CN101312322A

CN101312322A - Conveying appliance

Info

Publication number: CN101312322A
Application number: CNA2007101269941A
Authority: CN
Inventors: 早坂大祐; 操谷钦吾; 小松活夫
Original assignee: RENNES IND Ltd; Shoei Engineering Co Ltd
Current assignee: RENNES IND Ltd; Shoei Engineering Co Ltd
Priority date: 2007-05-22
Filing date: 2007-07-04
Publication date: 2008-11-26
Anticipated expiration: 2027-07-04
Also published as: KR20080102925A; JP2008290812A; TW200846569A; JP4406652B2; TWI325036B; CN101312322B

Abstract

The invention provides a stable transmitting device which does not generate dust caused by abrasion ad friction of gears to a power transmitting device of a roller and is independent of concave convex of the transmitted article. The delivering device of the invention comprises a power transmitting device (10) for transmitting rotation to a pair of rollers (31, 32), and clamped between the pair of rollers through the transmitted article (50) to cause the pair of rollers to rotate, wherein the power transmitting device comprises a driving side disc (11) driven by a driving source (1) and rotating around an axle center, and a pair of driven side discs (21, 22), respectively being connected with the pair of driven side discs (21, 22) and keeping scheduled gap with the driving disc, arranged in an opposite way of an end face with the driving side disc. On each end face of the driving disc and the driven side discs, permanent magnets (15, 27) are of heteropole arrangement radically in an staggered way of N electrode and S electrode, and the power is transmitted from the driving disc to the pair of driven discs through magnetic force of the permanent magnets.

Description

Conveying device

Technical field

The present invention relates to by being clamped in transported material between the pair of rolls and pair of rolls being rotated carry the device of transported material.

Technical background

In the past, known have by being clamped in transported material between the pair of rolls and pair of rolls being rotated carry the device of transported material.This type of conveying device for example is arranged at and removes (for example, with reference to patent documentation 1) in the cleaning device of using attached to the dust on the substrate surface in the manufacturing process of printed base plate etc.The cleaning device (being designated hereinafter simply as " base plate cleaning device ") of this printed base plate etc. possesses up and down configuration relatively a pair ofly has adhering cleaning roller (cleaning roller) and to the power transmission of this cleaning roller transferring power, by substrate being clamped between a pair of cleaning roller and making a pair of cleaning roller rotation, in conveying substrate, will be adsorbed on the cleaning roller surface attached to the dust on the substrate.

Patent documentation 1: TOHKEMY 2000-84514 communique

Have again, in base plate cleaning device as described above, use drives by drive source and the driving side gear that rotate around the axle center and be connected to the gear mechanism that the slave end gear constituted on the cleaning roller etc., is used as the mechanism that uses to the revolving force of cleaning roller transmission drive source.But, in the kind of drive of the existing gear mechanism that is accompanied by Mechanical Contact, wearing and tearing, friction be might occur and dust and this dust produced attached on the substrate because of gear, perhaps pollute situations such as substrate, although thereby can to take place be that the device that cleaning base plate is used can not be in the situation of conveying substrate under the clean conditions because of the gasification of the lubricating oil of gear.

In addition, in above-mentioned base plate cleaning device, up and down relatively in the cleaning roller of configuration the cleaning roller of upside become the structure that can move up and down along with the concavo-convex of the electronic unit of on substrate surface, installing etc.That is, when the protuberance of the substrate that thickness is bigger than the interval between predefined two rollers is clamped between two rollers, can boost upward because of the cleaning roller of this protuberance with upside.Under the situation of the existing gear mechanism of following Mechanical Contact, when the upside cleaning roller moves up, utilize other device to deal with so that make the slave end gear meshing situation that is connected with the upside cleaning roller constant, thereby the problem that exists mechanism to complicate.

Summary of the invention

The present invention In view of the foregoing its objective is to provide not produce as to the gear of the device of the roller transferring power conveying device because of the dust due to wearing and tearing, the friction etc.

For achieving the above object, conveying device according to the solution of the present invention 1, this conveying device possesses the power transmission to pair of rolls transmission rotation, and carry transported material by transported material being clamped between the described pair of rolls and described pair of rolls being rotated, it is characterized in that, described power transmission possesses: the driving side disk, and it is driven by drive source and rotates around the axle center; With a pair of slave end disk, they are connected with described pair of rolls respectively, and keep pre-fixed gap between the described driving side disk, and the relative mode of end face is configured with described driving side disk, on each end face of described driving side disk and slave end disk, permanent magnet is radially heteropole in the extremely staggered mode of the N utmost point, S arranges and install and be provided with, utilize the magnetic attraction of described permanent magnet and magnetic repulsion with power from described driving side disk to the transmission of described a pair of slave end disk.

