JP3771247B2 - Hinge - Google Patents

Description

  The present invention relates to a hinge in which the other end of an arm is connected to the other end of a base by a lock lever.

  As a conventional hinge of this type, for example, there is one described in Patent Document 1 below. The hinge has a base and an arm. One end portion of the arm is connected to one end portion in the longitudinal direction of the base portion via a connecting mechanism so as to be rotatable and detachable in the longitudinal direction of the base portion. On the other hand, the other end of the base is formed with an engaging recess that opens toward the arm side, and the other end of the arm rotates to a predetermined mounting position in the direction in which the arm approaches the base. An engagement portion that fits into the engagement recess when formed is formed.

  A lock lever that is urged to rotate in one direction by a coil spring is rotatably provided at the other end of the base. A locking portion is provided at one end of the lock lever. This locking portion engages with the other end of the arm located at the mounting position when the lock lever rotates in one direction to a predetermined locking position, and moves in the other direction from the arm mounting position. On the other hand, when the lock lever rotates in the other direction from the locking position, the arm is separated from the other end of the arm and allowed to rotate in the other direction.

  In the hinge having the above configuration, when the arm is removed from the base, the lock lever is first rotated in the other direction from the locking position. Next, the arm is separated and rotated so that the other end of the arm is separated from the other end of the base, and the engaging portion is escaped from the engaging recess. Thereafter, the arm is moved in the longitudinal direction of the base to release the connected state by the connecting mechanism between the base and the arm. Thereby, an arm can be removed from a base.

No. 6-29414

  In the above-described conventional hinge, the lock lever may rotate in the other direction from the locking position due to an unexpected accident. In such a case, the arm may come off from the base, and the door attached to the arm may fall off the casing.

The present invention has been made to solve the above problems, and a first aspect of the present invention is provided between a base, an arm, one end of the base, and one end of the arm. A connecting mechanism that rotatably and detachably connects one end of the arm to one end of the base so that the other end of the arm approaches and separates from the other end of the base, and the base A lock lever rotatably provided at the other end of the arm, and a rotation urging means for urging and urging the lock lever in one direction, the bases facing each other in the rotation direction of the arm, and One of the other end portions of the arm is formed with an engagement recess that is open toward the other, and the other is opened in the engagement recess when the arm is rotated close to a predetermined mounting position. An engaging portion that enters from the portion is provided, and the lock lever One end is engaged with the other end of the arm located at the attachment position when the lock lever is rotated in the one direction to the predetermined locking position by the urging force of the rotation urging means. The arm is prevented from rotating in a direction away from the mounting position, and when the lock lever is rotated in the other direction from the locking position, the arm is separated from the other end of the arm, In the hinge provided with a locking portion that allows the other end portion of the arm to pivot apart and the engagement portion to escape from the engagement recess, and either the base portion or the arm; between the locking lever, the locking lever against the biasing force of the rotation urging means locking maintaining means for preventing the pivoting into the other direction provided et been from the locking position, the Lock maintaining means is attached to the arm. The pivot member is a pivot member provided so as to be pivotable between a lock maintaining position and an unlock position. When the pivot member is pivoted to the lock maintaining position, the other end of the pivot member is Engage with the lock lever positioned at the locking position to prevent the lock lever from rotating in the other direction from the locking position. An end portion of the lock lever is spaced apart from the lock lever positioned at the lock position, and the lock lever is allowed to turn in the other direction from the lock position .
In this case, the upper Symbol arm, the rotating member is a cam portion formed impinging per se elastic force of the cam unit converts the elastic force of the pivot member to turn biasing force, It is desirable that the rotating member be urged in the direction from the unlocked position toward the lock maintaining position by the rotating urging force and maintained at the lock maintaining position.
The cam portion converts the elastic force of the rotation member into a rotation urging force when the rotation member is positioned closer to the lock maintaining position than the central portion of the cam portion. To rotate the rotating member to the lock maintaining position, and when the rotating member is positioned closer to the unlocking position than the center of the cam portion, the elastic force of the rotating member is rotated. It is desirable that the rotation member is converted into a force and the rotation member is rotated to the unlocking position by the rotation urging force.
A second aspect of the present invention is provided between a base, an arm, one end of the base and one end of the arm, and the other end of the arm approaches the other end of the base. A connecting mechanism that rotatably and detachably connects one end portion of the arm to one end portion of the base portion so as to be separated from each other, a lock lever provided rotatably at the other end portion of the base portion, A rotation urging means for urging and urging the lock lever in one direction, and the base and the other ends of the arms facing each other in the rotation direction of the arm are opened toward the other. The other side of the lock lever is provided with an engagement portion that enters into the engagement recess when the arm approaches and rotates to a predetermined mounting position. The lock lever is urged by the turning urging means. Prevents the arm from rotating in a direction away from the mounting position by engaging with the other end of the arm positioned at the mounting position when rotated in one direction to a predetermined locking position. When the lock lever is rotated in the other direction from the locking position, the other end of the arm is separated and rotated by being separated from the other end of the arm, so that the engaging portion is In the hinge provided with a locking portion that allows escape from the engaging recess, the lock lever is moved from the locking position to the lock lever between one of the base and the arm and the lock lever. Lock maintaining means for preventing rotation in the other direction against the urging force of the rotation urging means is provided, and the lock maintaining means has a lock maintaining position and a lock releasing position in the longitudinal direction on the base. A straight line between A movable member provided so as to be engaged with the lock lever positioned at the locking position when the movable member is moved to the lock maintaining position and from the locking position of the lock lever. When the lock lever is prevented from rotating in the other direction and moved to the unlock position, the lock lever is moved away from the lock position in the other direction. It is characterized by allowing movement.

