JP2011031528A - Clip device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a clip device, which has no problems of fly of iron powder and noise, and in which a tenter clip opens and closes stably even in high-speed driving. <P>SOLUTION: A head (20) of a clip lever (16) of the tenter clip (5) is constituted by a magnetic material. A clip closer (8) and a clip opener (9) are constituted of a plurality of magnets (21, 22, ...) arranged leaving a predetermined gap outside a rotational trajectory of the head (20). The plurality of magnets are arranged in mutually adjacent first and second lines (46, 47) along the running direction of the tenter clip (5). The magnet of the first line (46) is arranged such that the south pole is directed downward and the magnet of the second line (47) is arranged such that the north pole is directed downward. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a clip device that is provided in a stretching device that stretches a film in the width direction, and that grips both ends of the film and stretches the film in the width direction.

  When a film formed of an oriented resin is stretched in a temperature atmosphere between the softening point and the melting point, a film having a high tensile strength in the stretching direction can be obtained. An apparatus for obtaining a film having such a high strength Is conventionally known as a stretching apparatus. As the stretching apparatus, there are known a uniaxial stretching apparatus that stretches the film in only one direction in the length direction and a biaxial stretching apparatus that can stretch the film in two directions of the length direction and the width direction. Thus, a clip device is provided in a stretching device for stretching the film in the width direction. As shown in FIG. 5A, the clip device has two chains T and T ′ that travel endlessly while being guided and spread by a pair of rails. A plurality of tenter clips TC, TC,... Attached at intervals, a pair of clip closers C, C ′ arranged near the entrance of the furnace R maintained at a predetermined temperature atmosphere, and the exit of the furnace R It is composed of a pair of clip openers O, O ′ and the like arranged in the vicinity.

  A tenter clip TC that grips both ears of the film and runs while being pulled by the chains T and T ′ is also well known in the art. For example, as disclosed in Patent Document 1 and shown in FIG. The gripping base b, the arm a rising from the both sides of the gripping base b, (a), the clip lever r supported on the tip of the arm a, (a), etc. Yes. The clip lever r is biased so as to rotate clockwise by the spring s, and the grip portion r ′ below the clip lever r is in a state of being pressed against the grip base b. When r rotates counterclockwise against the spring force and the rotation angle exceeds a predetermined angle, the clip lever r is urged to rotate counterclockwise and the open state is maintained. It is like that. The clip closers C and C ′ are also well known in the past as shown in, for example, Patent Document 2, and generally as shown in FIG. A disc-shaped wear disc D having a predetermined diameter is attached to the shaft J through a holder H in a horizontal manner.

  Therefore, when the tenter clips TC, TC,... Are attached to the chains T, T ′ and travel, the film F that extends to the open tenter clips TC, TC,. When the upper part r ″ of the clip lever r is pushed by the wear disc D of the clip closers C and C ′, the gripping part r ′ is pressed against the gripping base b and maintained in the press-contact state by the spring s. F is gripped at both ears, and the tenter clips TC, TC,... Are separated little by little in the width direction in the furnace R as shown in FIG. In other words, the film F travels in the width direction, and the film F is stretched in the width direction. Then, the grip portion r 'is open against the spring s. Then, the gripping part r 'is separated from the gripping base b, the film F is released, and the clip lever r is kept open by the spring s. The film F stretched at a predetermined magnification is released and sent to the next step.

  In this way, the clip lever r comes into contact with the clip closers C and C ′, the film is gripped, and comes into contact with the clip openers O and O ′ to be released. Contact with C, C ′ or clip openers O, O ′ is shocking. These shocking contacts cause these parts to wear and generate noise. Furthermore, when iron powder generated by abrasion adheres to a product film, the quality of the film is adversely affected. In view of this, various clip devices that can open and close the clip lever r in a non-contact manner with the clip closers C and C ′ or the clip openers O and O ′ by using the magnetic force of the magnet have been proposed.

