the moving mechanism 320 includes: a fixed seat 321, the fixed seat 321 being installed at the other side of the upper end of the second frame; two linear guide rails 322, the two linear guide rails 322 are respectively installed at two ends of the upper surface of the fixing base 321, and the two linear guide rails 322 are arranged along a direction perpendicular to the fixing frame 311; two sliding blocks 323, the two sliding blocks 323 are respectively slidably mounted on the two linear guide rails 322; two support rods 324, the two support rods 324 are fixedly mounted on the two sliding blocks 323, and the two support rods 324 are arranged along a direction perpendicular to the fixed frame 311; one side of the supporting bar 325 is fixedly connected with one end of the two supporting bars 324; a plurality of second side wheels 326, each second side wheel 326 is arranged at one side of the supporting bar 325 close to the fixed frame 311, and each second side wheel 326 is opposite to the soft felt 312; a driving motor 327, the driving motor 327 is installed on the upper surface of the fixing base 321, the driving motor 327 is installed between the two linear guide rails 322, and an output shaft of the driving motor 327 is fixedly connected with the supporting bar 325. Further, the manufacturer can preset the size of the plate glass 500 to be conveyed in advance according to the need, so that under the pushing action of the driving motor 327, the supporting bar 325 and the plurality of second edge rollers 326 on the supporting bar 325 are pushed to the proper positions along the directions of the two linear guide rails 322, so that the second edge rollers 326 and the soft felt 312 clamp the plate glass 500 after the plate glass 500 enters the moving edge abutting mechanism 300.

Further, as a preferred embodiment, the moving mechanism 320 further includes: the photoelectric switch 328 is arranged at one end of the supporting bar 325 close to the first conveying mechanism 100. Further, the arrangement of the photoelectric switch 328 senses that the head end and the tail end of the plate glass 500 enter the movable edge abutting mechanism 300, and then the moving mechanism 320 runs to the outside, so that the plate glass 500 is changed from the state of being clamped by the movable edge abutting mechanism 300 to the free state, and the plate glass 500 enters the conveying of the lower layer from the conveying of the upper layer.

Further, as a preferred embodiment, the air floating conveying mechanism 400 includes: the air floating device 410 is fixedly arranged in the middle of the second frame, a plurality of air holes 411 are formed in the air floating device 410, and a plurality of rectangular holes (not shown) are formed in the air floating device 410; a plurality of second lifting conveying belt mechanisms 420, wherein each second lifting conveying belt mechanism 420 is arranged in a rectangular hole in a lifting manner, and the arrangement direction of the second lifting conveying belt mechanisms 420 is parallel to the two second transmission shafts 230; and an air supply device (not shown) fixed below the air floating device 410, the air supply device being connected to each air hole 411 through the air floating device 410. Further, when the plate glass 500 falls down from the moving edge-abutting mechanism 300, the air supply device starts to function, the air supply device can use a high-pressure fan or an air compressor to provide a stable air source for air flotation, and the ejected air is ejected from a plurality of air holes 411 on the air flotation device 410, wherein the number and the size of the air holes 411 are determined according to the size of the glass plate and the height of the upper layer and the lower layer; the lower surface of the plate glass 500 forms a layer of buffer, so that the effect of integral suspension of the plate glass 500 is achieved, after the plate glass 500 stably descends to the air floating device 410, the air supply device stops supplying air, and the second lifting type conveying belt mechanisms 420 ascend to jack up the plate glass 500 and convey the plate glass in the direction of the second conveying mechanism 200.

In another preferred embodiment, the second conveying mechanism 200 includes: the second conveying base 210 is fixedly arranged in the middle of the first rack; two second roller support structures 220, which are respectively arranged at two sides of the second conveying base 210; a second transmission shaft 230, wherein the second transmission shaft 230 is disposed on an outer side of the upper surface of the second conveying base 210 relative to a second roller path supporting structure 220; one end of each second conveying roller 240 penetrates through one second roller channel supporting structure 220 to be in transmission connection with the first transmission shaft 130, and the other end of each second conveying roller 240 is installed on the other second roller channel supporting structure 220; a second transmission motor 250, the second transmission motor 250 is disposed at one side of the second conveying base, and the second transmission motor 250 drives the plurality of second conveying rollers 240 to operate through a second conveying roller 240 and a second transmission shaft 230. Further, after the plate glass 500 enters the second conveying mechanism 200 from the air floating conveying mechanism 400, the production personnel can start to perform the next processing operation.