  According to the present invention having the above-described characteristic configuration, it is possible to prevent an accident in which the lock lever 6 is rotated clockwise by an unexpected accident, and as a result, the arm 5 is dropped from the base portion 2.

Hereinafter, embodiments of the present invention will be described with reference to FIGS.
1 to 12 show a first embodiment of the present invention. As shown in FIGS. 1-7, the hinge 1 of this embodiment is provided with the base 2 and the arm 5 like the well-known thing. The base 2 is attached to the inner surface of the side wall of a housing (not shown) such as a chiffon with the longitudinal direction oriented in the horizontal direction. The arm 5 is detachably attached to the base 2 and is rotatably connected to a door that opens and closes the opening of the housing.

  The base 2 is composed of a fixing member 3 and an adjustment member 4. The fixing member 3 is stretched between a pair of side plate portions 31 and 31 and upper end portions of the pair of side plate portions 31 and 31 (hereinafter, the upper and lower portions mean the upper and lower portions in FIGS. 1 to 7). The top plate portion 32 and a pair of attachment plate portions 33 and 33 projecting from the lower end portions of the side plate portions 31 and 31 so as to be separated from each other. And as for the fixing member 3, the attachment plate parts 33 and 33 are being fixed to the side wall inner surface of a housing in the state which orient | assigned the longitudinal direction to the depth direction of the housing. Each side wall portion is provided at one end portion (left end portion in FIGS. 1 to 7; hereinafter referred to as a distal end portion and the other end portion is referred to as a proximal end portion) of the side plate portions 31 and 31 positioned on the opening side of the housing. A groove 34 extending from the distal end surface of 31 to the proximal end side is formed. At the base end portion of the top plate portion 32, a corrugated surface portion 35 is formed which is composed of a number of protrusions extending in a direction orthogonal to the longitudinal direction of the base portion 2. The wavy surface portion 35 is formed with a screw hole 36 penetrating therethrough.

  The adjustment member 4 is formed in a cross-sectional “U” shape by a pair of side plate portions 41, 41 and a top plate portion 42 spanned between the upper end portions of the pair of side plate portions 41, 41. Inside, the side plate portions 31 and 31 and the top plate portion 32 of the fixing member 3 are inserted from the lower open portion. A long hole 43 is formed at a position of the top plate portion 42 facing the screw hole 36. A fixing bolt 101 is inserted into the long hole 43, and the fixing bolt 101 is screwed into the screw hole 36. Therefore, by tightening the bolt 101, the top plate portion 42 is fixed to the top plate portion 32, and as a result, the adjustment member 4 is fixed to the fixing member 3. In addition, a corrugated surface portion (not shown) made up of a number of ridges similar to the ridges constituting the corrugated surface portion 35 is formed at a location facing the corrugated surface portion 35 on the lower surface of the top plate 42. The adjustment member 4 is fixed to the fixing member 3 so as to be immovable in the longitudinal direction of the base 2 by the surface portion being brought into contact with the waved surface portion 35. However, the position of the adjustment member 4 in the longitudinal direction of the base 2 can be adjusted within the range of the length of the long hole 43 by loosening the bolt 101. The position of the adjustment member 4 in the direction orthogonal to the side plate 41 (the vertical direction of the housing) is regulated by the inner surfaces of the side plates 41 and 41 coming into contact with the outer surfaces of the side plates 31 and 31.