No. 4-38982 JP 59-48123 A Japanese Patent Laid-Open No. 04-58774 Japanese Patent No. 3422040 Japanese Patent No. 3936739

  Patent Document 3 describes a clip device in which a permanent magnet is provided at each of a tip end portion of a clip lever, a clip closer, and a clip opener, and a tenter clip is opened and closed by the repulsive force of the magnet. Since the clip lever repels the clip closer and the clip opener due to the magnetic force, the tenter clip is opened and closed in a contactless manner.

  Patent Document 4 describes a clip device that opens and closes a tenter clip by the attractive force of a magnet using a clip closer and a clip opener made of a permanent magnet. According to the clip device described in Patent Document 4, the clip closer is composed of a plurality of fan-shaped permanent magnets, is provided slightly outward from the rotation radius of the clip lever, and the rotation angle of the clip lever toward the downstream. Are arranged so as to be slightly larger. Therefore, as the tenter clip travels downstream, the tip of the iron clip lever receives a magnetic force from the clip closer, and the clip lever rotates so that the rotation angle gradually increases. That is, the tenter clip opens without contact. Similarly, since the clip openers are arranged slightly outward from the rotation radius of the clip lever so that the rotation angle of the clip lever gradually decreases toward the downstream, the tenter clip is closed without contact.

  Patent Document 5 describes a clip device that opens and closes a tenter clip by attractive force using a clip closer made of a permanent magnet and a clip opener. In the clip device described in Patent Document 5, since the tip of the clip lever is notched so that the cross-sectional shape is U-shaped, the tip of the clip lever that has a small area due to the notch In this case, the magnetic field lines are densely concentrated. That is, a strong attractive force is received from the permanent magnets constituting the clip closer and the clip opener. Similarly to the clip device described in Patent Document 4, the clip device described in Patent Document 5 is opened and closed in a non-contact manner by the attractive force of the magnet.

  In any of the clip devices described in Patent Documents 3 to 5, when the tenter clip is opened and closed, the clip lever and the clip closer or the clip opener are not in direct contact, so there is no problem of wear or noise. Therefore, iron powder is not generated from the clip lever clip closer, clip opener, etc., and does not adhere to the film. However, these clip devices also have problems to be solved. For example, in the clip device described in Patent Document 3, since a permanent magnet is provided for each clip lever, the number of magnets is large, and expensive materials are used for such permanent magnets to obtain a strong magnetic force. Therefore, the clip device becomes expensive. Furthermore, since the clip lever is placed in a furnace heated to a high temperature, there is a problem in that the permanent magnet is exposed to the high temperature and deteriorates to reduce the magnetic force.

  Problems are also observed in the clip device described in Patent Document 4 or Patent Document 5. Patent Document 4 or Patent Document 5 specifically describes a method for arranging a plurality of permanent magnets constituting a clip closer or clip opener, that is, how to arrange individual permanent magnets having polarity. Not. That is, it does not describe how the N pole and the S pole should be arranged. For example, when arranging a plurality of permanent magnets having a strong magnetic force, if two adjacent permanent magnets are arranged so that the N pole of one permanent magnet and the S pole of the other permanent magnet are adjacent to each other, they will repel each other. Not easy to place. However, if the permanent magnets are arranged in this way, a dense portion and a rough portion are generated in the magnetic field lines formed by the plurality of permanent magnets. If it does so, the attractive force of the magnetic force to a clip lever will become non-uniform | heterogenous. There is no problem when the clip device is operated at a relatively low speed, for example, the speed of the film to be stretched is 100 m / min. Becomes larger, and the tenter clip cannot be opened and closed stably. On the other hand, if the N poles of all the permanent magnets are simply aligned, the lines of magnetic force repel each other and diffuse, and an appropriate magnetic attractive force is obtained between the clip closer and the clip lever. It will disappear. As described above, in the clip device described in each of Patent Documents 4 and 5, since the arrangement of the individual permanent magnets having polarity is not particularly considered, when the clip device is operated at high speed, There is a problem that opening and closing is not stable.

