JP6695593B2 - Handle device - Google Patents

Description

  The present invention relates to a handle device having a base having a front-rear direction and fixed to a door, a shaft portion that is pivotable with respect to the base, and a lever attached to the shaft portion.

  Conventionally, a handle including a casing (base) having a front-rear direction and fixed to a door, a shaft portion (lock shaft) rotatable about the casing, and an operation handle (lever) attached to the shaft portion. Devices are known.

  For example, in the handle device disclosed in Patent Document 1, the operation handle is movable so as to be in a standing state in which a door opening operation can be performed apart from the falling state where the door opening operation cannot be performed in the vicinity of the casing. In addition, it is possible to turn in the circumferential direction around the shaft portion in the standing state.

  The casing of this handle device has a housing recess for housing the operation handle in a fallen state. The handle device has a lock shaft (shaft portion) and a bearing portion between the casing and the operation handle.

  A cap member is fixed to the outside of the lock shaft, and a positioning protrusion that is fitted between the bearing portion and the cap member only when the operation handle is fitted to the housing recess of the casing. And a positioning groove are provided to prevent the operation handle from hitting the edge of the housing recess and damaging the edge of the housing recess.

JP, 2001-207696, A

  However, in this handle device, there is a possibility that the operation handle may rotate due to its own weight, and the operation handle may be fitted into the housing recess of the casing.

  An object of the present invention is to provide a handle device that can prevent the lever from turning due to its own weight.

  The present invention for solving the above-mentioned problems is directed to a base having a front-rear direction and fixed to a door, a shaft portion that can be swung by the base, and a lever attached to the shaft portion. It is a handle device including.

  The feature of the present invention is that the lever is movable so as to be in a standing state in which a door opening operation is possible by moving away from the base from a collapsed state in which a door opening operation cannot be performed close to the base. Is rotatable in the circumferential direction around the shaft center of the shaft portion, the shaft portion has a protrusion protruding radially outward of the shaft center of the shaft portion, the rear surface of the base. When the lever is rotated in the circumferential direction, a stopper that elastically deforms due to contact with the projection of the shaft portion is positioned, and the projection is locked to the stopper in a state where the stopper has returned from the elastic deformation, The turning of the lever is restricted.

  According to the handle device of the present invention, the shaft portion has a projection that projects radially outward of the shaft center of the shaft portion, and the rear surface of the base has a protrusion of the shaft portion when the lever is pivoted in the circumferential direction. A stopper that elastically deforms when the projection abuts is positioned, and when the stopper returns from the elastic deformation, the projection is locked by the stopper and the turning of the lever is restricted, so the lever does not turn by its own weight. it can.

The drawings show specific embodiments of the invention and include not only the essential components of the invention, but also alternative and preferred embodiments.
1 is a perspective view showing a door to which a handle device according to a first embodiment of the present invention is attached. The disassembled perspective view which looked at the handle device from the back side. The disassembled perspective view which looked at the handle device from the front side. The perspective view which looked at the handle device from the back side. The rear view of a handle apparatus. The front view which shows the relationship between the dimension of a case, the dimension of a bracket, and the dimension of the through hole of a door. Sectional drawing in the VII-VII line of FIG. The front view of the state which turned the lever in the standing state and turned the lever to the second position. The rear view of the state which turned the lever in the standing state and turned the lever to the second position. The perspective view which looked at the handle device of a 2nd embodiment from the back side.

  The details of the handle device according to the present invention will be described below with reference to the accompanying drawings. Further, the following embodiments include requirements that can be selectively adopted and requirements that can be appropriately combined, in addition to the requirements that are essential to the present invention.

[First Embodiment]
FIG. 1 is a perspective view of a door 1 to which a handle device 10 of a first embodiment according to the present invention is attached. The handle device 10 has a horizontal direction X, a vertical direction Y, and a thickness direction Z that intersect with each other, and has a base 11 fixed to the door 1, a shaft portion 40 rotatable with respect to the base 11, and a shaft. And a lever 50 attached to one end of the portion 40. In the following description, the front-back direction corresponds to the thickness direction Z, and the up-down direction corresponds to the vertical direction Y.