According to the present invention program 2 conveying device, in such scheme 1, it is characterized in that described slave end disk is configured two pairs with respect to a driving side disk.

Conveying device according to the present invention program 3, in such scheme 1, it is characterized in that, with the configuration up and down on sidewall paneling of described pair of rolls, the downside roller is set under the state that the direction with the axle center quadrature moves can and limiting it around the rotation of self axle center with respect to described sidewall paneling, and with the upside roller can be configured in the mode that upper and lower moves up around rotation of self axle center and axle center with respect to described sidewall paneling, make in the slave end disk that is connected with described downside roller and the described driving side disk to connect, and make the slave end disk and the described driving side disk that are connected with described upside roller external.

According to conveying device of the present invention, the magnetic attraction and the magnetic repulsion of the magnet that is provided with are installed respectively on the slave end disk that constitutes the driving side disk of utilization rotation driving by drive source and be connected with roller, with power from the driving side disk to the transmission of slave end disk, by this structure can be with power in non-contacting mode from driving side to the slave end transmission, and can as the kind of drive of existing gear mechanism, the mechanical engagement because of gear not produce dust etc., and transported material can be carried under the state that is maintained in the clean condition.

In addition, according to conveying device of the present invention, constitute on each end face of driving side disk and slave end disk magnet heteropole arrangement alternately, and dispose both making under the relative state of each other end face, by this structure, even the slave end disk moves up with respect to the driving side disk or moves down, all the space of slave end disk and driving side disk can be remained necessarily, can extremely not diminish so be delivered to the moment of slave end disk.Consequently, and be clamped in the concavo-convex irrelevant of transported material between the pair of rolls, can keep the torque expected, and can guarantee stable conveying function.

Description of drawings

Fig. 1 is the stereogram of a part of base plate cleaning device of summarily representing to possess the conveying device of embodiment of the present invention.

Fig. 2 is the figure of the supporting construction of expression cleaning roller of base plate cleaning device and adhesive tape roller.

Fig. 3-the 1st, the cleaning roller from top view Fig. 1 and the figure of power transmission.

Fig. 3-the 2nd observes the figure of Fig. 3-1 from the side.

Fig. 4 is the schematic diagram of the magnetic force engagement of the front view of power transmission of expression base plate cleaning device and power transmission.

Fig. 5 schematically shows the figure of cleaning roller according to the concavo-convex state that moves up and down on transported material surface.

Fig. 6 is the figure of expression slave end magnetic-gear with respect to the position of driving side magnetic-gear.

Symbol description

1: motor (drive source);

10: power transmission;

11: driving side magnetic-gear (driving side disk);

12: magnetic plate;

13: rotating shaft;

15: magnetic force tooth (permanent magnet);

16:(driving side magnetic-gear) end face;

21: upside magnetic-gear (slave end disk);

22: downside magnetic-gear (slave end disk);

23,24: magnetic plate;

25,26: rotating shaft;

27: magnetic force tooth (permanent magnet);

28:(upside magnetic-gear) end face;

29:(downside magnetic-gear) end face;

30: base plate cleaning device;

31: upside cleaning roller (roller);

32: downside cleaning roller (roller);

50: substrate (transported material).

Embodiment

Describe the preferred implementation of conveying device of the present invention with reference to the accompanying drawings in detail.Have, the present invention is not limited to this execution mode again.

Fig. 1 is the stereogram of a part of base plate cleaning device of summarily representing to possess the conveying device of embodiment of the present invention.Have again, in the present embodiment, as " substrate " of object expression install from the teeth outwards electronic unit etc. printed base plate, printed base plate, crystal liquid substrate and plasma display base plate etc. before the electronic unit are installed.

This base plate cleaning device 30 possesses: a pair of

cleaning roller

31,32 that is made of adhering elastic rubber materials such as silicon rubber; The

adhesive tape roller

33,34 that constitutes than the material of this cleaning roller 31, the Final 32 by adhesiveness; And to the power transmission 10 of a pair of

cleaning roller

31,32 transferring power.Have again,, in Fig. 1, only express a pair of for ease of explanation and omit the diagram of other roller though actual base plate cleaning device 30 is the structures that described each roller are arranged side by side many groups.