  There is also a problem of iron powder adhering to the permanent magnet. In the clip devices described in Patent Documents 3 to 5, since the clip lever does not contact the clip closer or the clip opener, iron powder is not generated from them. However, iron powder generated from other devices may adhere to the permanent magnets and drop and adhere to the film, which may affect the quality of the film. Therefore, although the cleaning operation | work which removes regularly the iron powder adhering to a permanent magnet is required, in the clip apparatus of patent documents 3-5, the permanent magnet is exposed and becomes a structure which can be disassembled. Therefore, it is difficult to remove the adhering iron powder.

  An object of the present invention is to provide a clip device that solves the above-described problems. Specifically, there is no problem of scattering of iron powder and noise, and the permanent magnet is not deteriorated by high temperature. An object of the present invention is to provide a clip device that can stably open and close the tenter clip even when the clip device is operated at a high speed and can easily clean the iron powder.

  In order to achieve the above object, according to the present invention, in the clip device, the clip lever of the tenter clip has a head made of a magnetic material, and the clip closer and the clip opener respectively rotate the head of the clip lever. It comprises a plurality of magnets arranged with a predetermined gap outside the track. A plurality of such permanent magnets are arranged in the first and second rows adjacent to each other along the traveling direction of the tenter clip, and the first pole of the first row of magnets faces the head of the clip lever. Thus, the magnets in the second row are respectively arranged so that the north pole faces the head of the clip lever. Further, the magnets in each row are arranged so as to be shifted little by little toward the downstream in the traveling direction.

Thus, in order to achieve the above object, the invention described in claim 1 includes a tenter clip for gripping a film, a clip closer for closing the tenter clip, and a clip opener for opening the tenter clip, In a clip device for gripping both ends of a film and extending the film in the width direction, the tenter clip includes a clip lever having a head made of a magnetic material, and the clip lever is mounted on an arm rising from a base. The tenter clip is pivotally supported, and when the first rotation position is taken, the tenter clip is closed and the film is gripped by the grip portion of the base and the clip lever, and when the second rotation position is taken, the tenter clip is opened. The film is released and the clip is released. The closer and the clip opener are composed of a plurality of magnets arranged with a predetermined gap outside the rotation trajectory of the head of the clip lever, and the plurality of magnets are arranged on the tenter clip. The magnets in the second row are arranged in the first and second rows adjacent to each other along the traveling direction, and the magnets in the second row are arranged so that the S pole faces the head of the clip lever. The N poles are arranged so as to face the heads of the clip levers, and the magnets in each row are shifted little by little toward the downstream in the traveling direction, so that when the tenter clip travels, The head receives a magnetic attractive force and rotates from the first rotational position to the second rotational position, or from the second rotational position to the first rotational position, so that the tenter clip is rotated. There configured to open and close.
According to a second aspect of the present invention, in the clip device according to the first aspect, each of the plurality of magnets is configured to be put in a predetermined case made of a nonmagnetic material. In the clip device according to claim 1, each magnet in the first row and each magnet in the second row form a pair from two magnets adjacent to each other, Each pair is configured to be placed in the same case made of a non-magnetic material.
According to a fourth aspect of the present invention, in the clip device according to any one of the first to third aspects, the head portion of the clip lever is made of a magnetic material having a saturation magnetic flux density of 1.0 T or more. The gaps between the plurality of magnets and the rotation trajectory of the head of the clip lever are configured to be 3 to 5 mm apart.

  As described above, according to the present invention, in the clip device, the clip lever of the tenter clip has a head made of a magnetic material, and each of the clip closer and the clip opener is located outside the rotation track of the head of the clip lever. The tenter clip is opened and closed in a non-contact manner with the clip closer and clip opener, causing problems with iron powder scattering and noise. Absent. Further, since the permanent magnet is provided only in the clip closer and the clip opener, the permanent magnet is not deteriorated by high temperature. A plurality of such permanent magnets are arranged in the first and second rows adjacent to each other along the traveling direction of the tenter clip, and the first pole of the first row of magnets faces the head of the clip lever. As described above, since the magnets in the second row are arranged so that the N poles face the heads of the clip levers, the lines of magnetic force are densely distributed between the first row and the second row. That is, the magnetic field lines are distributed from the north pole of the second row to the south pole of the first row and across the traveling direction of the tenter clip. Since such lines of magnetic force are uniformly distributed, a stable attractive force acts on the head of the clip lever. Therefore, the tenter clip can be opened and closed stably even when the clip device is operated at high speed. Further, according to the present invention, since the permanent magnet is put in a predetermined case made of a non-magnetic material, even if iron powder adheres to the surface of the case, the iron magnet can be easily removed by simply removing the permanent magnet from the case. The clip device can be easily cleaned.