  The base 11 includes a case 20 located on the front side in the thickness direction Z, and a bracket 30 located on the rear side in the thickness direction Z and sandwiching the wall portion 3 of the door 1 with the case 20. ing. In the handle device 10, the case 3 and the bracket 30 sandwich the wall portion 3 and fix the base 11 to the door 1.

  The case 20 has a peripheral edge portion 21 located above the vertical direction Y and a peripheral edge in the horizontal direction X, a flat flat portion 22 located inside the peripheral edge portion 21, and below the flat portion 22 from the front. It has the 1st recessed part 23 which dents back. The peripheral edge portion 21 projects forward with respect to the flat portion 22 and the first concave portion 23, and an accommodation space (recessed portion) 21 a for accommodating the lever 50 is defined inside the peripheral edge portion 21. In other words, the case 20 has the accommodation space 21 a inside the peripheral portion 21. A notch 23a is formed above the rear portion of the first recess 23, as shown in FIG.

  The case 20 further includes a protruding portion 25 located inside the peripheral portion 21 and protruding rearward. Further, the case 20 has a tubular portion 26 that is located above the vertical direction Y and projects further rearward than the flat portion 22. When the protrusion 25 of the case 20 is inserted into the mounting hole 4 of the wall 3 of the door 1 (see FIG. 6) and the rear surface of the peripheral edge portion 21 is brought into contact with the front surface of the door 1, the protrusion 25 and the peripheral edge The step portion 25 a located between the portion 21 and the portion 21 fits into the mounting hole 4 of the door 1. As shown in FIG. 7, the case 20 has, for example, two screw holes 27 exposed on the rear surface side.

  The case 20 has a second recess 28 inside the tubular portion 26 and also has a third through hole 28 a that penetrates the upper portion of the case 20 in the thickness direction Z. The second recess 28 is recessed in a curved shape from the front to the rear. At the rear of the shaft portion 40, the lever 50 is in an upright state in contact with the curved second concave portion 28, which is rotatable in the circumferential direction with respect to the case 20 with respect to the axis 40x of the shaft portion 40. An upright state maintaining member 29 for maintaining the above is attached.

  As shown in FIGS. 2 and 3, the bracket 30 has, for example, a rectangular base portion 31 and a bent portion 32 that is bent forward from an end edge of the base portion 31 in the lateral direction X. It is formed by bending the metal material. The base portion 31 has, for example, two through holes 33 penetrating in the thickness direction Z.

  FIG. 6 shows the upper part and the lower part of the handle device 10, and omits the intermediate part located between the upper part and the lower part, and the wall of the door 1 is provided between the upper part and the lower part. The mounting hole 4 formed in the portion 3 is shown.

  The dimension L1 of the case 20 in the lateral direction X is larger than the dimension L2 of the mounting hole 4 in the lateral direction X, and the dimension L3 of the bracket 30 in the lateral direction X is larger than the dimension L2 of the mounting hole 4 in the lateral direction X. Therefore, with the wall portion 3 of the door 1 arranged between the case 20 and the bracket 30, the screws 61, 69 (see FIGS. 2 and 3) that pass the tip through the through hole 33 of the bracket 30, By being screwed into the screw hole 27 of the case 20, the wall portion 3 of the door 1 is fixed between the case 20 and the bracket 30.

  As shown in FIGS. 2, 3 and 7, the shaft portion 40 extends in the thickness direction Z and has a first through hole 41 penetrating in the lateral direction X at the front portion 42. In the rear portion 43 of the shaft portion 40, a rear end portion 44 having a quadrangular prism shape on the peripheral surface and a screw hole 45a having an opening 45 at the rear end edge and extending in the thickness direction Z are formed.

  In the rear portion 43 of the shaft portion 40, in order from the front side to the rear side, a first rotation restricting member 12 (having a square hole), a fall prevention member 13, a second rotation restricting member 82, and a lock. The lever 90, the washer 15, and the washer 16 are attached by the screw 17 that is screwed into the screw hole 45a. In other words, the shaft portion 40 has the first rotation restricting member 12, the falling prevention member 13, the second rotation restricting member 82, the lock lever 90, the washer 15, the washer 16, and the screw 17. ing.

