CN208868961U - A kind of roller conveyor structure of glass fibre reinforced plastic equipment - Google Patents

Abstract

A kind of roller conveyor structure of glass fibre reinforced plastic equipment, including rack, rollgang and main transmission；Main transmission includes the driving mechanism for being mounted on the rack driving shaft and driving driving shaft rotation, is arranged at intervals with multiple active magnetic wheels on driving shaft；Rollgang includes along the spaced multiple conveying rollers of glass sheet conveying direction, and one end of conveying roller is equipped with passive magnetic wheel；The driving shaft is two or more, and driving shaft is parallel to each other and the one or both sides of rack are arranged in, and the passive magnetic wheel on adjacent conveyor roller is coupled from the active magnetic wheels on different driving shafts.The utility model can avoid or significantly reduce the wave transformation of thin glass plate, improve the flatness of tempered glass, be particularly suitable for the processing of thin tempering glass or ultra-thin tempered glass of the thickness less than 3mm.

Description

A kind of roller conveyor structure of glass fibre reinforced plastic equipment

Technical field

The utility model belongs to glass fibre reinforced plastic equipment field, and in particular to a kind of roller conveyor of glass fibre reinforced plastic equipment Structure.

Background technique

Glass plate it is physical toughened during, glass plate be heated in heating furnace first softening temperature (650 ~ 700 DEG C), then quick tapping enters tempering cooling section, completes tempering processing by air grid blowout wind.Either heating or tempering Process, glass plate are required to be supported on spaced roller-way and carry out, in general, the spacing between adjacent roller-way be 100 ~ 150mm, this spacing can satisfy requirement of tempered glass of the thickness greater than 3mm for flatness；But when the thickness of glass plate When degree is less than 3mm, the glass plate in softening temperature easily generates wave transformation, Jin Erying during heating and/or cooling Ring the flatness and final product quality of tempered glass.Therefore, suitably reduce the spacing between adjacent roller-way and advantageously reduce wave change Shape improves the flatness of tempered glass.

The applicant proposes a kind of roller-way conveying of glass fibre reinforced plastic equipment in the patent of application number 201820501148.7 Mechanism realizes the transmission of roller-way using the active magnetic wheels of magnetic coupling and passive magnetic wheel；The kind of drive belongs to flexible biography It is dynamic, have many advantages, such as that stable drive, noiseless, without friction, synchronism is good, avoid the phenomenon that roller-way scratches glass plate, improves The final product quality of tempered glass.In actual use, when being less than the tempered glass of 3mm for processing thickness, in order to The requirement for meeting flatness, needs suitably to reduce the spacing of roller-way, such as the spacing of roller-way is adjusted to 80 ~ 100mm;But in reality It is but had the following problems in the operation of border: 1, due to the limitation of active magnetic wheels and passive magnetic wheel own dimensions and installation site, The spacing that roller-way can not directly be adjusted, when passive magnetic wheel clipping room away from it is too small when, will affect the stability of transmission；If 2, selected With the active magnetic wheels and passive magnetic wheel of smaller szie specification, then it is not able to satisfy requirement of the roller-way transmission for minimum torque.

Utility model content

The purpose of this utility model is larger for roller-way spacing and is not easy to adjust and influence thin tempering glass flatness Problem proposes a kind of roller conveyor structure of glass fibre reinforced plastic equipment, to the mounting structure of active magnetic wheels and passive magnetic wheel into Row optimization, reduces the installation space of active magnetic wheels and passive magnetic wheel, thus between further decreasing between adjacent conveyor roller Away from so that on glass plate unit area can simultaneously be in contact with more conveying rollers, improve the flatness of tempered glass, especially The processing of thin tempering glass or ultra-thin tempered glass it is suitable for thickness less than 3mm.

