CN104787548B - Utilize the conveyer belt of magnetic coupling device - Google Patents

Abstract

The present invention relates to the use of the conveyer belt of magnetic coupling device, including: drive division, it is provided that revolving force；Multiple drive shafts, are respectively combined with multiple rotating roller between side and opposite side, and one end is respectively connected to above-mentioned drive division and rotates；Multiple driven shafts, are respectively combined with the other end of multiple rotating roller, one end and drive shaft each relative and be rotatably mounted between side and opposite side；Multiple magnetic coupling device portions, including being incorporated into each the other end of drive shaft and being formed with the drive shaft magnetic coupling device of the drive shaft magnetic portion that multiple segmentation Magnet is alternatively formed, and be incorporated into each one end of driven shaft and be formed with drive shaft magnetic portion at regular intervals relative to and form the driven shaft magnetic coupling device of driven shaft magnetic portion of pole pair；When drive shaft is rotated by drive division, then driven shaft magnetic coupling device by the magnetic force between drive shaft magnetic coupling device with contactless state linkage rotation so that driven shaft rotates.

Description

Utilize the conveyer belt of magnetic coupling device

Technical field

The present invention relates to conveyer belt, even if particularly relating to can also be separated into by conveyer belt in the case of large-scale conveyer belt Two parts also are only passed through to rearrange to complete installation, thus can substantially reduce transfer and the installation of large-scale conveyer belt Required expense and time and the conveyer belt utilizing magnetic coupling device of various problem.

Background technology

The present invention relates to conveyer belt.

Existing conveyer belt provides only the structure rotated integrally entirely through drive division of an axle.

Along with the increase of the size of the LCD glass etc. transferred by conveyer belt, its width is consequently increased.

That is, along with the increase of the sizes such as LCD glass, the maximization of conveyer belt is corollary.

It addition, maximizing of such conveyer belt exceeds the robot transfer mode etc. installing conveyer belt to production line transfer The collecting scope of transfer device.

It addition, during transfer and reinstalling large-scale conveyer belt, a lot of expenses and time will be consumed.

Technology as the background of the present invention is disclosed among Republic of Korea's registered patent 10-0757197 grade, but Solution to the problems referred to above is not the most proposed.

Summary of the invention

It is an object of the invention to overcome the deficiency of prior art to provide a kind of conveyer belt utilizing magnetic coupling device, its It is divided into the drive area for installing drive shaft and drive division and for installing the driven region of driven shaft, and makes driven shaft By magnetic coupling device and drive shaft linkage rotation, therefore, even if in the case of large-scale conveyer belt, it is also possible to will pass Send band be divided into two part transfers and only pass through to rearrange to complete installation, thus large-scale conveyer belt can be substantially reduced Transfer and required expense and time and various problem are installed.

For reaching above-mentioned purpose, the conveyer belt utilizing magnetic coupling device of the present invention, including: drive division, it is provided that rotate Power；Multiple drive shafts, are respectively combined with multiple rotating roller between side and opposite side, and one end is respectively connected to above-mentioned driving Dynamic portion rotates；Multiple driven shafts, are respectively combined with multiple rotating roller between side and opposite side, one end and upper State that the other end of drive shaft is each to be mounted relatively and rotatably；Multiple magnetic coupling device portions, above-mentioned including being incorporated into Each the other end of drive shaft and be formed with the drive shaft magnetic of the drive shaft magnetic portion that multiple segmentation Magnet is alternatively formed Connector, and be incorporated into each one end of above-mentioned driven shaft and be formed and above-mentioned drive shaft magnetic portion phase at regular intervals To and form the driven shaft magnetic coupling device of driven shaft magnetic portion of pole pair；When above-mentioned drive shaft is by above-mentioned drive division Rotate, the most above-mentioned driven shaft magnetic coupling device by the magnetic force between above-mentioned drive shaft magnetic coupling device with noncontact shape State linkage rotation, so that above-mentioned driven shaft rotates.