  Each of the first rotation restricting member 12, the second rotation restricting member 82, and the lock lever 90 has a peripheral surface at the rear end portion 44 of a quadrangular prism so as to rotate together with the shaft portion 40 along the circumferential direction of the axis 40x. It has square holes 12a, 82a, 90a to be fitted, respectively.

  The lever 50 is formed so as to extend radially outward with respect to the shaft center 40x of the shaft portion 40. The base end portion 51 of the lever 50 including the axis 40x has opposing walls 52a and 52b that oppose each other in the lateral direction X, and the opposing walls 52a and 52b penetrate the opposing walls 52a and 52b in the lateral direction X, respectively. It has a second through hole 53. The lever 50 is attached to the case 20 in such a manner that the lever 50 can swivel with respect to the shaft portion 40 in the circumferential direction of the shaft center 49x of the pin 49 by the pin 49 press-fitted into the first through hole 41 and the second through hole 53. is there.

  The tip portion 54 of the lever 50 has a holding portion 55 that holds a lock mechanism 70 that is a cylinder lock. The lock mechanism 70 has a lock main body 71 having a keyhole 71a on the front side, and a claw portion 72 that is rotatable with respect to the lock main body 71. The claw portion 72 is attached to the rear end portion 73 of the lock body 71 with a screw 74.

  The holding portion 55 has a hole 55a located on the front side and exposing the front portion 75 of the lock mechanism 70, and a cylindrical portion 56 protruding rearward and fitted in the first recess 23 of the case 20. An engaging hole 56a through which the claw portion 72 of the lock mechanism 70 advances and retracts is formed in a part of the cylindrical portion 56. When the lever 50 is attached to the case 20, a part of the notch 23a of the first recess 23 of the case 20 and a part of the engagement hole 56a of the cylindrical part 56 are aligned (see FIG. 7).

  The lock mechanism 70 can rotate the claw portion 72 with respect to the lock body 71 by rotating the key 79 with the key 79 inserted in the key hole 71a, and the lever 50 is tilted to lock the lock mechanism 70. When switching to the locked state, the claw portion 72 projects from the engagement hole 56a and the notch 23a, and the claw portion 72 engages the lever 50 and the case 20 to restrict the switching of the lever 50 from the lying state to the standing state. On the other hand, when the lock mechanism 70 is switched to the unlocked state, the claw portion 72 retracts from the engagement hole 56a and the notch 23a, and the engagement between the lever 50 and the case 20 by the claw portion 72 is released to move the lever 50. Switching from the lying state to the standing state is allowed. When switching the lever 50 from the standing state to the lying state, the operation reverse to the above operation may be performed.

  The shaft portion 40 and the base end portion 51 of the lever 50 are attached to the case 20 so as to be movable in the thickness direction Z. More specifically, the shaft portion 40 and the base end portion 51 of the lever 50 are movable with respect to the case 20 in the thickness direction Z, and the rear end of the shaft portion 40 is located at the third through hole of the case 20. 28a, and the screw 17 is screwed into the screw hole 45a at the rear end of the shaft portion 40 to attach the shaft portion 40 and the lever 50 to the case 20. The rear end of the portion 40 is close to the rear end of the tubular portion 26 of the case 20, while the rear end of the shaft portion 40 is separated from the rear end of the tubular portion 26 of the case 20 when the lever 50 is in the upright state. A shaft 40 and a lever 50 are attached to the case 20.

  At the rear end of the tubular portion 26 of the case 20, there is formed a groove portion 26a which is recessed from the rear to the front (see FIG. 2). The groove portion 26a is formed so as to be continuous in the circumferential direction with respect to the axis 40x of the shaft portion 40. In the thickness direction Z, a coil spring (biasing member) 19 is inserted in the groove portion 26a located between the tubular portion 26 and the first rotation restricting member 12 (see FIG. 7). When the lever 50 in the lying state is switched to the standing state, the biasing force of the coil spring 19 allows the lever 50 to be easily switched from the lying state to the standing state.

  As shown in FIGS. 2, 3 and 7, the peripheral surface of the rear portion 43 of the shaft portion 40 is formed with a recess 46 extending continuously in the circumferential direction with respect to the shaft center 40x. The inner diameter of the fall prevention member 13 is smaller than the outer diameter of the recess 46 of the shaft portion 40, and the biasing force of the coil spring 19 causes the components such as the first rotation restricting member 12 to fall off the rear end edge of the shaft portion 40. Are prevented.