A pair of

cleaning roller

31,32 leaves predetermined space and configuration relatively up and down, and rotatably is supported in through rotating

shaft

25,26 on the sidewall paneling (omitting diagram in Fig. 1).As shown in Figure 1, an end of each

rotating shaft

25,26 is connected respectively on the

slave end disk

21,22 of power transmission 10 described later.Below, cleaning roller 31 is called " upside cleaning roller 31 ", cleaning roller 32 is called " downside cleaning roller 32 ".In addition,

adhesive tape roller

33,34 is disposed at the outside of

cleaning roller

31,32 respectively under the state of contact upside and

downside cleaning roller

31,32, and rotatably is supported on the sidewall paneling through rotating shaft.

In base plate cleaning device 30 with said structure, as shown in Figure 1, by substrate 50 being clamped between the

cleaning roller

31,32 and making

cleaning roller

31,32 rotations and substrate 50 is carried in the horizontal direction by power transmission 10 described later, meanwhile, to be adsorbed onto the surface of

cleaning roller

31,32 attached to the dust on the substrate 50, and remove dust from the surface of substrate 50.Have again, transfer on the

adhesive tape roller

33,34 that contacts with

cleaning roller

31,32 and rotate attached to the dust on the

cleaning roller

31,32.

In addition, in the present embodiment, with downside cleaning roller 32 and adhesive tape roller 34 with respect to the sidewall paneling of base plate cleaning device 30 main bodys can around self axle center rotation and restriction to the state that moves of axle center orthogonal direction under set, and upside cleaning roller 31 and adhesive tape roller 33 are set in the mode that can slide on above-below direction around self axle center rotation and axle center with respect to sidewall paneling as shown in Figure 2.Be described in more detail for, as shown in Figure 2, the rotating shaft 25 of upside cleaning roller 31 and the rotating shaft 35 of adhesive tape roller 33 are supported on the sidewall paneling 40 through bearing portion 41 respectively.Axle sleeve 43 can be embedded in the slotted hole 44 that is provided with on sidewall paneling 40 up or down, and a plurality of bolts 42 that bearing portion 41 is fixed on the sidewall paneling 40 can be embedded into bolt up or down with in the slotted hole 45, thereby this bearing portion 41 can slide on above-below direction under the state that supports each roller 31,33.In addition, in the bearing portion 41 of adhesive tape roller 33, apply predetermined air pressure by not shown cylinder, and become the structure that makes adhesive tape roller 33 always closely contact cleaning roller 31.By becoming said structure,, can upside cleaning roller 31 and adhesive tape roller 33 be moved up and down along with the concavo-convex of transported material for example carrying under the situation that forms irregular transported material from the teeth outwards as the substrate that electronic unit is installed.

Secondly, the power transmission 10 of subtend upside and 31, the 32 transmission rotations of downside cleaning roller describes.Fig. 3-the 1st, the figure of the upside from top view Fig. 1 and

downside cleaning roller

31,32 and power transmission 10, Fig. 3-the 2nd, (cleaning roller one side) observes the figure of Fig. 3-1 from the side.Have again, in Fig. 3-1, omit and represent as the substrate 50 of transported material.In addition, Fig. 4 is the figure that summarily represents power transmission 10, and left figure is the front view of power transmission 10, and right figure is the schematic diagram of the magnetic force engagement of expression power transmission 10.

Shown in Fig. 3-1, power transmission 10 possesses driving side disk 11 that rotates around the axle center and a pair of

slave end disk

21,22 that is connected with upside and

downside cleaning roller

31,32 through rotating

shaft

25,26 by drive source (motor) 1 driving.This a pair of

slave end disk

21,22 and driving side disk 11 between leave pre-fixed gap and so that end face and driving side disk 11 modes respect to one another be configured.Here, the single face part (planar section) of the end face 16 expression driving side disks 11 of so-called driving side disk 11, the single face part (planar section) of end face 28, the 29 expression

slave end disks

21,22 of slave end disk 21,22.In the present embodiment, as Fig. 3-2 and shown in Figure 4, dispose two pairs of slave end disks 21,22 (i.e. two pairs of cleaning rollers 31,32) with respect to a driving side disk 11.Have again, in the following description, for ease of explanation, and driving side disk 11 suitably is called driving side magnetic-gear 11, and

slave end disk

21,22 is called upside magnetic-gear 21, downside magnetic-gear 22.