  A reinforcing shaft 102 is stretched between the end portions of the side plate portions 41 and 41. The reinforcing shaft 102 is reinforced so that the distance between the side plate portions 41 and 41 is constant. The reinforcing shaft 102 is inserted into the groove 34 so as to be movable in the longitudinal direction of the base 2. Therefore, the reinforcing shaft 102 does not get in the way when adjusting the position of the adjustment member 4 in the longitudinal direction (longitudinal direction of the base 2). On the other hand, between the rear end portions of the side plate portions 41, 41, a support shaft 103 having an axis line in a direction orthogonal to the side plate portion 41 is suspended. The lock lever 6 is rotatably supported by the rear end portions of the side plate portions 41 and 41 via the support shaft 103. The lock lever 6 will be described later.

  The arm 5 is formed in a “U” shape in cross section by a pair of side plate portions 51, 51 and a top plate portion 52 spanned between the upper end portions of the pair of side plate portions 51, 51. The top plate portion 42 and the side plate portion 41 of the adjustment member 4 constituting the base portion 2 can be inserted from the lower open portion. The distal end portion of the arm 5 and the distal end portion of the adjustment member 4 are coupled to each other via a coupling mechanism 7 so as to be rotatable. In other words, on the outer surfaces of the front end portions of the side plate portions 41 and 41 of the adjustment member 4, projecting shaft portions (connection shaft portions) 44 having a circular cross section projecting in a direction orthogonal to the side plate portions 41 are formed so that their axes coincide with each other. Has been. The two protruding shaft portions 44, 44 may be constituted by both end portions of one shaft member provided through the side plate portions 41, 41. On the other hand, a support hole (support recess) 53 extending in the longitudinal direction of the arm 5 is formed on the distal end side of the side plate portion 51 of the arm 5. The rear end portion of the support hole 53 is opened to the lower surface of the side plate portion 51 through the open groove 54. As shown in FIG. 3, the protruding shaft portion 44 is inserted into the support hole 53 through the open groove 54, so that the distal end portion of the arm 5 can be rotated to the distal end portion of the adjustment member 4 (base portion 2). When the arm 5 rotates in the direction of the arrow, the rear end portion approaches the rear end portion of the base portion 2, and when the arm 5 rotates in the direction opposite to the arrow, the rear end portion is the base portion 2. Separate from. Moreover, when the protruding shaft portion 44 abuts against the end portion on the front end side of the support hole 53, the front end portion of the arm 5 cannot move rearward with respect to the front end portion of the adjustment member 4, and the top plate portions 42, 52 It is connected so as to be immovable in an orthogonal direction (left and right direction of the housing).

  An engagement shaft (engagement portion) 8 having a circular cross section is stretched between the rear end portions of the side plate portions 51 and 51 of the arm 5. The engagement shaft 8 is disposed in parallel with the protruding shaft portion 44. An open recess (introduction portion) 45 is formed at a location facing the engagement shaft 8 in the rotational direction of the arm 5 on the upper surface of the side plate portions 41, 41 of the adjustment member 4. An engaging recess 46 is formed at the bottom of the open recess 45. The opening recess 45 and the engagement recess 46 are engaged when the arm 5 is rotated in the direction of the arrow in FIG. 3 (the direction approaching the substrate 2) with the protruding shaft 44 abutting against the tip of the support hole 53. The shaft 8 is arranged so as to be able to enter the engaging recess 46 through the open recess 45 until it contacts the bottom surface. The engagement recess 46 has a width in the longitudinal direction of the base 2 that is substantially the same as the outer diameter of the engagement shaft 8. Accordingly, the arm 5 cannot move in the longitudinal direction of the base 2 in a state where the engagement shaft 8 enters the engagement recess 46. On the other hand, the open recess 45 has a side surface located on the distal end side of the base portion 2 upward from the engagement recess 46 so that the width in the longitudinal direction of the base portion 2 increases from the engagement recess 46 toward the upper side (the top plate 42 side). It inclines so that it may go ahead of the base 2 as it leaves | separates. Therefore, the width of the open recess 45 in the longitudinal direction of the base portion 2 is wider than the outer diameter of the engagement shaft 8, and when the engagement shaft 8 comes out of the engagement recess 46 and enters the open recess 45, It can be moved forward. The arm 5 can also move to the front of the base 2 by the amount that the engagement shaft 8 can move to the front of the base 2, and when the arm 5 moves to the front of the base 2, the projecting shaft 44 is formed in the support hole 53. It moves to the rear end side and can escape from the support hole 53 through the open groove 54. The open recess 45 may be formed in a tapered shape by inclining the side surface located on the proximal end side of the base portion 2 in the opposite direction to the side surface located on the distal end side of the base portion 2.