  Between the shaft portion 40 and the case 20, there is arranged a turning restricting portion 80 that restricts the lever 50 from turning at a certain angle or more in the circumferential direction with respect to the axis 40x of the shaft portion 40. The turning regulation portion 80 is defined by a regulation concave portion 81 formed in the cylindrical portion 26 of the case 20 and a regulation protrusion (projection) 83 formed in the second rotation regulating member 82.

  The regulation recess 81 is located on the rear side of the tubular portion 26 of the case 20, is located between the regulation wall portions 81b spaced apart in the circumferential direction of the axis 40x, and is recessed from the rear to the front. Has been formed. The restriction recess 81 is formed so as to extend along the circumferential direction of the axis 40x. In FIG. 5, an axis is provided between the regulation wall portion 81b located on the left side and the regulation wall portion 81b located at the center, and between the regulation wall portion 81a located on the right side and the regulation wall portion 81b located at the center. On a circular arc in the circumferential direction of the core 40x, a protruding portion 81c located in the middle of the regulating wall portion 81b and the regulating wall portion 81b is arranged. The protrusion 81c can prevent the lever 50 from stopping midway between a first position and a second position, which will be described later.

  The restriction protrusion 83 is formed so as to protrude from the peripheral edge of the base portion 82b of the second rotation restriction member 82, and to protrude in a manner of bending forward. The length dimension of the restriction protrusion 83 in the circumferential direction with respect to the axis 40x is smaller than the length dimension of the restriction recess 81 in the circumferential direction with respect to the axis. Further, the restricting protrusion 83 pivots with the shaft portion 40 with respect to the shaft center 40x, but the central portion of the moving region of the restricting protrusion 83 overlaps with the arrangement region of the elastically deforming portion 62 of the stopper 60, while At both sides of the moving region of the core 40x, the restricting protrusions 83 are arranged on the base 11 so as to be out of the region where the elastically deforming portions 62 of the stopper 60 are arranged.

  As shown in FIGS. 4 and 5, when the lever 50 is turned in the circumferential direction of the shaft center 40x, the rear surface of the base 11 is elastically deformed by the contact of the restriction projection (projection) 83 of the shaft portion 40. A stopper 60 is arranged.

  The stopper 60 has a screw 61 that is a fixed shaft portion, a cylindrical elastically deforming portion 62, and a cylindrical portion 63 located inside the elastically deforming portion 62. The cylindrical portion 63 is formed of, for example, a metal material or the like, and has a rigidity greater than that of the elastically deformable portion 62. The elastically deformable portion 62 has a through hole 62a penetrating in the thickness direction Z, and the cylindrical portion 63 is press-fitted into the through hole 62a. The elastically deformable portion 62 is formed of, for example, natural rubber, synthetic rubber, or the like.

  After the tip of the screw 61 is passed through the through hole of the cylindrical portion 63 press-fitted into the elastically deformable portion 62, the washer 64 is positioned between the head of the screw 61 and the bracket 30, and then the tip of the screw 61 is inserted through the through hole. The screw 61 is screwed into the screw hole 27 of the case 20 through the 33, and the stopper 60 is attached to the rear surface of the bracket 30 so that the elastically deformable portion 62 can rotate in the circumferential direction of the axis 61x of the screw 61 that is the fixed shaft portion. There is. In the state where the stopper 60 is attached to the bracket 30, the elastically deformable portion 62 abuts on the restriction protrusion 83.

  In the state where the stopper 60 has recovered from the elastic deformation, the restriction projection 83 is locked to the stopper 60, and the rotation of the elastic deformation portion 62 of the lever 50 is restricted. By rotating the lever 50 in the circumferential direction from this state, the restricting protrusion 83 swivels in the circumferential direction of the shaft portion 40 while deforming the elastically deformable portion 62, and the elastically deformable portion 62 moves in the circumferential direction of the axial center 40x of the screw 61. Turn.