Driving side magnetic-gear 11 is by constituting as the lower part: the magnetic plate 12 of the disc-shape that is made of magnetic (for example soft magnet); The rotating shaft 13 that this magnetic plate 12 and motor 1 are coupled together; And magnetic force tooth 15, it is permanent magnet is set forms by equally spaced installing with proper methods such as bonding agents on the end face 16 of magnetic plate 12.On the other hand, have the structure identical as the upside of slave end and downside magnetic-

gear

21,22 with driving side magnetic-gear 11, it is by constituting as the lower part:

magnetic plate

23,24, and they are made of the magnetic of the disc-shape with diameter littler than driving side magnetic-gear 11;

Rotating shaft

25,26, they couple together this

magnetic plate

23,24 and upside and

downside cleaning roller

31,32; And magnetic force tooth 27, it is to form by on the

end face

28,29 of

magnetic plate

23,24 permanent magnet equally spaced being installed setting.

Shown in the right figure of Fig. 4, the

magnetic force tooth

15,27 that is made of permanent magnet is that the extremely staggered mode of the N utmost point, S is configured with the polarity of adjacent magnetic force tooth.The object line of the magnetic force tooth 15 of driving side magnetic-gear 11 shown in Figure 4 obtains below for example like that.With a bit being connected with the center of circle on the circumference of disk, making the number of teeth is n, and described curve is rotated every 360 °/n one, and draws n bar curve with curve.The set of this n bar curve can be radial curve for example shown in Figure 4 (for example involute).The magnetic force tooth 27 of upside and downside magnetic-

gear

21,22 too.By making

magnetic force tooth

15,27 is described shape, the transmission that can be rotated glibly, and can obtain more large-area magnetic force engagement, so magnetic force engagement grow.Have, the permanent magnet as constituting

magnetic force tooth

15,27 can use to have for example rare-earth-type material of the high energy product of 40MGOe again.

Shown in the right figure of Fig. 4, in the present embodiment, the center of downside magnetic-gear 22 (rotating shaft part) is configured to be positioned at the inboard (following this state is called " connecing engagement ") of the magnetic force tooth 15 of driving side magnetic-gear 11.On the other hand, the center of upside magnetic-gear 21 (rotating shaft part) is configured to be positioned at the outside (following this state is called " external engagement ") of the magnetic force tooth 15 of driving side gear 11.

In power transmission 10 with said structure, the magnetic force engagement of the magnetic force tooth 15 (permanent magnet) by driving side magnetic-gear 11 and the magnetic force tooth 27 (permanent magnet) of slave end magnetic-

gear

21,22, be the N utmost point of relative magnet and the repulsive force between the attraction between the S utmost point and the N utmost point and the N utmost point and the S utmost point and the S utmost point, torque be delivered to slave end magnetic-

gear

21,22 from driving side magnetic-gear 11 in the noncontact mode.For example, when driving side magnetic-gear 11 is rotated shown in the right figure of Fig. 4 like that in the counterclockwise direction, by the attraction and the repulsive force of magnet of effect between slave end magnetic-

gear

21,22, and slave end magnetic-

gear

21,22 is moved along with the rotation of driving side magnetic-gear 11.Promptly, when driving side magnetic-gear 11 rotates in the counterclockwise direction, with with driving side magnetic-gear 11 in connect downside magnetic-gear 22 rotation in the counterclockwise direction as shown in Figure 4 that the mode of engagement disposes, on the other hand, the upside magnetic-gear 21 that disposes in the mode with the 11 external engagements of driving side magnetic-gear will rotate around clockwise direction as shown in Figure 4, and the direction of rotation of upside and downside magnetic-

gear

21,22 is opposite.

Have again, in described power transmission 10, by the number of teeth of

magnetic force tooth

15,27 suitably being set the rotation ratio that just can obtain expecting.In the example depicted in fig. 4, the number of teeth of driving side magnetic-gear 11 is 48, and the number of teeth of upside and downside magnetic-

gear

21,22 is set at 16 respectively.Therefore, from driving side magnetic-gear 11 when upside and downside magnetic-

gear

21,22 transmits rotation, compare with driving side magnetic-gear 11, the angular speed of upside and downside magnetic-

gear

21,22 increases by three times.

With above-mentioned upside magnetic-gear 21 upside cleaning roller 31 that is connected and the downside cleaning roller 32 that is connected with downside magnetic-gear 22, like that, its direction of rotation is a rightabout shown in Fig. 3-2.Like this, be clamped between upside and the

downside cleaning roller

31,32 as the substrate 50 of transported material and will be transferred in the horizontal direction.