  As shown in FIG. 11, the lock lever 6 has a pair of side plate portions 61, 61 and a top plate portion 62 spanned between the upper end portions of the side plate portions 61, 61. It is formed in a U shape. Lower portions on the front end side of the side plate portions 61, 61 are inserted between the side plate portions 41, 41 of the adjustment member 4. As described above, the side plate portions 61 and 61 are rotatably supported by the side plate portions 41 and 41 via the support shaft 103 disposed in parallel with the axis of the protruding shaft portion 44. A coil spring (turning biasing means) 9 is wound around the support shaft 103. The lock spring 6 is biased to rotate counterclockwise (one direction) in FIGS. 1 to 5 by the coil spring 9. On the outer surface of each side plate portion 61 of the lock lever 6 is formed a locking projection 63 that protrudes in a direction perpendicular to the side plate portion 61 (a direction parallel to the support shaft 103). As shown in FIG. 2 (A), each locking projection 63 (only one locking projection 63 is shown) abuts against the base end surface of the side plate 41 of the adjustment member 4, so that the lock lever 6 is further counterclockwise. It cannot be rotated. Hereinafter, the rotation position of the lock lever 6 at this time is referred to as a standby position.

  A cam surface 64 is formed on the upper end of each side plate portion 61 of the lock lever 6. The cam surface 64 is arranged so that the engaging shaft 8 abuts when the arm 5 is rotated so that the rear end portion thereof approaches the base portion 2 in a state where the lock lever 6 is located at the standby position. Moreover, the cam surface 64 rotates the lock lever 6 in the clockwise direction (the other direction) against the urging force of the coil spring 9 when the arm 5 is further rotated in a state where the engagement shaft 8 is in contact with the cam surface 64. It is configured to let you. Therefore, when the arm 5 is rotated in the direction of the arrow in FIG. 3 around the protruding shaft portion 44 fitted to the tip of the support hole 53, the lock lever 6 is automatically rotated clockwise by the engagement shaft 8. Be made. When the engagement shaft 8 reaches just before it hits the bottom surface of the engagement recess 46, the engagement shaft 8 gets over the cam surface 64. Then, the lock lever 6 is rotated counterclockwise by the biasing force of the coil spring 9.

  A concave portion 65 extending rearward in the horizontal direction is formed in a portion of each side plate portion 61 of the lock lever 6 that extends downward from the cam surface 64. Of the surfaces defining the recess 65, the upper surface is a locking portion 66, and the lower surface is a pressing portion 67. When the lock lever 6 is rotated counterclockwise by the coil spring 9 after the arm 5 approaches and rotates and the engaging shaft 8 gets over the cam surface 64, the locking portion 66 of the engaging shaft 8 moves. It hits the top of the outer peripheral surface and pushes it down. Then, the engagement shaft 8 is brought into contact with the bottom of the engagement recess 46. Therefore, unless the lock lever 6 is rotated clockwise against the urging force of the coil spring 9, the arm 5 does not move upward so as to be separated from the base portion 2. Of course, when the engagement shaft 8 enters the engagement recess 46, the movement of the arm 5 with respect to the longitudinal direction of the base portion 2 is prevented. In addition, the tip of the arm 5 is prevented from moving in the vertical direction by the protruding shaft portion 44 being fitted into the support hole 53. As a result, the arm 5 is attached to the base 2.