  A lock lever 90 is attached to the rear portion of the shaft portion 40 of the handle device 10. The lock lever 90 has an extending portion 91 extending radially outward of the shaft center 40x of the shaft portion 40. When the lever 50 is in the lying state, and as shown in FIG. 1, when the lying state is simply changed to the standing state, the extending portion 91 extends to the door frame 2 beyond the end edge 1a of the door 1 and the door 1 Is restricted from being opened. Next, by rotating the lever 50 in the upright state counterclockwise as shown by an arrow R in FIG. 1, the lock lever 90 also rotates counterclockwise as shown by a chain double-dashed line in FIG. As a result, when the extending portion 91 of the lock lever 90 does not exceed the end edge 1a of the door 1, the door 1 is allowed to open (a door opening operation is possible). After that, if the front end portion of the lever 50 is pulled toward the front side (front side) of the door 1, the door 1 moves forward and the door 1 can be opened.

  In such a handle device 10, when the closed door 1 is opened, first, a finger is put on the tip portion 54 of the lever 50 in the lying state, and the tip portion 54 is pulled toward the front side, as shown in FIG. The lever 50 is set up.

  When the lever 50 is in the lying state, and when the lever 50 is in the first position in which the lever 50 in the lying state is in the standing state by simply pulling the tip end portion of the lever 50 to the front side, as shown in FIGS. 4 and 5, The restriction protrusion 83 contacts the elastically deformable portion 62 of the stopper 60, and slightly deforms the elastically deformable portion 62. In this state, the regulation projection 83 contacts the regulation wall portion 81b of the tubular portion 26, and the regulation projection 83 is located at one end 84b of the movement region 84 (in FIG. 5, the movement region 84 of the regulation protrusion 83). Of the central portion 84a is indicated by diagonal lines, and the regulation projection 83 is located at the end portion 84b located on the right side of both end portions 84b of the central portion 84a).

  Next, holding the tip end portion 54 of the lever 50, the lever 50 is turned counterclockwise as shown by an arrow R in FIG. 1 around the axis 40x of the shaft portion 40, and the tip end portion of the lever 50 is seen in a front view. 54 is moved to a second position where it is removed from the case 20. By such turning of the lever 50, the lock lever 90 also turns counterclockwise, and when the extended portion 91 of the lock lever 90 does not exceed the edge 1a of the door 1, the door opening operation of the door 1 is permitted. Becomes

  In the turning of the lever 50 from the first position to the second position, until the restriction projection 83 exceeds the central position 85 between the shaft center 40x of the shaft part 40 and the shaft center 61x of the screw 61 that is the fixed shaft part, The amount of deformation of the elastically deformable portion 62 by the restriction protrusion 83 gradually increases in proportion to the amount of movement of the lever 50 from the first position. When the restriction protrusion 83 exceeds the central position 85, the amount of deformation of the elastically deformable portion 62 due to the restriction protrusion 83 gradually decreases as the amount of movement of the lever 50 from the first position increases.

  When the lever 50 is in the second position, as shown in FIG. 9, the restricting protrusion 83 contacts the elastically deformable portion 62 of the stopper 60 and slightly deforms the elastically deformable portion 62. In this state, the regulation projection 83 is in contact with the regulation wall portion 81b of the tubular portion 26, and the regulation projection 83 is located at the other end 84b of the movement area 84 (in FIG. 9, the movement area 84 of the regulation projection 83). The central portion 84a is indicated by diagonal lines, and the regulation protrusion 83 is located at the left end portion 84b of the both end portions 84b of the central portion 84a).

  According to this handle device 10, when the lever 50 is swung from the first position to the second position and the elastically deformable portion 62 returns from the elastically deformed state, the restriction projection 83 is locked to the elastically deformable portion 62, and the second position Since the turning of the lever 50 at the position is restricted, it is possible to prevent the lever 50 from turning due to its own weight.

  Next, after closing the door 1, the front end portion 54 of the lever 50 at the second position is held, the lever 50 is rotated clockwise in a direction opposite to the arrow R in FIG. Is turned, and the front end portion 54 of the lever 50 is moved to a first position overlapping the case 20 in a front view. Due to such turning of the lever 50, the lock lever 90 also turns clockwise, the extending portion 91 of the lock lever 90 extends beyond the end edge 1a of the door 1 to the door frame 2, and the door 1 is opened. Regulated.

