JP5039662B2 - Transfer tool - Google Patents

Description

  The present invention reliably prevents one-sided contact without causing a problem that force is not easily transmitted to the transfer portion and is difficult to use, and also reflects linearly or curvedly the force from the housing. The present invention relates to a transfer tool capable of stably transferring a transfer medium.

  A feed shaft wound with a transfer tape coated with a transfer medium on a substrate, a take-up shaft that is fed from the feed shaft and takes up the substrate after the transfer medium is transferred onto the transfer medium, and feed There is known a transfer tool having a housing having a transfer portion provided on a conveyance path between a shaft portion and a winding shaft portion.

  If the transfer tool is used correctly by holding the housing in your hand and applying the force equally to the left and right of the transfer part in the width direction of the transfer part, the entire surface of the transfer part will contact the transfer object. Therefore, the entire width direction of the transfer medium is uniformly transferred to the transfer target.

  However, for example, when the transfer medium is transferred in a curved shape on the transfer target, when the force is not evenly applied even if it is linear, a part of the transfer portion is lifted from the transfer target. (This phenomenon is hereinafter referred to as one piece), and a part of the transfer medium in the width direction may not be transferred to the transfer target.

  When one-side contact occurs, for example, the transfer medium is not transferred in close contact with the transfer medium, resulting in incomplete transfer, or the transfer medium is not transferred to the expected width. In the tool, there is a possibility that the transfer medium remains on the base material and transfer cannot be performed correctly at the next start of use.

  The following patent documents 1-7 exist about the transfer tool which had the structure which eliminates the above-mentioned piece contact.

Japanese Utility Model Publication No. 7-13860 JP-A-8-175095 JP-A-11-170770 Re-published WO00 / 21761 JP 2003-2522 A Japanese Patent Application Laid-Open No. 2004-268412 JP 2006-28196 A

  In Patent Document 1, a shaft integrally formed from the tip of the transfer portion is pivotally supported in the housing so that the transfer portion rotates around the shaft when in a use state in which one-side contact occurs. A configuration to be described (range of −90 ° to 90 °) is described.

  In Patent Document 2, the transfer portion rotates when a stress is applied at a point perpendicular to the width direction of the transfer tape at the front end portion (crimping blade) and centered on a middle point in the width direction, and elastic force is applied when the stress stops working. The configuration to be mounted so as to be restored is shown.

  In Patent Document 3, protrusions are formed on both side surfaces supported on the housing side in the transfer section, and a partition chamber into which the projection portion of the transfer section is inserted is formed in the housing, and both side surfaces of the partition chamber are formed. In this figure, a slot is formed in which the projection is engaged, and an elastic body (coil spring) is inserted into the partition chamber to urge the transfer portion in the distal direction.

  Patent Document 4 shows a configuration in which the transfer portion is formed of a rectangular metal wire, and the metal wire is elastically deformed by the force applied.

  Patent Document 5 shows a configuration in which mounting holes are formed on both side surfaces of the head main body of the transfer portion, and a fitting member that fits into the mounting hole is formed at the head main body mounting portion of the housing.

  In Patent Document 6, the transfer unit is divided into a side that is supported by the housing and a side that transfers the transfer medium. The housing support side mainly follows the movement of the transfer unit in the vertical direction by elastic deformation. The transfer medium transfer side is configured to follow mainly the movement in the twisting direction by pivotally supporting the shaft on the housing support side.

  Patent Document 7 shows a configuration including a regulating member that abuts against the shaft portion and restricts the movement of the shaft portion that supports the head press-bonding portion of the transfer head on the housing when moving upward. Has been.

  By the way, the direction of the force received by the transfer unit is the direction in which the tip of the transfer unit moves up and down the transfer surface of the transfer target (hereinafter referred to as the up and down direction), and both ends in the width direction of the transfer unit transfer to each other. There are a direction back and forth in the tool operating direction (hereinafter referred to as the left-right direction) and a direction in which both ends in the width direction of the transfer portion move up and down (hereinafter referred to as the twist direction).