Now, the drive shaft magnetic portion in above-mentioned magnetic coupling device portion is alternatively formed 4 N poles and 4 S poles in end, And the driven shaft magnetic portion in above-mentioned magnetic coupling device portion forms 4 N poles and 4 S poles with above-mentioned at end symmetric Drive shaft magnetic portion forms pole pair.

It addition, above-mentioned magnetic coupling device portion is in the central part of relative above-mentioned drive shaft magnetic portion and driven shaft magnetic portion Central part also includes the segmentation Magnet forming the pole pair of N pole and S pole or S pole and N pole again.

It addition, be divided into the drive area of the drive shaft framework including above-mentioned drive shaft and support drive division and include supporting State the driven region of the driven shaft framework of driven shaft, and above-mentioned drive area and driven region are respectively with above-mentioned magnetic coupling device Portion is as the criterion and is separated by and sets.

It addition, on above-mentioned drive shaft framework, combine the first regulating block 710 in above-mentioned drive shaft magnetic portion lower end, On above-mentioned driven shaft framework, combine the second regulating block 720 in above-mentioned driven shaft magnetic portion lower end, and, for passing through spiral shell Bolt combines the standoff distance regulated between above-mentioned first regulating block and the second regulating block, also includes being incorporated into removably State the combination core 810 of the first regulating block and the second regulating block, thus regulate above-mentioned driving magnetic portion and driven magnetic portion Standoff distance.

According to the invention described above, it is possible to provide even if conveyer belt can also be separated into two in the case of large-scale conveyer belt The most only pass through to rearrange and can complete to install, thus needed for transfer and the installation of large-scale conveyer belt can be substantially reduced Expense and time and the conveyer belt utilizing magnetic coupling device of various problem.

Accompanying drawing explanation

Fig. 1 is the schematic configuration block diagram of the conveyer belt utilizing magnetic coupling device of present pre-ferred embodiments；

Fig. 2 to Fig. 5 respectively utilizes the oblique view of conveyer belt of magnetic coupling device, plane graph, front for another of the present invention Figure and side view；

Fig. 6 is the structure diagonal view in magnetic coupling device portion；

Fig. 7 and Fig. 8 is respectively the structure chart of drive area and driven region；

Fig. 9 is the schematic enlarged-scale view in magnetic coupling device portion；

Figure 10 for by drive shaft regulating block, driven shaft regulating block, combine the regulation drive shaft magnetic portion such as core and driven The process schematic of the standoff distance of axle magnetic portion.

* reference *

10: framework 100: drive division

200: drive shaft 300: rotating roller

400: magnetic coupling device portion 410: drive shaft magnetic coupling device

415: drive shaft magnetic portion 420: driven shaft magnetic coupling device

425: driven shaft magnetic portion 500: driven shaft

600: driven shaft rotary supporting part

Detailed description of the invention

Advantages of the present invention and feature and prior method, will combine accompanying drawing and the embodiment that will describe in detail becomes bright ?.

But, the present invention is not limited by following embodiment and can be realized by various forms, the purpose purport of the present embodiment The present invention is being better described, and understanding for those skilled in the art provides help, and the present invention is only Limited by the claims.In this manual, identical reference refers to identical key element.

Below, the bed Song dynasty of magnetic coupling device is utilized to be described in detail the present invention in conjunction with accompanying drawing.

Fig. 1 is the schematic configuration block diagram of the conveyer belt utilizing magnetic coupling device of present pre-ferred embodiments, and Fig. 2 Respectively utilize the oblique view of conveyer belt, plane graph, front elevation and the side of magnetic coupling device for another of the present invention to Fig. 5 Figure.

Fig. 6 is that the structure diagonal view in magnetic coupling device portion, Fig. 7 and Fig. 8 are respectively for drive area and the structure of driven region Figure, Fig. 9 are the schematic enlarged-scale view in magnetic coupling device portion.