  In the turning of the lever 50 from the second position to the first position, until the restriction projection 83 exceeds the central position 85 between the shaft center 40x of the shaft part 40 and the shaft center 61x of the screw 61 that is the fixed shaft part, The amount of deformation of the elastically deformable portion 62 by the restriction protrusion 83 gradually increases in proportion to the amount of movement of the lever 50 from the first position. When the restriction protrusion 83 exceeds the central position 85, the amount of deformation of the elastically deformable portion 62 due to the restriction protrusion 83 gradually decreases as the amount of movement of the lever 50 from the first position increases.

  According to this handle device 10, when the lever 50 is swung from the second position to the first position and the elastically deformable portion 62 returns from the elastically deformed state, the restriction projection 83 is locked to the elastically deformable portion 62, and the second position Since the turning of the lever 50 at the position is restricted, it is possible to prevent the lever 50 from turning.

  In addition, when the lever 50 is in the laid-down state, the base 11 has the housing space (recess) 21a for housing a part of the lever 50, so that the lever 50 projects to the front side in the laid-down state. The amount can be reduced and the aesthetic appearance of the handle device 10 can be improved.

  Further, a lock lever 90 extending radially outward of the shaft center 40x is fixed to the rear portion of the shaft portion 40, and the lock lever 90 pivots in the circumferential direction with respect to the shaft center 40x, and the lock lever 90 moves in the circumferential direction of the shaft center 40x. When the lever 50 is turned, and the lever 50 is in the laid state, and when the lever 50 is moved to the first position in the upright state by moving only the front end portion 54 of the lever 50 in the laid state, the lock lever 90 is locked. By extending beyond the edge 1a of the door 1 to the door frame 2, the opening of the door 1 is restricted, and the lever 50 at the first position in the upright state is pivoted in the circumferential direction so that the second state in the upright state is increased. When the lever 50 is moved to the position, the lock lever 90 does not exceed the edge 1a of the door 1 and the door 1 is allowed to open, and when the lever 50 is moved from the first position to the second position. Until the lever 50 exceeds the intermediate position between the first position and the second position, the amount of elastic deformation of the elastic deformation portion 62 of the stopper 60 gradually increases as the lever 50 turns, and the intermediate position is changed to the intermediate position. When it exceeds, the amount of elastic deformation of the elastic deformation portion 62 of the stopper 60 gradually decreases as the lever 50 turns. Therefore, it is possible to prevent the lever 50 from stopping at the intermediate position, and it is possible to prevent the lever 50 from turning in the opposite direction when the restriction projection 83 exceeds the intermediate position.

Between the shaft portion 40 and the base 11, there is arranged a turning restriction portion 80 for restricting the lever 50 from turning at a certain angle or more in the circumferential direction with respect to the axis 40x of the shaft portion 40,
The turning restricting portion 80 is defined by a restricting recess 81 formed in the base 11 and a restricting protrusion 83, and the restricting protrusion 83 moves as the lever 50 turns in the circumferential direction of the shaft center 40x of the shaft portion 40. Yes, the deformation amount of the elastic deformation portion 62 is the largest at the central position 85 of the movement region 84, the deformation amount of the elastic deformation portion 62 gradually decreases as the distance from the central position 85 increases, and the elastic deformation occurs at the end portion 84b of the movement region 84. When the amount of deformation of the portion 62 is minimized and the regulating projection 83 is located at the end portion 84b of the moving region 84, the lever 50 is in the first position or the second position. Therefore, when the lever 50 is in the first position, the turning of the lever 50 is stopped. Therefore, when the lever 50 is moved from the standing state to the lying state, a part of the lever 50 may hit the peripheral edge portion 21 of the case 20. Can be prevented.

  The stopper 60 includes a screw 61 that is a fixed shaft portion and a cylindrical elastically deforming portion 62. The elastically deforming portion 62 contacts the regulating projection 83 by the screw 61, and the elastically deforming portion 62 surrounds the screw 61. Is attached to the base 11 so as to be pivotable in the direction, and the regulation projection 83 pivots in the circumferential direction of the shaft center 40x of the shaft portion 40 by the pivoting of the lever 50 in the circumferential direction, and the elastic deformation portion 62 causes the elastic deformation part 62 in the shaft center 61x of the screw 61. Turn in the circumferential direction. Therefore, it is possible to prevent the restriction projection 83 and the elastically deformable portion 62 of the stopper 60 from being worn.