In addition, Fig. 5 schematically shows the figure of upside cleaning roller 31 according to the concavo-convex state that moves up and down on substrate 50 surfaces, and Fig. 6 is that expression upside magnetic-gear 21 is moved upward the figure with respect to the position of driving side magnetic-gear 11 under the situation.As shown in Figure 5, when upside cleaning roller 31 being boosted upward by protuberance 51 with thickness bigger than the interval of predefined upside and

downside cleaning roller

31,32, accompany with it, the upside magnetic-gear 21 that is connected with upside cleaning roller 31 also will be boosted upward.Shown in the last figure of Fig. 6, at upside magnetic-gear 21 when common position is moved upward, diminish though compare with the situation that is positioned at common position with the area of contact of driving side magnetic-gear 11, as shown below, and the space between the driving side magnetic-gear 11 (air gap) keeps certain.Therefore, even upside magnetic-gear 21 is moved upward, can extremely not diminish to upside cleaning roller 31 torque transmitted yet.

As mentioned above, base plate cleaning device 30 according to present embodiment, constitute utilization the magnetic attraction and the magnetic repulsion of the magnet that is provided with are installed on driving side disk 11 and

slave end disk

21,22, power is transmitted to

slave end disk

21,22 from driving side disk 11, by this structure, can be from driving side in the noncontact mode to the slave end transferring power, and can not produce as in the past because of dust due to the mechanical engagement of gear etc., and can under the state that is maintained in the clean condition, carry substrate 50 as transported material.

In addition, base plate cleaning device 30 according to present embodiment, constitute permanent magnet (magnetic force tooth 15,27) alternately heteropole be arranged on each

end face

16,28,29 of driving side disk 11 and

slave end disk

21,22, and so that the relative mode of end face mutually disposes both, by this structure, even slave end disk 21 is boosted by the protuberance 51 of substrate along with cleaning roller 31 and moves up, but the space between itself and the driving side disk 11 also can keep certain.Therefore, the size that is delivered to the moment of slave end disk 21 from driving side disk 11 can extremely not diminish, and can keep the torque expected and and be clamped in the concavo-convex irrelevant of transported material between the cleaning roller, and can be with stable transmission of torque to roller.

Have again, base plate cleaning device 30 according to present embodiment,

slave end disk

21,22 is configured two pairs with respect to a driving side disk 11, because this structure, can dwindle the configuration space of power transmission 10 and realize the miniaturization of base plate cleaning device integral body.

Also have, in the above-described embodiment, upside cleaning roller 31 is moved up and down, even make upside and downside cleaning roller structure all moving up and down also can obtain the effect identical with above-mentioned execution mode though constitute.

In addition, in the above-described embodiment,, also can apply the magnetization of same shape to the ring type circular magnet though

magnetic force tooth

15,27 equally spaced is mounted on respectively on the

end face

16,28,29.Have again,, also can change the thickness of magnetic force tooth 15 and the thickness of magnetic force tooth 27 though the thickness of each

magnetic force tooth

15,27 is identical.In addition, though being shaped as of

magnetic force tooth

15,27 is radial.But also can be other shapes such as linearity.

As mentioned above, conveying device of the present invention, can be effective to headed by the base plate cleaning device shown in the above-described embodiment, according to the concavo-convex conveying device that roller is rotated when roller is moved up and down to carry transported material that is clamped in transported material between the pair of rolls.

Claims

1. conveying device, this conveying device possess the power transmission to pair of rolls transmission rotation, and carry transported material by transported material being clamped between the described pair of rolls and described pair of rolls being rotated, it is characterized in that,

Described power transmission possesses:

The driving side disk, it is driven by drive source and rotates around the axle center; With

A pair of slave end disk, they are connected with described pair of rolls respectively, and keep pre-fixed gap between the described driving side disk, and with described driving side disk the relative mode of end face being configured,

On each end face of described driving side disk and slave end disk, permanent magnet is radially heteropole in the extremely staggered mode of the N utmost point, S arranges, utilize described permanent magnet magnetic force with power from described driving side disk to the transmission of described a pair of slave end disk.

2. conveying device according to claim 1 is characterized in that,

Described slave end disk is configured two pairs with respect to a driving side disk.

3. conveying device according to claim 1 is characterized in that,

With the configuration up and down on sidewall paneling of described pair of rolls, the downside roller is set under the state that the direction with the axle center quadrature moves can and limiting it around the rotation of self axle center with respect to described sidewall paneling, and with the upside roller can be configured in the mode that upper and lower moves up around rotation of self axle center and axle center with respect to described sidewall paneling

Make in the slave end disk that is connected with described downside roller and the described driving side disk to connect, and make the slave end disk and the described driving side disk that are connected with described upside roller external.