Figure 10 for by drive shaft regulating block, driven shaft regulating block, combine the regulation drive shaft magnetic portion such as core and driven The process schematic of the standoff distance of axle magnetic portion.

The conveyer belt utilizing magnetic coupling device of present pre-ferred embodiments, including: drive division 100, it is provided that revolving force； Multiple drive shafts 200, are respectively combined with multiple rotating roller 300 between side and opposite side, and one end is respectively connected to State drive division to rotate；Multiple driven shafts 500, are respectively combined with multiple rotating roller 300 between side and opposite side, One end is each relative with the other end of above-mentioned drive shaft 200 and is rotatably mounted；And multiple magnetic coupling device portion 400, including being incorporated into each the other end of above-mentioned drive shaft 200 and driving of being formed with that multiple segmentation Magnet is alternatively formed The drive shaft magnetic coupling device 410 of moving axis magnetic portion 415, and it is incorporated into each one end and the shape of above-mentioned driven shaft 500 Cheng Youyu above-mentioned drive shaft magnetic portion 415 at regular intervals relative to and formed pole pair driven shaft magnetic portion 425 from Moving axis magnetic coupling device 420.

Now, when above-mentioned drive shaft 200 is rotated by above-mentioned drive division 100, the most above-mentioned driven shaft magnetic coupling device 420 by the magnetic force between above-mentioned drive shaft magnetic coupling device 410 with contactless state linkage rotation so that on State driven shaft 500 to rotate.

That is, the conveyer belt utilizing magnetic coupling device of the present invention include drive division 100, drive shaft 200, driven shaft 500, Respectively it is incorporated into drive shaft and driven shaft carries out the rotating roller 300 and the magnetic coupling device 400 that rotate.

Above-mentioned drive division 100 is the dynamic device to above-mentioned drive shaft 200 transmitting rotary power, with above-mentioned multiple drive shafts 200 each mechanical bond are so that above-mentioned multiple drive shaft 200 rotates together with.

Above-mentioned each drive shaft 200 is that one end is mechanically connected to be entered by the revolving force of drive division with above-mentioned drive division 100 The axle that row rotates.

In above-mentioned drive shaft 200, combine between side and opposite side rotating roller 300 and with above-mentioned drive shaft 200 Rotate together with.

The axle that above-mentioned each driven shaft 500 is one end to be rotated against with the other end of above-mentioned drive shaft 200.

Now, as above-mentioned drive shaft 200, on above-mentioned driven shaft 500, combine between side and opposite side Rotating roller 300 also rotates together with above-mentioned driven shaft 500.

Above-mentioned driven shaft 500 is by being formed between above-mentioned drive shaft 200 generation captivation and the pole pair of repulsive force Magnetic coupling device portion 400, with the rotation linkage rotation of above-mentioned drive shaft 200.

Above-mentioned magnetic coupling device portion 400 is made up of drive shaft magnetic coupling device 410 and driven shaft magnetic coupling device 420.

Above-mentioned drive shaft magnetic coupling device 410 is incorporated into the other end of above-mentioned drive shaft 200 and is alternatively formed multiple points Cut Magnet.

Now, the cross section of above-mentioned each multiple segmentation Magnet formed sector etc. shape, outer arc length more than inside arc length and with in Heart portion is as the criterion and is alternatively formed.

It addition, above-mentioned driven shaft magnetic coupling device 420 separated by a distance with above-mentioned drive shaft magnetic coupling device 410 and If symmetry sets relatively, and is incorporated into the one end of above-mentioned driven shaft 500.

Now, above-mentioned drive shaft magnetic coupling device 410 is incorporated into the one end of above-mentioned each drive shaft 200 and drives with above-mentioned Moving axis rotates together with, and above-mentioned driven shaft magnetic coupling device 420 is by the magnetic with above-mentioned drive shaft magnetic coupling device 410 Power i.e. captivation and repulsive force, rotate together with at separated by a distance and above-mentioned drive shaft magnetic coupling device, so that above-mentioned Driven shaft and above-mentioned drive shaft linkage rotation.