  For example, when the transfer medium is to be transferred in a straight line, the one-side contact is a phenomenon that occurs when the user's force is not evenly distributed, that is, when a force is applied in the left-right direction or twist direction. It is.

  When the transfer unit receives a force in the left-right direction or torsional direction, if the force cannot be absorbed, the inclination of the housing is reflected as it is, and the occurrence frequency per piece increases. The transfer medium cannot be transferred in a shape (hereinafter collectively referred to as a curved shape).

  However, when the force is transmitted excessively in each direction, the force from the user is immediately reflected, and the transfer medium is transferred as intended, for example, even if it is transferred in a straight line, it becomes a curved shape. It becomes difficult.

  Based on the above, Patent Documents 1 to 7 have the following problems. First, in Patent Documents 1 and 5, since the force from the casing is directly transmitted to the transfer unit, even a slight left-right uneven force is transmitted, and the transfer unit is inclined according to this force. In addition, there is a problem that the transfer medium is transferred in a meandering manner on the transfer target as it is tilted, and if it is attempted to transfer the transfer medium in a straight line, it fluctuates and is very difficult to use.

  Patent Document 2 absorbs the force from the housing, but the amount of elastic deformation due to the stress at this time becomes a problem. In other words, in the case of Patent Document 2, there is no configuration around the transfer unit that restricts the movement of the transfer unit due to elastic deformation, so the transfer unit moves the head freely in the vertical direction. There was a problem that it was difficult to use.

  In the case of Patent Document 3, although the protrusion (transfer portion) can freely move within the slot, it is necessary to keep the protrusion from coming out of the slot. The movement is remarkably limited, and there is a problem that the degree of freedom is small when transferring in a curved shape.

  Patent Document 4 follows the force applied to the transfer portion by the rectangular deformation by the metal wire, but it is easily deformed too much, that is, the force applied to the transfer portion is absorbed and difficult to use. May not return, and as a result, there has been a problem that neither the contact nor the usability has been improved.

  In Patent Document 6, the movement in the vertical direction and the twisting direction follow, but the transfer medium transfer side is free to rotate although the amount of rotation is limited. Therefore, when trying to transfer the transfer medium in a straight line, it fluctuates. There was a problem that it was very difficult to use.

  In Patent Document 7, even though the problem that the member is damaged when a large force, which is a problem of Patent Documents 2 and 3, can be solved, the tilting and swinging of the transfer portion during use is excessively restricted and almost no force is applied. As a result, there is a possibility that a piece of contact may occur.

  In short, the problem to be solved by the present invention is that the conventional patent documents 1 to 7 show that the force transmitted to the transfer portion is transmitted in at least one of the vertical direction, the horizontal direction, and the twist direction. May be absorbed and may be difficult to use, or may be transmitted excessively, resulting in contact with each other or the transfer medium being unable to be transferred in a curved shape, and with a good balance in the vertical, horizontal, and twist directions In other words, the transfer medium cannot be transferred in a curved line while transmitting force to the plate and suppressing the half-contact.

In order to solve the above-described problems, the present invention provides a feeding shaft portion in which a base material coated with a transfer medium is wound in a casing, and a winding shaft for winding the base material after being transferred to a transfer target. And a transfer unit provided with a part exposed from the housing on the substrate transport path between the delivery shaft unit and the take-up shaft unit. A connecting portion that is supported by the body through the mounting portion and extends from the mounting portion to the exposed opening of the transfer portion of the housing, and guide plates provided at both ends of the connecting portion in the width direction of the substrate transport surface a support portion that, the support portion of the elastic deformation is supported with the a connecting portion formed through an arm portion extending downwardly of the support portion of the guide plate, the the arm portion of the connecting portion provided in the housing side of the provided side opposite to the transfer plate provided on the side and the transfer plate, the left-right direction of the transfer plate by contact with the rear surface of the connecting portion and A distal end having a restricting portion for restricting the elastic deformation amount in the direction Gillet, was appreciated by one skilled in the art.

  The transfer tool according to the present invention has the following operational effects. First, the conditions of the transfer part that can improve the feeling of use will be described. When transferring a transfer medium in a straight line without causing a piece-to-piece contact, a force is applied equally to the left and right of the transfer part in the width direction of the transfer part. If it is, the biased force may be absorbed before reaching the transfer portion.