  The rotation position of the arm 5 when the engagement shaft 8 abuts against the bottom surface of the engagement recess 46 is the attachment position, and the locking portion 66 causes the engagement shaft 8 to abut against the bottom of the engagement recess 46. The rotation position of the lock lever 6 at the time is the locking position. When the lock lever 6 is located at the locking position, the locking protrusion 63 is slightly separated rearward from the base end surface of the side plate 41 of the adjustment member 4. Therefore, when the lock lever 6 is located at the locking position, the lock shaft 6 is urged downward to press the lock lever 6 against the lower surface of the engagement recess 46. As a result, the arm 5 is maintained at the mounting position without play.

  When the arm 5 is located at the mounting position, most of the base end side of the top plate portion 62 of the lock lever 6 protrudes rearward from the top plate portion 52 of the arm 5. The lock lever 6 can be rotated clockwise against the urging force of the coil spring 9 by pushing the projecting top plate 62 downward. Therefore, the top plate part 62 has a function as a handle for rotating the lock lever 6 in the clockwise direction. When the lock lever 6 is rotated clockwise from the locking position, the pressing portion 67 pushes the lower portion of the outer peripheral surface of the engagement shaft 8 upward as shown in FIG. The pressing portion 67 has such a dimension that the engaging shaft 8 can be pressed and moved upward until at least the center (axis) of the engaging shaft 8 protrudes upward from the engaging recess 46. In particular, in this embodiment, the entire engaging shaft 8 has a dimension (the length in the longitudinal direction of the base portion 2) sufficient to escape from the engaging recess 46 to the open recess 45.

  When the arm 5 is rotated to the attachment position and attached to the base 2, the arm 5 can be detached from the base 2 if the lock lever 6 is erroneously turned clockwise from the locking position. When the arm 5 is detached from the base 2, the door falls off from the housing. In order to prevent such an accident, a lock maintaining member (rotating member) 10 serving as a lock maintaining unit is used between the arm 5 and the lock lever 6 in the hinge 1.

  The lock maintaining member 10 is for maintaining the lock lever 6 in the locked position, and is formed in a substantially U shape as a whole by a metal wire having a circular cross section having both rigidity and elasticity of steel or the like. . At both ends of the lock maintaining member 10, shaft portions 11, 11 are formed with the axes aligned with each other. Each shaft portion 11 has its axis line oriented in a direction perpendicular to the side plate portion 51 of the arm 5, and a portion slightly below the upper end at the intermediate portion in the longitudinal direction of the side plate portion 51 is on the outer surface side of the side plate portion 51. It penetrates so that it can turn toward the inner surface side and can move in the axial direction of the shaft portion 11. Accordingly, the lock maintaining member 10 is connected to the arm 5 so as to be rotatable about the shaft portion 11.

  An engagement shaft portion 12 extending in parallel with the shaft portion 11 is provided at the intermediate portion of the lock maintaining member 10. A transverse groove 55 that crosses the top plate portion 52 is formed at the rear end portion of the top plate portion 52 of the arm 5. The bottom of the transverse groove 55 reaches a location slightly below the upper end of the side plate portion 51 (a location that is substantially the same as the shaft portion 11 in the vertical direction of the side plate portion 51). The transverse groove 55 is arranged so that the engaging shaft portion 12 enters the transverse groove 55 when the lock maintaining member 10 is rotated in the clockwise direction in FIGS. 1 to 5 around the shaft portion 11. When the engagement shaft portion 12 enters until it hits the bottom of the transverse groove 55, the lock maintenance member 10 is substantially parallel to the top plate portion 52 when the lock maintenance member 10 is viewed from a direction orthogonal to the side plate portion 51. . Hereinafter, the position of the lock maintaining member 10 at this time is referred to as a parallel position.