Above-mentioned drive division 100, drive shaft 200, driven shaft 500 etc. are supported by framework 10.

Now, said frame is divided into the above-mentioned drive division 100 of support and the drive shaft framework 11 of drive shaft 200 and supports The driven shaft framework 12 of driven shaft 500.

That is, the conveyer belt utilizing magnetic coupling device of the present invention, is divided into and includes drive division 100 and as installing above-mentioned driving The drive area A of the drive shaft framework 11 of the supporter of moving axis 200, and include as the supporter installing driven shaft The driven region B of driven shaft framework 12, and above-mentioned drive area A and driven region B is individually separated or with above-mentioned Magnetic coupling device portion 400 is magnetic poles pair under the state that medium is separated by a distance.

Now, above-mentioned driven shaft framework 12 may also include the driven shaft rotation being pivotably supported above-mentioned driven shaft 500 Supporting part 600, and the rotation peace on above-mentioned drive shaft and each leisure of driven shaft above-mentioned drive shaft framework and driven shaft framework Assembling structure can use existing various rotation installing component, does not repeats them here.

Now, above-mentioned multiple segmentation Magnet may select 4 extremely above 16 extremely following central one.

The drive shaft magnetic portion 415 in above-mentioned magnetic coupling device portion 400 is alternatively formed 4 N poles and 4 S in end Pole, and the driven shaft magnetic portion 425 in above-mentioned magnetic coupling device portion 400 forms 4 N poles and 4 S at end symmetric Pole is to form pole pair with above-mentioned drive shaft magnetic portion.

That is, it is formed at 4 N poles of above-mentioned drive shaft magnetic portion 415 end and S pole and is formed at above-mentioned driven shaft 4 S poles of magnetic portion 425 end and the most each magnetic poles pair of N, with between produce magnetic force, i.e. captivation and Repulsive force.

Now, above-mentioned magnetic coupling device portion 400 is in the central part of relative above-mentioned drive shaft magnetic portion and driven shaft magnetic The central part in portion also includes the segmentation Magnet forming the pole pair of N pole and S pole or S pole and N pole again, thus increases Captivation between drive shaft magnetic portion and driven shaft magnetic portion row or produce bigger adhesion.

As it has been described above, the conveyer belt utilizing magnetic coupling device of the present invention be divided into the drive area A being individually formed and from Dynamic region B.

That is, the conveyer belt utilizing magnetic coupling device of the present invention is divided into and includes drive division 100 and support drive division 100 The drive area A of drive shaft framework 11, and include the driven region supporting the driven shaft framework 12 of driven shaft 500 B。

It is separated by as it has been described above, above-mentioned drive area A and driven region B is respectively as the criterion with above-mentioned magnetic coupling device portion 400 And set.

Now, above-mentioned drive area A and driven region B can be completely separated from each other mobile or keeping, and with above-mentioned magnetic Property connector portion 400 is as the criterion disposed opposite fixed drive axle magnetic portion separated by a certain interval and driven shaft magnetic portion Complete to install.

Now, by regulating the standoff distance optimization above-mentioned drive shaft magnetic of above-mentioned drive area A and driven region B Property portion and driven shaft magnetic portion magnetic force produce captivation and repulsive force.

That is, on above-mentioned drive shaft framework 11, the first regulating block 710 is combined in above-mentioned drive shaft magnetic portion 415 lower end, On above-mentioned driven shaft framework 12, combine the second regulating block 720 in above-mentioned driven shaft magnetic portion 425 lower end, and on State above-mentioned first regulating block 710 and the second regulating block 720 also include can by bolt jointing manner regulate between distance Combination core 810.