It is a figure which shows typically the clip apparatus which concerns on embodiment of this invention, The (a) is a top view which shows the extending | stretching apparatus provided with the clip apparatus, The (a) is a side view which shows a tenter clip, The ( (C) is a perspective view showing a part of a clip closer or a clip opener. It is side surface sectional drawing which shows the magnetic circuit unit which concerns on this Embodiment, and the stationary platen which is fixing the magnetic circuit unit. It is a figure for demonstrating the effect | action of the clip apparatus which concerns on this Embodiment, The (a)-(c) is a side view which shows each state of the tenter clip opened and closed by a clip closer or a clip opener. In the clip device concerning an embodiment of the invention, it is a graph which shows conditions required for an apparatus, The (a) shows the required length of the clip closer or clip opener required with respect to clip running speed, (A) is a graph which respectively shows the relationship between the space | interval of a permanent magnet and the head of a clip lever, and the attractive force which generate | occur | produces between them. It is a figure which shows a prior art, The (a) is a top view which shows the extending | stretching apparatus provided with the clip apparatus based on a prior art, The (a) is a side view which shows the tenter clip and clip closer concerning a prior art.

  Embodiments of the present invention will be described below. As shown in FIG. 1A, the clip device 1 according to the present embodiment is also roughly a chain 3 and 3 which are guided by a pair of circulating rails 2 and 2 and run. A pair of clip closers 8, 8 disposed in the vicinity of the entrance of the furnace 6 to close the tenter clips 5, 5,. It is comprised from a pair of clip openers 9, 9 etc. which are arrange | positioned in the exit vicinity of and open the tenter clip 5,5. The distance between the pair of rails 2 and 2 extends downstream in the furnace 6, and the furnace 6 is maintained in a predetermined temperature atmosphere. Therefore, the tenter clips 5, 5,. When the gripped film 10 is sent downstream, it is stretched in the width direction.

  The tenter clip 5 according to the present embodiment has a configuration similar to a conventionally known tenter clip, as shown in FIG. That is, the tenter clip 5 is composed of a base 13 fixed to the upper surface of the link 11 of the chain 3 and a clip lever 16. The clip lever 16 rises from the base 13 and extends horizontally in a cantilever shape. The arm 14 (14) is rotatably supported by a predetermined bearing portion 15. The clip lever 16 is refracted at a predetermined angle in the bearing portion 15. In FIG. 1A, a portion below the bearing portion 15 is short and an upper portion is long. The shorter end portion is a gripping portion 18 that grips the film 10. When the clip lever 16 takes the first rotation position indicated by the solid line in FIG. Is held between the base 13 and the gripping portion 18 and takes the second rotational position indicated by the one-dot chain line, the film 10 is released. Although not shown in FIG. 1A, the clip lever 16 is urged by a predetermined spring, and when the clip lever 16 is in the first rotation position, the clip lever 16 is maintained in this rotation position, and the elasticity of the spring. When the clip lever 16 is rotated against the force and exceeds a predetermined rotation angle, the clip lever 16 is biased in the direction of the second rotation position and is maintained at the second rotation position.

  In FIG. 1A, the upper end portion of the clip lever 16, that is, the head portion 20 of the clip lever 16, is formed from a magnetic material having a saturation magnetic flux density of 1.0 T (tesla) or more to a predetermined size. Yes. Therefore, a strong attractive force is received by the magnetic force of a magnet constituting a clip closer or clip opener described later. Examples of the magnetic material forming the head 20 include spheroidal graphite cast iron, FCD450 (saturation magnetic flux density 1.58 T), low carbon steel, S25C (saturation magnetic flux density 1.7 T), and SUS430 (saturation magnetic flux density 1) which is a ferritic stainless steel. .7T) can be applied.