[Second Embodiment]
FIG. 10 is a perspective view of the handle device 10 according to the second embodiment of the present invention as viewed from the back side. The elastically deformable portion 62 of the stopper 60 of the handle device 10 uses, for example, a coil spring.

  In addition, in the above-described embodiment, the handle device 10 in which the stopper 60 includes the screw 61 that is the fixed shaft portion and the elastically deformable portion 62 has been described. However, the present invention is not limited to this, and the stopper 60 may be provided with another member, or may be composed of only the elastically deformable portion 62.

  Moreover, what used the handle apparatus 10 for the door 1 was demonstrated in embodiment mentioned above. However, the present invention is not limited to this, and the handle device 10 may be used for the movable wall that is movable with respect to the fixed body.

The present invention described so far can be organized at least as follows.
A handle device 10 including a base 11 fixed to the door 1 and having a thickness direction Z that is a front-rear direction, a shaft portion 40 that can be swung by the base 11, and a lever 50 attached to the shaft portion 40. The lever 50 is movable so as to move from a fallen state in which the door opening operation cannot be performed close to the base 11 to a standing state in which the door opening operation can be performed apart from the base 11, and when the lever 50 is in the standing state, The shaft 40 can be rotated in the circumferential direction about the axis 40x of the part 40, and the shaft 40 has a restricting projection (projection) 83 that projects radially outward of the axis 40x of the shaft 40. When the lever 50 is rotated in the circumferential direction, the stopper 60 that is elastically deformed by the contact of the restriction protrusion 83 of the shaft portion 40 is located at the position, and when the stopper 60 is returned from the elastic deformation, the restriction protrusion 83 is The lever 50 is locked by the stopper 60, and the turning of the lever 50 is restricted.

Further, the present invention has at least the following embodiments.
(1) The base 11 has a case 20 located at the front, and the case 20 has an accommodation space 21a that is a concave portion that is recessed from the front to the rear, and a peripheral edge portion 21 that is located at the peripheral edge of the accommodation space 21a. However, when the lever 50 is in the lying state, part of the lever 50 is housed in the recess.
(2) A lock lever 90 extending radially outward of the shaft center 40x is fixed to the rear portion of the shaft portion 40, and the lock lever 90 pivots in the circumferential direction of the shaft center 40x as the lever 50 pivots in the circumferential direction. When the lever 50 is in the laid state and when the lever 50 is moved to the first position in the upright state by moving only the front end portion 54 of the lever 50 in the laid state, the lock lever 90 locks the door 1. Opening of the door 1 is restricted by extending beyond the end edge 1a of the door to the door frame 2, and the lever 50 at the first position in the upright state is pivoted in the circumferential direction to the second position in the upright state. When the lock lever 90 is moved, the lock lever 90 does not exceed the edge 1a of the door 1 and the door 1 is allowed to open. When the lever 50 is moved from the first position to the second position, the lever 50 is moved. Until the position exceeds the intermediate position between the first position and the second position, the amount of elastic deformation of the stopper 60 gradually increases with the turning of the lever 50, and when it exceeds the intermediate position, the lever 50 turns with the turning. The amount of elastic deformation of the stopper 60 gradually decreases.
(3) Between the shaft portion and the base 11, there is arranged a turning restriction portion 80 for restricting the lever 50 from turning a predetermined angle or more in the circumferential direction with respect to the axis 40x of the shaft portion 40. Reference numeral 80 is defined by a restriction recess 81 formed in the base 11 and a restriction projection (projection) 83, and the restriction projection 83 is moved by the turning of the lever 50 along the circumferential direction of the shaft center 40x of the shaft portion 40. The amount of elastic deformation of the stopper 60 is largest at the central position 85 of the moving region 84, and the amount of elastic deformation of the stopper 60 gradually decreases as the distance from the central position 85 increases, and the amount of elastic deformation of the stopper 60 gradually decreases at the end 84b of the moving region 84. When the regulating projection 83 is located at the end portion 84b of the moving region 84, the amount of elastic deformation of the lever is the smallest, and the lever 50 is in the first position or the second position.
(4) The stopper 60 has a screw 61 that is a fixed shaft portion and a cylindrical elastically deformable portion 62. The elastically deformable portion 62 comes into contact with the restriction projection 83 by the screw 61, and the elastically deformable portion 62 is screwed. 61 is attached to the base 11 so as to be rotatable in the circumferential direction of the axis 61x of the shaft 61, and the regulation projection 83 is swung in the circumferential direction of the axis 40x of the shaft 40 by the rotation of the lever 50 in the circumferential direction. Rotates in the circumferential direction of the axis 61x of the screw 61.