Furthermore, the multilayer conveying roller device for processing the plate glass 500 can be arranged in multiple layers to achieve better optimization effect, namely the second conveying mechanism 200 of one multilayer conveying roller device is linked with the first conveying mechanism 100 of the next multilayer conveying roller device, so that the whole production line is arranged in a snake shape in the vertical direction to achieve the purpose of optimizing the process layout of the plate glass 500 production line, and the occupied space of a factory building is reduced.

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 (8)

1. A multilayer rollgang apparatus for sheet glass processing comprising:

a first frame;

the first conveying mechanism is arranged at the upper end of the first rack;

the second conveying mechanism is arranged in the middle of the first rack;

the second rack is arranged at one end of the first rack;

the movable edge leaning mechanism is arranged at the upper end of the second rack;

and the air floatation conveying mechanism is arranged in the middle of the second rack.

2. The multi-layer rollerway apparatus for sheet glass processing according to claim 1 wherein the first conveyance mechanism comprises:

the first conveying base is fixedly arranged at the upper end of the first rack;

the two first roller way supporting structures are respectively arranged on two sides of the first conveying base;

the first transmission shaft is arranged on one side, close to the outside, of the upper surface of the first conveying base relative to the first roller way supporting structure;

one end of each first conveying roller penetrates through one first roller way supporting structure to be in transmission connection with the first transmission shaft, and the other end of each first conveying roller is installed on the other first roller way supporting structure;

the first transmission motor is arranged on one side of the first conveying base and drives a plurality of first conveying rollers to run through the first conveying rollers and the first transmission shaft;

each first lifting type conveying belt mechanism is arranged on the upper surface of the first conveying base in a lifting manner, and each first lifting type conveying belt mechanism is arranged between two adjacent first conveying rollers;

and each first side-leaning wheel is arranged on the first roller way supporting structure which is just opposite to the running direction of each first lifting type conveying belt mechanism.

3. The multi-layer rollerway apparatus for sheet glass processing according to claim 2 wherein the second conveyance mechanism comprises:

the second conveying base is fixedly arranged in the middle of the first rack;

the two second roller channel supporting structures are respectively arranged on two sides of the second conveying base;

the second transmission shaft is arranged on one outer side, close to the second roller way supporting structure, of the upper surface of the second conveying base;

one end of each second conveying roller penetrates through one second roller channel supporting structure to be in transmission connection with the first transmission shaft, and the other end of each second conveying roller is installed on the other second roller channel supporting structure;

and the second transmission motor is arranged on one side of the second conveying base and drives the plurality of second conveying rollers to run through one second conveying roller and the second transmission shaft.

4. The multi-layer rollgang apparatus for sheet glass processing of claim 3 wherein the moving edge-abutting mechanism comprises: the fixing mechanism is fixedly arranged on one side of the upper end of the second rack, and the moving mechanism is arranged on the other side of the upper end of the second rack.

5. The multi-layer rollgang apparatus for sheet glass processing according to claim 4 wherein the securing mechanism comprises: the fixing frame is fixedly installed on one side of the upper end of the second rack, the fixing frame is aligned with the first roller way supporting structure close to the first transmission shaft, and the soft felt is fixedly installed on one side, close to the moving mechanism, of the fixing frame.

6. The multi-layer rollgang apparatus for sheet glass processing of claim 5 wherein the movement mechanism comprises:

the fixed seat is arranged on the other side of the upper end of the second rack;

the two linear guide rails are respectively arranged at two ends of the upper surface of the fixed seat and are arranged along the direction vertical to the fixed frame;

the two sliding blocks are respectively and slidably arranged on the two linear guide rails;

the two support rods are fixedly arranged on the two sliding blocks and are arranged along the direction perpendicular to the fixed frame;

one side of each supporting bar is fixedly connected with one end of each supporting bar;

each second side wheel is arranged on one side, close to the fixing frame, of the support bar, and each second side wheel is right opposite to the soft felt;

a driving motor, driving motor install in the upper surface of fixing base, driving motor locates two between the linear guide, driving motor's output shaft with support bar fixed connection.

7. The multi-layer rollgang apparatus for sheet glass processing of claim 6 wherein the movement mechanism further comprises: and the photoelectric switch is arranged at one end, close to the first conveying mechanism, of the support bar.

8. The multi-layer rollerway apparatus according to claim 6, wherein the air flotation transport mechanism comprises:

the air floatation device is fixedly arranged in the middle of the second rack, a plurality of air holes are formed in the air floatation device, and a plurality of rectangular holes are formed in the air floatation device;

each second lifting type conveying belt mechanism is arranged in one rectangular hole in a lifting manner, and the arrangement direction of each second lifting type conveying belt mechanism is parallel to the second transmission shaft;

and the air supply device is fixedly arranged below the air floatation device and is connected with each air hole through the air floatation device.

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