To achieve the goals above, the technical solution adopted in the utility model is:

A kind of roller conveyor structure of glass fibre reinforced plastic equipment, including rack, the rollgang being arranged on the rack and main biography Dynamic system；

The main transmission, the driving mechanism including rack-mounted driving shaft and driving driving shaft rotation, Multiple active magnetic wheels are arranged at intervals on the driving shaft；

The rollgang, including along the spaced multiple conveying rollers of glass sheet conveying direction, the conveying roller is close One end of driving shaft is mounted on passive magnetic wheel；

The active magnetic wheels and passive magnetic wheel coupled drive, to drive conveying roller to rotate；

The driving shaft is two or more, and driving shaft is parallel to each other and the one or both sides of rack are arranged in, by driving Mechanism driving rotates synchronously, and the passive magnetic wheel on adjacent conveyor roller is coupled from the active magnetic wheels on different driving shafts.

The quantity of the driving shaft is two comprising is arranged in parallel in first driving shaft and the second master of rack the same side Moving axis counts conveying roller along glass sheet conveying direction, the master on passive magnetic wheel and the first driving shaft on odd number conveying roller Move magnetic wheel coupled drive, the active magnetic wheels coupled drive on passive magnetic wheel and the second driving shaft on even number conveying roller.

The quantity of the driving shaft is two comprising is arranged in parallel in the third driving shaft and the 4th of rack opposite sides Driving shaft counts conveying roller along glass sheet conveying direction, on the passive magnetic wheel and third driving shaft on odd number conveying roller Active magnetic wheels coupled drive, the passive magnetic wheel on even number conveying roller couple biography with the active magnetic wheels on the 4th driving shaft It is dynamic.

The quantity of the driving shaft is three comprising is arranged in parallel in the 5th driving shaft, the 6th master of rack the same side Conveying roller is grouped by moving axis and the 7th driving shaft along glass sheet conveying direction, and three conveying rollers are three in one group, one group Passive magnetic wheel on conveying roller is coupled with the active magnetic wheels on the 5th driving shaft, the 6th driving shaft and the 7th driving shaft respectively Transmission.

Spacing between the active magnetic wheels and passive magnetic wheel of coupled drive is 0.01mm to 2mm.

The active magnetic wheels is identical with the number of magnetic poles of passive magnetic wheel, is 5 to 50.

In a pair of of active magnetic wheels of coupled drive and passive magnetic wheel, both active magnetic wheels and passive magnetic wheel axis Floor projection intersection, and intersect angle be 90 °.

The active magnetic wheels is arranged in above or below passive magnetic wheel.

The center of circle of two end faces of active magnetic wheels is located in a perpendicular, which will be with the active magnetic The passive magnetic wheel of wheels coupled drive is divided into symmetrical two parts in the axial direction.

The center of circle of two end faces of passive magnetic wheel is located in a perpendicular, which will be with the passive magnetic The active magnetic wheels of wheels coupled drive is divided into symmetrical two parts in the axial direction.

The driving mechanism includes driving motor and transmission mechanism, and the transmission mechanism is that band transmission or chain type pass Motivation structure.

The driving mechanism includes driving motor and retarder, and the output shaft of the retarder directs or through shaft coupling With the active axis connection.

The rollgang is ceramic roller or steel wiring roller-way.

The beneficial effects of the utility model are:

The glass plate transportation system of glass tempering furnace provided by the utility model, by the way that two are arranged in main transmission Or more than two driving shafts, while making passive magnetic wheel on adjacent conveyor roller and the active magnetic wheels on different driving shafts Engaged transmission, in this manner it is possible to guarantee adjacent in the case where not reducing passive magnetic wheel and active magnetic size of wheel specification Conveying roller has enough adjustment spaces, can further decrease the spacing between adjacent conveyor roller, so that glass plate is in list Plane product is upper can be in contact simultaneously with more conveying rollers, when processing tempered glass, avoid or significantly reduce thin glass The wave transformation of plate improves the flatness of tempered glass, is particularly suitable for thin tempering glass or ultra-thin steel that thickness is less than 3mm Change the processing of glass.

Detailed description of the invention

Fig. 1 is the top view of the utility model in embodiment 1；

Fig. 2 is the side view of the utility model in embodiment 1；

Fig. 3 is the top view of the utility model in example 2；

Fig. 4 is the top view of the utility model in embodiment 3；

Fig. 5 is the location diagram of active magnetic wheels and passive magnetic wheel on the basis of active magnetic wheel axial direction；

Fig. 6 is the location diagram of active magnetic wheels and passive magnetic wheel on the basis of passive magnetic wheel axial direction；

Marked in the figure: 1, rack, 2, conveying roller, the 3, first driving shaft, the 4, second driving shaft, 5, driving mechanism, 6, passive Magnetic wheel, 7, active magnetic wheels, 8, dual-axle motor, 9, output shaft, 10, third driving shaft, the 11, the 4th driving shaft, the 12, the 5th is main Moving axis, the 13, the 6th driving shaft, the 14, the 7th driving shaft.