  A locking recess 68 is formed at the upper end of the side plate portion 61 of the lock lever 6. The locking recess 68 is disposed so as to face the transverse groove 55 when the arm 5 is positioned at the mounting position and the lock lever 6 is positioned at the locking position. In addition, when the lock maintaining member 10 is rotated to the parallel position side, the engagement shaft portion 12 enters the engagement recess portion 68 and the engagement shaft portion 12 is inserted into the engagement recess portion 68 immediately before the parallel position. It arrange | positions so that it may hit against a bottom part. Hereinafter, the position of the lock maintaining member 10 when the engagement shaft portion 12 hits the bottom of the engagement recess 68 is referred to as a lock position. In a state where the engagement shaft portion 12 enters the locking recess 68, that is, in a state where the engagement shaft portion 12 is located at the lock position, when the lock lever 6 is rotated clockwise, the locking recess 68 facing the base end side of the base portion 2. The side faces the engaging shaft portion 12 and tries to push and move the lock maintaining member 10 toward the base end side of the base portion 2. However, the lock maintaining member 10 is prevented from moving to the base end side of the base portion 2 when the shaft portion 11 penetrates the side plate portion 51 of the arm 5. Therefore, the lock lever 6 is prevented from rotating clockwise by the lock maintaining member 10.

  Further, in the hinge 1, it is considered that the lock maintaining member 10 is prevented from coming out of the locking recess 68 and easily coming off the lock maintaining position. Therefore, the cam part 56 is formed in the part continuing from the location where the axial part 11 of each side-plate part 51 was provided so that rotation was possible. The cam portion 56 has an arc shape protruding outward when viewed from a direction orthogonal to the top plate portion 52, and the interval between the cam portions 56, 56 is set at both end portions of the cam portion 56 (the longitudinal direction of the base portion 2). Narrow at both ends) and widest at the center. The central portion of the cam portion 56 is located at the same position as the shaft portion 11 in the longitudinal direction of the base portion 2. Therefore, when the lock maintaining member 10 is rotated, the cam portion 56 is a portion that is connected so as to be orthogonal to the shaft portions 11, 11 of the lock maintaining member 10 (this portion is substantially parallel to the side plate portion 51. Therefore, in the following, it will be referred to as a parallel portion.) The distance between the 13 and 13 is varied widely against the elastic force of the lock maintaining member 10. As a result, the lock maintaining member 10 simply presses the parallel portion 13 against the cam portion 56 by the elastic force of the lock maintaining member 10 itself when the parallel portion 13 is located at the center portion of the cam portion 56. When the parallel portion 13 is displaced from the central portion of the cam portion 56 to any one end side with the rotation of the lock maintaining member 10, the elastic force of the lock maintaining member 10 itself is converted into a rotation biasing force by the cam portion 56. Then, it is turned to the side shifted by the turning biasing force. Accordingly, when the parallel portion 13 is displaced from the central portion of the cam portion 56 so that the engagement shaft portion 12 of the lock maintaining member 10 is directed toward the proximal end side of the base portion 2, the lock maintaining member 10 is directed toward the lock maintaining position. It can be rotated. When the parallel portion 13 is shifted from the central portion of the cam portion 56 to the opposite side, the engagement shaft portion 12 is rotated to the unlocking position where the engagement shaft portion 12 abuts against the top plate portion 52 as shown in FIG.

  Here, when the lock maintaining member 10 is located in the parallel position, the parallel portion 13 abuts against the end of the cam portion 56 on the proximal end side of the base 2 and is engaged by the elastic force of the lock maintaining member 10 itself. The shaft portion 12 is biased so as to go downward. Therefore, the engagement shaft portion 12 is pressed against the bottom of the locking recess 68 of the lock lever 6 by the elastic force of the lock maintaining member 10. Thereby, the lock maintaining member 10 is maintained at the position where the engagement shaft portion 12 abuts against the bottom of the locking recess 68, that is, the lock maintaining position. The lock maintaining member 10 is maintained in a state where the engagement shaft portion 12 abuts against the top plate portion 52 even when the lock maintaining member 10 is rotated to the unlock position.