  When transferring a transfer medium in a curved line without causing a piece-to-piece contact, a biased force is applied to the transfer object in the lateral direction of the width of the transfer part. If it is completely absorbed as in the shape, no contact occurs, but it cannot be transferred in a curved shape.

  Therefore, when a transfer medium is transferred in a curved line without causing a piece hit, it is necessary to absorb an excessively biased force that causes a piece hit and reflect the force applied in the direction of transfer. At the same time, it is necessary to cause the transfer unit to quickly follow the movement in the direction in which force is applied in the housing. If these conditions are not satisfied, the image cannot be transferred in the intended direction.

  In addition, the transfer unit may be inclined or rotated with respect to the transfer target due to the biased force, the transfer unit may be tilted or rotated without limitation, or the transfer unit may be tilted or rotated with a slight bias. If the transfer part is unstable, such as tilting or rotating, for example, the transfer part may fluctuate and the transfer medium cannot be transferred linearly, requires a force to maintain the initial position, or tilts or rotates. An extra force (operation) different from the force required for normal use, such as a force for returning the transferred portion as it is, is required, and the usability deteriorates.

  In summary, when transferring the transfer medium in a straight line, the transfer part absorbs the force biased to the left and right in the width direction of the transfer part with respect to the transfer medium, and transfers the transfer medium in a curved line. Reflects the force applied in the direction to transfer by absorbing excessively biased force that causes contact, and causes the transfer unit to quickly follow the movement in the direction in which force is applied in the housing. If the above condition is satisfied, the transfer medium can be transferred as intended without causing any contact, and if it can be stabilized at the initial position, no extra force (operation) other than use is required, and the usability is markedly improved. To improve.

  That is, the transfer tool according to the present invention absorbs excessive forces in the vertical direction and the twist direction transmitted from the casing by elastically deforming the connecting portion at the tip. Therefore, when transferring a transfer medium mainly linearly, a condition for absorbing a force biased to the left and right in the width direction of the transfer portion with respect to the transfer target is satisfied. Further, the force that cannot be absorbed by the elastic deformation at the connecting portion is transmitted to the restricting portion.

  In the restricting portion, the force attenuated by the connecting portion is transmitted and elastically deformed to come into contact with the support portion, and the amount of elastic deformation of the connecting portion is restricted by contact with the support portion. In other words, the connecting portion absorbs a force that causes a single contact, and the force that cannot be absorbed by elastic deformation at the connecting portion is applied as a force applied in the direction of transfer when trying to transfer in a curved shape. Transmits force by contacting the support.

  Therefore, when a transfer medium is transferred mainly in a curved line, a condition for reflecting the force applied in the direction to transfer by absorbing an excessively biased force that causes one-sided contact is satisfied. In addition, since the tip portion absorbs a reaction force from the transfer target with respect to an excessive force applied from the casing, only the force applied in the direction to be transferred is reflected as a result.

  And the connecting part of the tip part is elastically restored promptly after elastic deformation, and a restricting part is provided at the tip part to restrict the elastic deformation amount of the connecting part by contacting the support part. Therefore, the condition for causing the transfer unit to quickly follow the movement in the direction in which the force is applied in the housing is satisfied.

  As described above, the transfer tool according to the present invention includes the transfer portion that includes the support portion and the tip portion, so that the force transmitted by the user from the housing is stepwise, and in the vertical direction, the twist direction, and the left and right directions. While absorbing in a well-balanced direction, the force required for use is reliably transmitted and can be stabilized at the initial position.

  Further, as described above, the connecting portion between the support portion and the distal end portion is always accompanied by elastic restoration accompanying elastic deformation, and is provided with a restricting portion that restricts the amount of elastic deformation of the connecting portion. It is possible to stabilize the transfer medium at the initial position in the transfer state.