That is, side and opposite side is respectively connected to above-mentioned first regulating block and the second regulating block, and, for being tied by bolt Close the standoff distance regulated between above-mentioned first regulating block and the second regulating block, also include being incorporated into removably above-mentioned the The combination core 810 of one regulating block and the second regulating block, thus regulate being separated by of above-mentioned driving magnetic portion and driven magnetic portion Distance.

Also include that side is combined with above-mentioned drive shaft at above-mentioned drive shaft magnetic coupling device 410, opposite side and above-mentioned driving The drive shaft clip 411 that axle magnetic portion combines, and the most also include driven shaft at above-mentioned driven shaft magnetic coupling device 420 Clip 421.

Above-described embodiment only in order to illustrate rather than restriction, it will be understood by those within the art that, permissible The present invention is modified, deforms or equivalent.And without departing from the spirit and scope of the present invention, it all should Contain in the middle of scope of the presently claimed invention.The scope of the present invention is not limited by above-mentioned detailed description, and only root Determine according to claim, and all changes that the meaning of claim and scope and equivalence derive or variant are all wrapped Containing within the scope of the invention.

Claims (4)

1. utilize a conveyer belt for magnetic coupling device, including:

Drive division, it is provided that revolving force；

Multiple drive shafts, are respectively combined with multiple rotating roller, one end between the side and opposite side of the plurality of drive shaft Respectively it is connected to above-mentioned drive division rotate；

Multiple driven shafts, are respectively combined with multiple rotating roller, one end between the side and opposite side of the plurality of driven shaft Each with the other end of above-mentioned drive shaft relative and be rotatably mounted；

Multiple magnetic coupling device portions, including being incorporated into each the other end of above-mentioned drive shaft and being formed with multiple segmentation Magnet The drive shaft magnetic coupling device of the drive shaft magnetic portion being alternatively formed, and it is incorporated into each one end and the shape of above-mentioned driven shaft Cheng Youyu above-mentioned drive shaft magnetic portion at regular intervals relative to and form the driven shaft magnetic of driven shaft magnetic portion of pole pair Property connector；

When above-mentioned drive shaft is rotated by above-mentioned drive division, the most above-mentioned driven shaft magnetic coupling device by with above-mentioned drive shaft Magnetic force between magnetic coupling device is with contactless state linkage rotation, so that above-mentioned driven shaft rotates,

Above-mentioned magnetic coupling device portion is at the central part of relative above-mentioned drive shaft magnetic portion and the center of driven shaft magnetic portion Portion also includes the segmentation Magnet forming the pole pair of N pole and S pole or S pole and N pole again.

The conveyer belt utilizing magnetic coupling device the most according to claim 1, it is characterised in that: above-mentioned magnetic joins The drive shaft magnetic portion in knot device portion is alternatively formed 4 N poles and 4 S poles in end, and above-mentioned magnetic coupling device portion Driven shaft magnetic portion form 4 N poles and 4 S poles to form magnetic with above-mentioned drive shaft magnetic portion at end symmetric The most right.

The conveyer belt utilizing magnetic coupling device the most according to claim 1, it is characterised in that: it is divided into and including State the drive area of the drive shaft framework of drive shaft and support drive division and include supporting the driven shaft frame of above-mentioned driven shaft The driven region of frame, and above-mentioned drive area and driven region are respectively as the criterion with above-mentioned magnetic coupling device portion and are separated by and set.

The conveyer belt utilizing magnetic coupling device the most according to claim 3, it is characterised in that: in above-mentioned driving On axle framework, combine the first regulating block (710) in above-mentioned drive shaft magnetic portion lower end, on above-mentioned driven shaft framework, The second regulating block (720) is combined in above-mentioned driven shaft magnetic portion lower end, and, for combining regulation above-mentioned the by bolt Standoff distance between one regulating block and the second regulating block, also includes being incorporated into above-mentioned first regulating block and removably The combination core (810) of two regulating blocks, thus regulate above-mentioned driving magnetic portion and the standoff distance in driven magnetic portion.