1 Door 1a Edge 2 Door frame 10 Handle device 11 Base 20 Case 21 Peripheral part 21a Recessed part (accommodation space)
40 Shaft 40x Shaft Center 50 Lever 60 Stopper 61 Screw (Fixed Shaft)
62 elastically deformable portion 80 turning regulation portion 81 regulation concave portion 83 regulation projection 84 movement region 84b end portion 85 central position 90 lock lever Z thickness direction (front-back direction)

Claims (5)

In a handle device having a base fixed in a door having a front-rear direction, a shaft portion that can be swung on the base, and a lever attached to the shaft portion,
The lever is movable so as to move from a fallen state in which a door opening operation is not possible close to the base to a standing state in which the door opening operation can be performed apart from the base, and the lever is movable in the standing state. It is possible to turn in the circumferential direction around the shaft center of the part,
The shaft portion has a protrusion that projects radially outward of the shaft center of the shaft portion,
A stopper, which is elastically deformed when the protrusion of the shaft portion abuts when the lever is rotated in the circumferential direction, is located on the rear surface of the base,
The handle device, wherein the protrusion is locked to the stopper and the turning of the lever is restricted in a state where the stopper returns from elastic deformation. The base has a case located at the front,
The case has a recessed portion that is recessed from the front to the rear, and a peripheral edge portion that is located at the peripheral edge of the recessed portion,
The handle device according to claim 1, wherein a part of the lever is housed in the recess when the lever is in the lying state. A lock lever extending in a radial outward direction of the shaft center is fixed to a rear portion of the shaft portion,
With the rotation of the lever in the circumferential direction, the lock lever rotates in the circumferential direction of the shaft center,
When the lever is in the lying state, and when the lever is moved to the first position in the standing state by moving only the front end portion of the lever in the lying state forward, the lock lever is By extending to the door frame beyond the edge of the door, opening the door is regulated,
When the lever is moved to the second position in the upright state by pivoting the lever in the first position in the upright state in the circumferential direction, the lock lever should pass over the edge of the door. And the door is allowed to open,
When the lever is moved from the first position to the second position, the lever is rotated and the stopper is elastically deformed until the lever exceeds an intermediate position located between the first position and the second position. The handle device according to claim 2, wherein the amount of elastic deformation of the stopper gradually decreases with the turning of the lever when the amount increases gradually and exceeds the intermediate position. Between the shaft portion and the base, a swivel restricting portion is disposed for restricting the lever from swiveling in a circumferential direction with respect to the axis of the shaft portion by a predetermined angle or more,
The turning restriction portion is defined by a restriction recess formed in the base and the protrusion,
The protrusion is moved by the turning of the lever along the circumferential direction of the shaft center of the shaft portion,
The amount of elastic deformation of the stopper is the largest at the center position of the moving region, the amount of elastic deformation of the stopper gradually decreases with increasing distance from the central position, and the amount of elastic deformation of the stopper at the end of the moving region becomes smaller. The handle device according to claim 3, wherein the lever is in the first position or the second position when the amount is the smallest and the protrusion is located at the end of the movement region. The stopper has a fixed shaft portion and a cylindrical elastically deformable portion, the elastically deformable portion contacts the protrusion by the fixed shaft portion, and the elastically deformable portion moves in the circumferential direction of the fixed shaft portion. Rotatably attached to the base,
4. The rotation of the lever in the circumferential direction causes the projection to pivot in the circumferential direction of the shaft center of the shaft portion, and the elastically deformable portion pivots in the circumferential direction of the fixed shaft portion. Handle device according to.

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