  Each of the clip closer 8 and the clip opener 9 is composed of a plurality of magnets arranged in a predetermined arrangement. FIG. 1C shows eight permanent magnets 21, 22,... And a stationary plate 26 to which these magnets 21, 22,. Each of the clip closer 8 and the clip opener 9 is composed of three or more such fixed plates 26, whereby a plurality of permanent magnets are continuously arranged, and the clip lever 16 is rotated by attractive force. The tenter clip 5 is opened and closed.

  The stationary platen 26 is formed of a steel plate having a predetermined thickness, and clevises 28 and 28 having bolt insertion holes are formed in the vicinity of the end portions. Two predetermined fixing rods 30, 30 provided outside are connected to the clevis 28, 28 by bolts 31, 31. The fixed plate 26 can be rotated at a predetermined angle around the clevis 28, 28 as indicated by an arrow 32, and is fixed by bolts 31, 31 and nuts at a predetermined adjusted angle. . In the fixed plate 26, four grooves 33, 33,... Having a predetermined length are opened in the axial direction penetrating the steel plate. The bolts 36, 36,... Are inserted into the grooves 33, 33,..., And the magnetic circuit units 35, 35,. Are attached to each. Since the grooves 33, 33,... Through which the bolts 36, 36,... Are inserted are formed in a predetermined length in the axial direction, the magnetic circuit units 35, 35,. Can be fixed in the position.

  The magnetic circuit unit 35 will be described in detail with reference to FIG. The magnetic circuit unit 35 includes a yoke 40 having a rectangular plate shape, first and second permanent magnets 21 and 22 fixed to the yoke 40 with a predetermined spacer 42 interposed therebetween, and a case 41 in which these are stored. It consists of and. The first and second permanent magnets 21 and 22 are so-called rare earth magnets having a strong magnetic force such as a samarium cobalt magnet and a neodymium magnet, and the first and second permanent magnets 21 and 22 have opposite polarities. Arranged to face. In other words, the first permanent magnet 21 is fixed to the yoke 40 and the second permanent magnet is fixed to the yoke 40. Since the yoke 40 is made of a magnetic material made of SS400 or SUS430, the first permanent magnet 21 and the second permanent magnet are provided in the magnetic circuit unit 35 as indicated by the magnetic lines of force 44, 44. As a result, a magnetic circuit in which the magnetic lines of force are concentrated is formed. The case 41 is made of SUSU 304 or a non-magnetic material such as aluminum and has a thickness of about 1 mm. Therefore, the magnetic field lines 44 and 44 are not substantially affected by the case 41. Since the first and second permanent magnets 21 and 22 are stored in such a case 41, even if iron powder floating around is attracted by a strong magnetic force and adhered to the surface of the case 41, The iron powder can be separated from the case 41 simply by removing the first and second permanent magnets 21 and 22 from the case 41. That is, iron powder can be easily removed.

  A method of fixing such magnetic circuit units 35, 35,... To the fixed plate 26 will be described. Each of the magnetic circuit units 35, 35,... Is fixed to the fixed plate 26 so as to face the head 20 with a predetermined gap t outside the rotation trajectory of the head 20 of the clip lever 16. . A predetermined shim is inserted and adjusted between the magnetic circuit units 35, 35,... And the fixed plate 26 so that the gap t is 2 to 4 mm. In other words, when the case 41 is excluded, the gap between the first and second permanent magnets 21 and 22 and the head 20 is maintained at 3 to 5 mm. The four magnetic circuit units 35, 35 are arranged so that the polarities of the adjacent permanent magnets are aligned and attached to the stationary platen 26 as shown in FIG. That is, the first permanent magnets 21, 21,... Are arranged adjacent to each other, and the second permanent magnets 22, 22,. Then, the head 20, which is composed of the first permanent magnets 21, 21,..., Which is composed of the magnets in the first row 46 facing the head 20, and the second permanent magnets 22, 22,. The magnets in the second row 47 facing the north pole are arranged along the traveling direction of the tenter clip 5. Since they are arranged in this way, a uniform magnetic circuit with less disturbance of the magnetic field lines is formed between the first row 46 and the second row 47, and the head 20 of the clip lever 16 is strongly attracted. become. Since the strong attractive force acts on the head 20 of the clip lever 16 in this way, the tenter clip 5, so that the gap between the first and second permanent magnets 21 and 22 and the head 20 is kept constant. The chain 3 to which 5,... Are fixed is provided with a clip tension of 6.0 to 10.0 kN, that is, a tension.