Specific embodiment

With reference to the accompanying drawing, the technical solution of the utility model is further described by specific embodiment.

Embodiment 1

As shown in Figure 1, 2, the roller conveyor structure of a kind of glass fibre reinforced plastic equipment including rack 1, is arranged in rack 1 Rollgang and main transmission；

The main transmission is rotated synchronously including two driving shafts being mounted in rack 1 and driving driving shaft Driving mechanism 5, driving mechanism 5 include driving motor and transmission mechanism, and the transmission mechanism is that band transmission or chain type pass Motivation structure is arranged at intervals with multiple active magnetic wheels 7 on the driving shaft, and the rotation for passing through driving shaft drives active magnetic wheels 7 rotations, two driving shafts are respectively the first driving shaft 3 and the second active that 1 the same side of rack is arranged in side by side parallel Axis 4, wherein the first driving shaft 3 is close to rack 1, the second driving shaft 4 is in the outside of the first driving shaft 3；

The rollgang, including along the spaced multiple conveying rollers 2 of glass sheet conveying direction, it is close in conveying roller 2 One end of driving shaft is equipped with passive magnetic wheel 6；

6 coupled drive of the active magnetic wheels 7 and passive magnetic wheel, to drive conveying roller 2 to rotate, and coupled drive In a pair of of active magnetic wheels 7 and passive magnetic wheel 6, the floor projection phase of both active magnetic wheels 7 and passive magnetic wheel 6 axis It hands over, it is preferred that the angle of both active magnetic wheels 7 and passive magnetic wheel 6 axis horizontal projection intersection is 90 °, and active magnetic Wheels 7 is located above or below passive magnetic wheel 6, as shown in Fig. 2, active magnetic wheels 7 is located at the lower section of passive magnetic wheel 6；

Conveying roller 2 is counted along glass sheet conveying direction, the conveying roller 2 being in contact first with glass plate is denoted as one, successively It is two, three, four ..., wherein the passive magnetic wheel 6 on odd number conveying roller is coupled with the active magnetic wheels 7 on the first driving shaft 3 It is driven, 7 coupled drive of active magnetic wheels on passive magnetic wheel 6 and the second driving shaft 4 on even number conveying roller allows in this way Two passive magnetic wheels 6 on arbitrary neighborhood conveying roller 2 are being staggered along glass sheet conveying direction in left and right, thus not In the case where being interfered by two passive magnetic wheels 6, reduce the spacing of adjacent conveyor roller 2, so that on glass plate unit area It can be in contact simultaneously with more conveying rollers 2, when processing tempered glass, avoid or significantly reduce the wave of thin glass plate Deformation, improves the flatness of tempered glass.

Embodiment 2

As shown in figure 3, a kind of roller conveyor structure of glass fibre reinforced plastic equipment, including rack 1, be arranged in it is defeated in rack 1 Send roller-way and main transmission；

The main transmission is rotated synchronously including two driving shafts being mounted in rack 1 and driving driving shaft Driving mechanism 5, two driving shafts are respectively third driving shaft 10 and the 4th master for being arranged in parallel in 1 opposite sides of rack Moving axis 11, multiple active magnetic wheels 7 are arranged at intervals on the driving shaft, and driving mechanism 5 includes that dual-axle motor 8 and two are defeated Shaft 9, two output shafts 9 are connected with third driving shaft 10 with the 4th driving shaft 11 by shaft coupling respectively；

The rollgang, including along the spaced multiple conveying rollers 2 of glass sheet conveying direction, the conveying roller 2 One end is equipped with passive magnetic wheel 6；