  The transfer tool of the present invention can be implemented by the first and second embodiments shown in FIGS. 1 to 4 show the first form, and FIGS. 5 to 9 show the second form. In the first embodiment, a configuration common to the second embodiment will be described, and only the configuration different from the first embodiment will be described in the second embodiment. Further, the entire transfer tool is not illustrated because it is not a characteristic configuration of the present application.

(First form)
The transfer tool includes a feed shaft portion in which a base material coated with a transfer medium is wound in a housing, a take-up shaft portion that winds the base material after being transferred to a transfer target, and a feed shaft portion and a take-up portion. And a transfer unit 1 that is partly exposed from the housing on a substrate conveyance path between the shaft unit and the shaft unit.

  In such a transfer tool 1, the transfer unit 1, which is a characteristic configuration of the present application, has the following configuration in the first embodiment shown in FIGS. 1 to 4. The transfer unit 1 includes a support unit 2 supported by the casing and a tip 3 supported by the support unit 2. The transfer portion 1 is formed by integral injection molding using a resin material such as POM (PolyOxyMethylene: polyacetal) or PP (PolyproPylen) for the support portion 2 and the tip portion 3.

  The support unit 2 has the following configuration. A support shaft (not shown) provided inside the left and right side surfaces of the housing and provided with a key is provided with a mounting portion 2c formed with a pivot support hole 2b formed with a non-rotating groove 2a. ing.

  A connecting portion 2A that extends to an exposed opening (not shown) of the transfer portion 1 in the housing is integrally provided on the outer peripheral surface of the mounting portion 2c. Since the connecting portion 2A is made of a resin material and has a plate shape as described above, the connecting portion 2A is mainly in the vertical direction and in some cases in the twisting direction via a regulating portion 3B and a coupling portion 2e described later. Elastic deformation and elastic recovery.

  Further, guide plates 2d are provided at both ends of the connecting portion 2A in the width direction of the base material conveying surface to prevent the transfer tape passing therethrough from derailing from the connecting portion 2A. A connecting portion 3A of the distal end portion 3 to be described later is extended.

  At the center of the back surface of the connecting portion 2A in the width direction of the base material conveyance surface, it is coupled with a restricting portion 3B of the tip portion 3 described later, that is, in this example, the support portion 2 and the restricting portion 3B are in contact with each other, A coupling portion 2e for prohibiting the elastic deformation of the regulating portion 3B beyond necessity is provided.

  On the other hand, the tip 3 has the following configuration. The guide plate 2d of the support portion 2 is provided with a connecting portion 3A formed in a curved shape that protrudes upward via an arm portion 3a that extends downward from the guide plate 2d. By forming the connecting portion 3A in a curved shape that protrudes upward, the amount of elastic deformation mainly in the twisting direction and in the vertical direction in the substrate transport direction can be increased.

  Further, the connecting portion 3A is connected to the connecting portion 2A via the arm portions 3a at both ends in the width direction of the base material transport surface, so that each of the both ends in the width direction of the base material transport surface is independent. Elastic deformation is possible. Therefore, by doing in this way, it is possible to surely suppress the one-sided contact while suppressing the wobbling of the casing at the time of operation, and to transfer in the intended curved shape.

  A transfer plate 3b is provided on the opposite side of the connecting portion 3A from the side on which the arm portion 3a is provided. Further, guide portions 3c having the same distance between the opposing surfaces of the guide plate 2d of the support portion 2 are formed at both ends of the upper surface of the transfer plate 3b in the substrate conveyance surface width direction.

  On the housing side of the transfer plate 3b, there is provided a restricting portion 3B that restricts the amount of elastic deformation of the transfer plate 3b in the left-right direction and torsional direction by contacting the back surface of the connecting portion 2A. As described above, the regulating portion 3B is coupled by the coupling portion 2e provided on the back surface of the connecting portion 2A, and both ends in the width direction of the regulating portion 3B abut against the connecting portion 2A due to excessive force in the twisting direction. Unnecessary elastic deformation (in the left-right direction) is prohibited.