  When the arm 5 is attached to the base 2 in the hinge having the above-described configuration, the adjustment member 4 is fixed to the fixing member 3 with the fixing bolt 101 in advance as shown in FIGS. Of course, the position of the adjustment member 4 in the longitudinal direction with respect to the fixing member 3 is appropriately adjusted. Further, the lock maintaining member 10 is rotated to the unlock position. And as shown in FIG. 3, the side plate parts 41 and 41 of the adjustment member 4 and the front-end | tip part of the top-plate part 42 are inserted between the front-end | tip parts of the side plate parts 51 and 51 of the arm 5, and the protrusion shaft part 44 is made into an open groove | channel. 54 is inserted into the rear end of the support hole 53. Next, the arm 5 is moved to the proximal end side of the base portion 2, and the protruding shaft portion 44 is abutted against the end portion on the distal end side of the support hole 53. Thereafter, the arm 5 is rotated around the protruding shaft portion 44 in the arrow direction (direction approaching the base portion 2) in FIG. When the arm 5 is rotated by an appropriate angle in the direction of the arrow, the engagement shaft 8 abuts against the cam surface 64 of the lock lever 6 as shown in FIG. When the arm 5 is further rotated in the direction of the arrow, the engagement shaft 8 enters the engagement recess 46 from the open recess 45 while rotating the lock lever 6 clockwise against the urging force of the coil spring 9. When the engagement shaft 8 reaches just before it hits the bottom of the engagement recess 46, the engagement shaft 8 gets over the cam surface 64. Then, the lock lever 6 is rotated counterclockwise by the coil spring 9, and the locking portion 66 presses the engagement shaft 8 downward and presses it against the bottom of the engagement recess 46. Thereby, the arm 5 is attached to the base 2 as shown in FIG. Thereafter, the lock maintaining member 10 is rotated from the unlock position to the lock maintaining position. This prevents the lock lever 6 from being turned clockwise due to an accident.

  In order to adjust the position of the arm 5 in the longitudinal direction of the base 2 and thereby adjust the position of the door in the same direction in a state in which the arm 5 is attached to the base 2, the arm 5 A window hole 57 is formed at a position of the top plate portion 52 facing the fixing bolt 101. Then, by inserting a screwdriver such as a screwdriver through the window hole 57 and loosening the fixing bolt 101, the position of the adjusting member 4 can be adjusted in the longitudinal direction of the base 2 while the arm 5 is attached. ing. Of course, after the position adjustment, the adjustment member 4 is fixed to the fixing member 3 and the arm 5 is fixed to the base 2 by tightening the fixing bolt 101.

  When removing the arm 5 from the base 2, the lock maintaining member 10 is first rotated from the lock maintaining position to the lock releasing position. Next, the top plate portion 62 of the lock lever 6 is pushed downward to rotate the lock lever 6 clockwise against the urging force of the coil spring 9. Then, as shown in FIG. 5, the pressing portion 67 of the lock lever 6 hits the lower portion of the outer peripheral surface of the engagement shaft 8 and lifts it upward. Then, the engagement shaft 8 is allowed to escape from the engagement recess 46 to the open recess 45. The open recess 45 has a width in the longitudinal direction of the base 2 wider than the outer diameter of the engagement shaft 8. Therefore, when the engagement shaft 8 enters the open recess 45, the engagement shaft 8 can move in the longitudinal direction of the base 2, and as a result, the arm 5 can move in the longitudinal direction of the base 2. Therefore, the arm 5 is moved from the base end side of the base portion 2 to the front side, and the engagement shaft 8 is moved to the rear end portion of the support hole 53. Thereafter, the arm 5 can be detached from the base 2 by moving the entire arm 5 upward away from the base 2.

  As described above, in the hinge 1, when the lock maintaining member 10 is positioned at the lock maintaining position, the lock lever 6 does not rotate clockwise (other direction) from the locking position. Therefore, it is possible to prevent the lock lever 6 from being rotated clockwise due to an unexpected accident, and it is possible to prevent an accident in which the arm 5 is dropped from the base portion 2.

  Next, a second embodiment of the present invention shown in FIGS. 13 to 15 will be described. Regarding this embodiment, only the configuration different from the above-described embodiment will be described, and the same configuration as the above-described embodiment will be denoted by the same reference numeral, and the description thereof will be omitted.