6 coupled drive of the active magnetic wheels 7 and passive magnetic wheel, to drive conveying roller 2 to rotate, and coupled drive In a pair of of active magnetic wheels 7 and passive magnetic wheel 6, the floor projection phase of both active magnetic wheels 7 and passive magnetic wheel 6 axis It hands over, it is preferred that the angle of both active magnetic wheels 7 and passive magnetic wheel 6 axis horizontal projection intersection is 90 °, and active magnetic Wheels 7 is located above or below passive magnetic wheel 6；

Conveying roller is counted along glass sheet conveying direction, the conveying roller 2 being in contact first with glass plate is denoted as one, along conveying Direction is followed successively by two, three, four ..., wherein the active magnetic on passive magnetic wheel 6 and third driving shaft 10 on odd number conveying roller 7 coupled drive of wheels, 7 coupled drive of active magnetic wheels on passive magnetic wheel 6 and the 4th driving shaft 11 on even number conveying roller, Two on adjacent conveyor roller 2 passive magnetic wheels 6 are allowed in this way and are located at the two sides of rack 1, that is, are conveyed along glass plate It is staggered on direction in left and right, to reduce adjacent conveyor roller in the case where not interfered by two passive magnetic wheels 6 2 spacing, when processing tempered glass, is kept away so that can be in contact simultaneously with more conveying rollers 2 on glass plate unit area The wave transformation for exempting from or significantly reducing thin glass plate improves the flatness of tempered glass.

Embodiment 3

As shown in figure 4, a kind of roller conveyor structure of glass fibre reinforced plastic equipment, including rack, the conveying being arranged on the rack Roller-way and main transmission；

The main transmission, three driving shafts and driving driving shaft including being mounted on 1 the same side of rack synchronize and turn Dynamic driving mechanism 5, three driving shafts to include being arranged in parallel in 1 the same side of rack apart from the far and near of rack 1 from the near to the distant 5th driving shaft 12, the 6th driving shaft 13 and the 7th driving shaft 14, the 5th driving shaft 12, the 6th driving shaft 13 and the 7th are main Multiple active magnetic wheels 7 are arranged at intervals on moving axis 14, driving mechanism 5 includes driving motor and transmission mechanism, the transmission Mechanism is band transmission or chain type transmission mechanism；

The rollgang, including along the spaced multiple conveying rollers 2 of glass sheet conveying direction, the conveying roller 2 is leaned on One end of nearly driving shaft is equipped with passive magnetic wheel 6；

6 coupled drive of the active magnetic wheels 7 and passive magnetic wheel, to drive conveying roller 2 to rotate, and coupled drive In a pair of of active magnetic wheels 7 and passive magnetic wheel 6, the floor projection phase of both active magnetic wheels 7 and passive magnetic wheel 6 axis It hands over, it is preferred that the angle of both active magnetic wheels 7 and passive magnetic wheel 6 axis horizontal projection intersection is 90 °, and active magnetic Wheels 7 is located above or below passive magnetic wheel 6；

Conveying roller 2 is grouped along glass sheet conveying direction, three conveying rollers 2 are three conveying rollers 2 in one group, one group On passive magnetic wheel 6 it is main with the 5th driving shaft 12, the 6th driving shaft 13 and the 7th respectively according to the sequence of batching products of glass plate 7 coupled drive of active magnetic wheels on moving axis 13 allows for two on arbitrary neighborhood conveying roller 2 passive magnetic wheels 6 in this way and exists It is staggered along glass sheet conveying direction in left and right, to reduce phase in the case where not interfered by passive magnetic wheel 6 The spacing of adjacent conveying roller 2, so that can be in contact simultaneously with more conveying rollers 2 on glass plate unit area, in processing tempering When glass, the wave transformation of thin glass plate is avoided or significantly reduced, improves the flatness of tempered glass.

The three above embodiments in the specific implementation, between the active magnetic wheels 7 of coupled drive and passive magnetic wheel 6 Spacing is 0.01mm to 2mm, and the active magnetic wheels 7 of coupled drive and the number of magnetic poles of passive magnetic wheel 6 want identical, preferably 5 to 50；As shown in Figure 5,6, the center of circle of 7 two end faces of active magnetic wheels is located in a perpendicular, the perpendicular Symmetrical two parts will be divided into the axial direction with the passive magnetic wheel 6 of 7 coupled drive of active magnetic wheels；Meanwhile the quilt The center of circle of dynamic 6 two end faces of magnetic wheel is located in a perpendicular, which will be with passive 6 coupled drive of magnetic wheel Active magnetic wheels 7 be divided into symmetrical two parts in the axial direction.