  The transfer tool according to the first embodiment having the above-described configuration, for example, when an excessive force equal to the left and right of the substrate transport surface is applied from the housing to the transfer target, the excessive force is caused by elastic deformation of the connecting portion 3A. Absorb. An excessive force that cannot be absorbed by the connecting portion 3A is transmitted by elastically deforming the front of the connecting portion 2A downward (relative to the rear upward) via the restricting portion 3B and the connecting portion 2e. While being absorbed.

  When a force that is biased to the right of the substrate transport surface from the housing, for example, to the right, that is, a force that biases to the right and pushes downward is applied, the connecting portion 3A on the front right side in the housing operation direction is moved downward. Thus, the front left connecting portion 3A is elastically deformed upward to absorb this biased force.

  When the biased force is applied so that all the biased force is absorbed by the connecting portion 3A, the transfer is usually performed in a straight line, that is, the force is basically applied evenly on the left and right. However, the reaction force from the transfer target is not transmitted to the connecting portion 2A via the restricting portion 3B and the coupling portion 2e, and thus the transfer plate 3b. No contact occurs with respect to the transfer object.

  The force from the housing is also transmitted from the connecting portion 2A to the transfer plate 3b via the coupling portion 2e and the restricting portion 3B, but the connecting portion 2A is not directly elastically deformed by directly receiving the force from the housing. By receiving a force that cannot be absorbed by the connecting portion 3A from the transferred body via the coupling portion 2e and the restricting portion 3B, it is elastically deformed mainly in the vertical direction.

  That is, the connecting portion 2A is elastically deformed not by the force from the housing but by the reaction force from the transfer target (cannot be absorbed by the connecting portion 3A), so that there is no flickering feeling and moderate stability. Can be maintained.

  On the other hand, when the transfer is intentionally performed in a curved shape, i.e., intentionally left and right unevenly, for example, when the transfer is intentionally performed in an arc shape to the right, the connecting portion 3A is elastically deformed so that the left connecting portion 3A is relatively separated from the connecting portion 2A so that the right connecting portion 3A approaches the connecting portion 2A side.

  As described above, due to the elastic deformation of the connecting portion 3A, a force is applied to one end side in the width direction around the center in the width direction of the substrate conveyance surface while the transfer plate 3b is in close contact with the transfer target. The other side (right side) rotates in the casing operation direction (and thus the other end side is relatively opposite to the casing operation direction), that is, elastically deforms in the left-right direction. At this time, the transfer plate 3b and the restricting portion 3B are elastically deformed in the width direction on the lower side and relatively on the left side in the upper direction, that is, in the twist direction.

  If the transfer is intentionally performed in an arc shape, a force that is greater than the uneven force that causes left-right contact (in this case) is biased to the right. Is transmitted as a reaction force from the transfer plate 3b.

  The transfer plate 3b is intentionally subjected to the rightward force as a reaction force from the transfer target. This reaction force is transmitted to the restricting portion 3B via the transfer plate 3b. The restricting portion 3B is elastically deformed in the torsional direction until both ends in the width direction come into contact with the connecting portion 2A, but the connecting portion 2A absorbs the force in the vertical direction in the torsional direction via the coupling portion 2e.

  That is, regarding the vertical force of the elastic deformation in the torsional direction applied to the transfer plate 3b and the restricting portion 3B, the front of the connecting portion 2A (on the transfer plate 3b side) via the restricting portion 3B and the coupling portion 2e. Is absorbed by being elastically deformed in the downward direction and relatively upward in the rear direction, that is, in the vertical direction.

  In addition, when trying to transfer the arc further to the left side from the above state, the elastically deformed parts are quickly elastically restored and once returned to the initial state, and then elastically opposite to the above only in the left-right direction. Deform. Since the elastic restoration is instantly restored according to the force applied in the same manner as the elastic deformation is exerted according to the applied force, it can be operated as intended as a result.

  Thus, each part of the connecting part 2A of the support part 2, the connecting part 3A of the tip part 3 and the restricting part 3B is elastically deformed and elastically restored, so that one-sided contact does not occur and flexibly in the intended direction. Operation becomes possible, and the transfer medium can be transferred in a curved line.

  Then, when trying to transfer in a curvilinear shape, if an excessive force, that is, a force that cannot be absorbed by the connecting portion 3A (is not elastically deformed any more), the reaction force from the transfer object also increases. This is a force in the twisting direction and is greatly applied to the transfer plate 3b.