  The clip closer 8 is composed of an assembly of at least three fixed plates 26, and these fixed plates 26, 26,... Are arranged so as to be shifted little by little along the traveling direction of the tenter clip 5. That is, as shown in FIG. 3A, the uppermost stationary platen 26 is arranged so that the magnetic circuit unit 35 is positioned vertically above the bearing portion 15 of the clip lever 16, and is adjacent to the downstream side. As shown in FIG. 3A, the stationary platen 26 on the side is arranged so that the magnetic circuit unit 35 is inclined by 15 ° from the vertical upper side of the bearing portion 15, and the most downstream stationary platen 26 is As shown in FIG. 3C, the magnetic circuit unit 35 is disposed so as to be inclined by 30 ° from the vertically upper side of the bearing portion 15. Since they are arranged in this way, the magnets in the first and second rows 46 and 47 are shifted little by little toward the downstream in the traveling direction. Similarly, the clip opener 9 also includes three or more such fixed plates 26, and the fixed plates 26, 26,... Are arranged so as to be shifted little by little along the traveling direction of the tenter clip 5. The uppermost stationary platen 26 is shown in FIG. 3 (c), and the downstream stationary platen 26 is shown in FIG. 3 (a). They are arranged as shown in FIG.

  The operation of the clip device 1 according to the present embodiment will be described. As shown in FIG. 1A, when the chain 3 travels while being guided by the rail 2, the tenter clips 5, 5,... Travel in the direction indicated by the arrows. The tenter clips 5, 5, etc. reach the clip closer 8 in an open state, but the uppermost fixing plate 26, the downstream fixing plate 26, and the most downstream fixing plate 26 constituting the clip closer 8 When the route passes, the head 20 of the clip lever 16 rotates in response to the attractive force from the magnetic circuit unit 35 as shown in (a), (b), and (c) of FIG. Then, the end portion, that is, the ear portion of the film 10 is sandwiched between the base 13 and the grip portion 18 of the clip lever 16. That is, it is gripped by the tenter clip 5. At this time, the other ear is also gripped by the other tenter clip 5. As shown in FIG. 1A, the film 10 is conveyed while holding both ears by the tenter clips 5, 5,... And stretched in the width direction when passing through the furnace 6. When the tenter clips 5, 5,... Reach the clip opener 9 and pass through the uppermost stationary platen 26, the downstream stationary platen 26, and the downstreammost stationary platen 26 constituting the clip opener 9, FIG. As shown in (c), (b), and (a), the head 20 of the clip lever 16 rotates in response to the attractive force from the magnetic circuit unit 35. Then, the ear part of the film 10 is released. The stretched film 10 is taken up by a winder or the like (not shown).