Driving mechanism 5 in the utility model can also use driving motor and retarder, the output shaft of the retarder Direct or through shaft coupling and the active axis connection.

Rollgang in the utility model is ceramic roller or steel wiring roller-way.

Claims (10)

1. a kind of roller conveyor structure of glass fibre reinforced plastic equipment, including rack (1), the rollgang being arranged on rack (1) and Main transmission；

The main transmission, the driving mechanism including the driving shaft and driving driving shaft rotation that are mounted on rack (1), institute It states and is arranged at intervals with multiple active magnetic wheels (7) on driving shaft；

The rollgang, including along the spaced multiple conveying rollers (2) of glass sheet conveying direction, the conveying roller (2) One end is equipped with passive magnetic wheel (6)；

The active magnetic wheels (7) and passive magnetic wheel (6) coupled drive, to drive conveying roller (2) to rotate；

It is characterized by: the driving shaft is two or more, and driving shaft is parallel to each other and the side or two of rack (1) is arranged in Side is driven by driving mechanism and is rotated synchronously, the passive magnetic wheel (6) on adjacent conveyor roller (2) and the active on different driving shafts Magnetic wheel (7) coupling.

2. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the driving shaft Quantity be two comprising first driving shaft (3) and the second driving shaft (4) of rack (1) the same side are arranged in parallel in, along glass Glass plate conveying direction counts conveying roller (2), the master on passive magnetic wheel (6) and the first driving shaft (3) on odd number conveying roller Magnetic wheel (7) coupled drive is moved, the active magnetic wheels on passive magnetic wheel (6) and the second driving shaft (4) on even number conveying roller (7) coupled drive.

3. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the driving shaft Quantity be two comprising be arranged in parallel in the third driving shaft (10) and the 4th driving shaft (11) of rack (1) opposite sides, Conveying roller (2) are counted along glass sheet conveying direction, on the passive magnetic wheel (6) and third driving shaft (10) on odd number conveying roller Active magnetic wheels (7) coupled drive, the active magnetic on passive magnetic wheel (6) and the 4th driving shaft (11) on even number conveying roller Wheels (7) coupled drive.

4. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the driving shaft Quantity be three, be respectively arranged in parallel in the 5th driving shaft (12) of rack (1) the same side, the 6th driving shaft (13) and the Conveying roller (2) is grouped by seven driving shafts (14) along glass sheet conveying direction, and three conveying rollers (2) are three in one group, one group Passive magnetic wheel (6) on a conveying roller (2) respectively with the 5th driving shaft (12), the 6th driving shaft (13) and the 7th driving shaft (14) active magnetic wheels (7) coupled drive on.

5. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: coupled drive Spacing between active magnetic wheels (7) and passive magnetic wheel (6) is 0.01mm to 2mm.

6. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: coupled drive In a pair of of active magnetic wheels (7) and passive magnetic wheel (6), the level of both active magnetic wheels (7) and passive magnetic wheel (6) axis Projection intersection, and the angle intersected is 90 °.

7. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the active magnetic Wheels (7) is arranged above or below passive magnetic wheel (6).

8. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the active magnetic The center of circle of (7) two end faces of wheels is located in a perpendicular, which will be with active magnetic wheels (7) coupled drive Passive magnetic wheel (6) be divided into symmetrical two parts in the axial direction.

9. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the passive magnetic The center of circle of (6) two end faces of wheels is located in a perpendicular, which will be with passive magnetic wheel (6) coupled drive Active magnetic wheels (7) be divided into symmetrical two parts in the axial direction.

10. a kind of roller conveyor structure of glass fibre reinforced plastic equipment according to claim 1, it is characterised in that: the driving Mechanism (5) includes driving motor and transmission mechanism, and the transmission mechanism is band transmission or chain type transmission mechanism；Alternatively, Driving mechanism (5) includes driving motor and retarder, and the output shaft of the retarder directs or through shaft coupling and the master Moving axis connection.