  At this time, the transfer plate 3b tends to be greatly elastically deformed in the torsional direction, but one end on the side where the force is applied contacts the back surface of the connecting portion 2A among both ends in the width direction of the restricting portion 3B. Thus, further elastic deformation in the twisting direction of the restricting portion 3B is prohibited.

  At this time, the reaction force from the transfer object is transmitted not only from the coupling portion 2e but also from the abutted end portion of the regulating portion 3B. In this case, the excessive force is absorbed by elastic deformation in the twisting direction. As a result, even when an excessively uneven right / left force is applied in the case of transferring in a curved line, it is possible to transfer in a curved line as described above.

  Of course, if the left and right unequal excessive force disappears and the right and left unequal appropriate force is restored, each part that had been elastically deformed until then can be quickly elastically restored (deformed) and transferred in a curved line. It is.

  As described above, the transfer tool of the present invention is provided with the connecting portion 2A on the support portion 2 and the connecting portion 3A and the restricting portion 3B on the distal end portion 3, so that each of them can independently receive excessive force from the casing. Excess reaction force from the transfer body is absorbed by elastic deformation, and the transfer plate 3b is always brought into close contact with the transfer target body, so that no contact occurs in either a linear shape or a curved shape.

  In addition, the transfer tool of the present invention is an elastic material in which the connecting part 2A of the support part 2, the connecting part 3A of the tip part 3 and the restricting part 3B are elastically deformed and quickly restored to the initial position according to the force applied. Since restoration is involved, it is possible to reliably operate in the direction intended by the user, such as repeating a curved line or a straight line.

(Second form)
The second embodiment shown in FIGS. 5 to 9 is that the connecting portion 2e is omitted in the support portion 2, and instead, a slope 2f and a guide valley portion 2g for guiding the regulating portion 3B in the left-right direction are formed. The point 3 is different from the first embodiment in that the guide peak 3d is formed and the guide 3c formed on the transfer plate 3b is omitted. In addition, the guide part 3c is only abbreviate | omitting in illustration, Comprising: You may exist in a 2nd form.

  The slope 2f is formed with a stepped portion projecting toward the front surface side with the contact point as a fulcrum at the center of the connecting portion 2A in the substrate conveyance surface width direction, and the widthwise center of the back surface side of the stepped portion is downward ( It protrudes in a mountain shape on the back surface side, and is inclined downward from this position toward both ends in the width direction.

  The guide valley portion 2g has a substantially V-shape in which the depression seen from the back side where the step portion is formed gathers rearward when the tip is the front as shown in FIG. 6 in the connecting portion 2A. It is formed in this valley part. And the regulation part 3B of the front-end | tip part 3 is made into the same substantially V shape which gathers to the said back, and the guide mountain part 3d is formed in this mountain part. The guide valley portion 2g and the guide mountain portion 3d constitute a guide portion.

  That is, the inclined surface 2f promptly guides the restricting portion 3B to one side in the width direction of the base material transport surface when the restricting portion 3B comes into contact, thereby causing elastic deformation in the twisting direction in the connecting portion 3A. Among them, the elastic deformation can be made quickly and flexibly in the left-right direction, and a further degree of freedom is provided for the elastic deformation of the restricting portion 3B so as not to be reflected in the connecting portion 2A.

  By doing so, in the second embodiment, since the restricting portion 3B is normally separated from the connecting portion 2A, the connecting portion 2A is not immediately affected by the elastic deformation from the connecting portion 3A or the restricting portion 3B. In addition, since the connecting portion 2A absorbs only a truly excessive and biased force, the sense of stability is improved.

  Further, if the configuration of the second embodiment, as described above, since the regulating portion 3B is normally separated from the connecting portion 2A, when transferring onto the transfer target that is inclined within the allowable range, Since the transfer plate 3b (the connecting portion 3A) is elastically deformed so as to be inclined obliquely along the inclined surface of the transfer object, the transfer plate 3b (connecting portion 3A) is used without causing any contact and without the user being aware of the inclined surface of the transfer object. Can do.