In the stretching apparatus provided with the clip device 1 according to the present embodiment, an experiment of stretching the film was performed.
○ About the film used in the experiment Material: Polypropylene Thickness: 100μm
Width: 2m
○ About clip closer 8 (same conditions for clip opener 9)
Width of the first and second permanent magnets 21 and 22 in the running direction of the tenter clip: 40 mm
Number of fixed plates 26: 3 (number of magnetic circuit units 35 is 3 × 4 = 12)
At this time, the length of the clip closer 8 / clip opener 9 in the tenter clip traveling direction is 40 mm × 12 pieces = 480 mm.
When the experiment of stretching was performed under the above conditions, the tenter clips 5, 5, ... were stably opened and closed even when the film speed measured at the outlet of the stretching apparatus was operated at a high speed of 450 m / min. It was confirmed that

The same experiment was performed by changing the conditions of the clip closer 8 and the clip opener 9.
○ About clip closer 8 (same conditions for clip opener 9)
Width of the first and second permanent magnets 21 and 22 in the running direction of the tenter clip: 40 mm
Number of fixed plates 26: 4 (the number of magnetic circuit units 35 is 4 × 4 = 16)
At this time, the length of the clip closer 8 / clip opener 9 in the running direction of the tenter clip is 40 mm × 16 pieces = 640 mm.
When the experiment of stretching was performed under the above conditions, the tenter clips 5, 5, ... were stably opened and closed even when the film speed measured at the exit of the stretching apparatus was operated at a high speed of 550m / min. It was confirmed that

  In order to open and close the tenter clip 5 stably, conditions required for the apparatus were obtained by experiments. 4A shows the required length of the clip closer 8 or the clip opener 9, that is, the length of the tenter clip 5 in the traveling direction with respect to the traveling speed of the tenter clip 5. . In the graph of FIG. 4A, the relationship between the head 20 of the clip lever 16 and the first and second permanent magnets 21 and 22 and the attractive force acting between them are shown. By adjusting the distance to be 3 to 5 mm, an optimum attractive force can be obtained.

  The embodiment of the present invention can be variously modified. For example, the first magnet 21 and the second magnet 22 can be similarly implemented even if they are arranged in different directions. That is, in the magnetic circuit unit 35, the first magnet 21 may be fixed to the yoke 40 and the second magnet 22 may be fixed to the yoke 40. Further, even if the number of fixed plates 26 is four or five, it can be similarly implemented.

DESCRIPTION OF SYMBOLS 1 Clip apparatus 2 Rail 3 Chain 5 Tenter clip 8 Clip closer 9 Clip opener 10 Film 16 Clip lever 18 Grip part 20 Head 21 1st permanent magnet 22 2nd permanent magnet 26 Fixing board 35 Magnetic circuit unit 46 1st Row 47 second row

Claims (4)

A clip device comprising a tenter clip for gripping a film, a clip closer for closing the tenter clip, and a clip opener for opening the tenter clip, and gripping both ends of the film by the tenter clip and stretching the film in the width direction In
The tenter clip includes a clip lever having a head made of a magnetic material. The clip lever is rotatably supported by an arm rising from a base, and the tenter clip is closed when the first rotation position is taken. The film is gripped by the grip portion of the base and the clip lever, and when the second rotational position is taken, the tenter clip is opened and the film is released,
The clip closer and the clip opener are composed of a plurality of magnets arranged with a predetermined gap outside the rotation trajectory of the head of the clip lever,
The plurality of magnets are arranged in the first and second rows adjacent to each other along the traveling direction of the tenter clip, and the first pole of the magnets faces the head of the clip lever. The magnets in the second row are respectively arranged so that the N poles face the heads of the clip levers, and the magnets in each row are shifted little by little toward the downstream in the traveling direction, whereby the tenter When the clip travels, the head of the clip lever receives an attractive force of magnetic force, and moves from the first rotation position to the second rotation position or from the second rotation position to the first rotation position. A clip device, wherein the tenter clip rotates and opens and closes.   2. The clip device according to claim 1, wherein each of the plurality of magnets is placed in a predetermined case made of a nonmagnetic material.   2. The clip device according to claim 1, wherein each magnet in the first row and each magnet in the second row are formed as a pair from two magnets adjacent to each other, and each pair is A clip device which is placed in the same case made of a nonmagnetic material. The clip device according to any one of claims 1 to 3, wherein the head of the clip lever is made of a magnetic material having a saturation magnetic flux density of 1.0 T or more.
A gap between the plurality of magnets and the rotation trajectory of the head of the clip lever is 3 to 5 mm.

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