  In the second embodiment, excessive vertical and torsional force is applied so that the inclined surface 2f comes into contact with the restricting portion 3B from the housing, and excessive up and down and twisted such that the restricting portion 3B comes into contact with the inclined surface 2f from the transfer target. When a reaction force in the direction is applied, the restricting portion 3B is guided to the inclined surface 2f and the connecting portion 3A is quickly elastically deformed. Follow up reliably and further improve usability.

  Further, in the second mode, as described above, excessive vertical and horizontal forces that contact the inclined surface 2f and the regulating portion 3B, excessive vertical and horizontal forces that cause the regulating portion 3B to contact the inclined surface 2f from the transfer target, When a force in the left-right direction is applied, it is elastically deformed (elastic restoration) as follows, so that the usability is improved.

  That is, first, when the connecting portion 3A is elastically deformed in the vertical direction and the distal end portion 3 reaches the position of the guide valley 2g in the connecting portion 2A, the guide mountain portion of the distal end portion 3 (regulating portion 3B) is caused by the lateral force. 3d abuts against the valley surface of the guide valley portion 2g, and by this abutment, the tip portion 3 slides along the valley surface around the guide valley portion 2g so that the distal end portion 3 is left and right (one end in the width direction is forward, the other end is opposite). Quickly elastically deforms backward). As a result, excessive force in the left-right direction (and excessive left-right force in the twist direction) can be absorbed and the transfer plate 3b can be made to follow.

It is the perspective view which looked at only the transfer part of the transfer tool by the 1st form of the present invention from the side upper part. It is the perspective view which looked at only the transfer part of the transfer tool by the 1st form of this invention from the front upper direction. It is the perspective view which looked at only the transfer part of the transfer tool by the 1st form of this invention from the downward rear. It is the figure which looked at only the transfer part of the transfer tool by the 1st form of this invention from the plane direction. It is the perspective view which looked at only the transfer part of the transfer tool by the 2nd form of the present invention from the side upper part. It is the figure which looked at only the transfer part of the transfer tool by the 2nd form of this invention from the bottom face direction. It is the figure which looked at only the transfer part of the transfer tool by the 2nd form of this invention from the plane direction. It is the figure which looked at only the transfer part of the transfer tool by the 2nd form of this invention from the side surface direction. FIG. 6 is a perspective view taken along line AA in FIG. 5 of a transfer portion of a transfer tool according to a second embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Transfer part 2 Support part 2A Connection part 2e Coupling part 2f Slope 3 Tip part 3a Arm part 3b Transfer plate 3A Connection part 3B Control part

Claims (4)

A feeding shaft portion in which a base material coated with a transfer medium is wound in a housing, a winding shaft portion for winding the base material after being transferred to a transfer target, and a feeding shaft portion and a winding shaft portion. A transfer unit provided with a part exposed from the casing on the substrate transport path between the transfer unit and the transfer unit supported by the casing via the mounting unit. with a support portion that have a housing connection part and the guide plate provided on the substrate transport surface both widthwise ends of the connection portion is extended into the exposure opening of the transfer portion of the elastic deformation to the support portion from A connecting portion formed through an arm portion extending below the guide plate of the supporting portion, a transfer plate provided on the opposite side of the connecting portion from the side on which the arm portion is provided, and provided in the housing side of the transfer plate, regulations restricting the elastic deformation of the left-right direction and the twisting direction of the transfer plate by contact with the rear surface of the connecting portion part Transfer tool, characterized in that it comprises a distal portion having, a.   The transfer tool according to claim 1, wherein an inclined surface for moving the restricting portion from the contact portion is formed at a place where the support portion and the restricting portion at the tip end are in contact with each other.   The transfer tool according to claim 1, wherein a guide portion that guides movement of the tip portion in the width direction of the substrate transport surface is provided at a contact portion between the support portion and the restriction portion of the tip portion.   The transfer tool according to any one of claims 1 to 3, wherein the connecting portion of the tip portion is curved and is connected to the support portion at both ends in the width direction of the substrate transport surface.

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