  In the hinge 1 'of the second embodiment, another lock maintaining member (movable member) 10' is used instead of the lock maintaining member 10 of the above embodiment. The lock maintaining member 10 ′ is provided on the base 2 so as to be movable in the longitudinal direction. That is, guide holes 37 and 47 are formed in the top plate portions 32 and 42 of the fixing member 3 and the adjustment member 4, respectively. The lock maintaining member 10 ′ is supported in the guide holes 37 and 47 so as to be movable in the longitudinal direction of the base 2. The lock maintaining member 10 ′ is movable between a lock maintaining position shown in FIG. 13 and a lock releasing position shown in FIGS. 14 and 15. The lock maintaining member 10 ′ has an elastic piece 15 extending toward the distal end side of the base 2, and a protrusion 16 is formed on the lower surface of the distal end portion of the elastic piece 15. When the lock maintaining member 10 ′ is positioned at the lock maintaining position and at the lock releasing position, the protrusion 16 has two recesses (not shown) that are disposed away from each other on the top surface of the top plate portion 42. Thus, the lock maintaining member 10 'is fixed to the lock maintaining position or the unlocking position with a moderation.

  The lock maintaining member 10 ′ has an insertion portion 17 that substantially contacts the lower surface of the top plate portion 32. As shown in FIG. 13, when the lock maintaining member 10 ′ is moved to the lock maintaining position in a state in which the lock lever 6 is rotated to the locking position, the insertion portion 17 has the top plate portion 32 and the pressing portion 67. The thickness is substantially the same as the distance between the top plate portion 32 and the pressing portion 67. Therefore, if the lock lever 6 is rotated clockwise against the urging force of a coil spring (not shown) with the lock maintaining member 10 'moved to the lock maintaining position, the pressing portion 67 is inserted. It strikes the top plate part 32 via the part 17. As a result, the lock lever 6 is prevented from rotating clockwise and the lock lever 6 is maintained in the locked position.

In the hinge 1 ', guide holes 37 and 47 are provided at the rear end portions of the top plate portions 32 and 42, and a screw hole 36 and a long hole are provided along with the provision of the lock maintaining member 10'. 43 is arranged on the front end side of the top plate portions 32 and 43. In addition, an operation hole 58 is formed in the top plate portion 52 of the arm 5 in order to move the lock maintaining member 10 ′ in the front-rear direction. Furthermore, the lock lever 6 is comprised by the side-plate parts 61 and 61 and the backplate part 69 spanned between the base end parts, and the upper end part of the backplate part 69 is toward diagonally up and back. The handle portion 69a extends. The lock lever 6 can be rotated clockwise against the biasing force of the coil spring 9 by pushing the handle portion 69a downward.
Although the coil spring 9 is not shown, the lock lever 9 is urged to rotate counterclockwise (one direction) by the coil spring, similar to the hinge 1 described above.

  In the hinge 1 ′, when the arm 5 is attached to the base 2, the lock maintaining member 10 ′ is positioned at the lock release position. Then, the arm 5 is attached to the base 2 in the same manner as the hinge 1 of the above embodiment. Thereafter, the lock maintaining member 10 'is moved to the lock maintaining position. Thereby, the attachment to the base 2 of the arm 5 is completed. When removing the arm 5 from the base 2, the lock maintaining member 10 'is moved from the lock maintaining position to the lock releasing position. Thereafter, the arm 5 can be detached from the base 2 in the same manner as the hinge 1 of the above embodiment.

  FIG. 16 is a diagram showing a third embodiment of the present invention. The hinge 1 ″ shown in this figure is a modification of the hinge 1 of the first embodiment, so that the arm 5 can be attached to the base 2 with the lock maintaining member 10 positioned at the lock maintaining position. That is, when the arm 5 is rotated to the attachment position side in a state where the lock maintaining member 10 is located at the lock maintaining position, the engagement shaft 8 abuts against the cam surface 64 of the lock lever 6 and the lock is maintained. The lever 6 is rotated clockwise (in the other direction) against the urging force of the coil spring 9. When the engagement shaft 8 moves over the cam surface 64 downward, the lock lever 6 is counteracted by the urging force of the coil spring 9. It is rotated in the clockwise direction (one direction), so far as it is the same as the hinge 1 described above.

  However, in the hinge 1 ″, the cam surface 64 abuts against the engagement shaft portion 12 of the lock maintaining member 10 while the lock lever 6 is rotated counterclockwise to the locking position by the biasing force of the coil spring 9. The cam surface 64 is configured so that when the lock lever 6 is further rotated toward the locking position by the coil spring 9, the lock maintaining member 10 is moved so that the engagement shaft portion 12 moves upward. Rotate about the shaft portion 11 or elastically deform the lock member 10. When the lock lever 6 is rotated in one direction until just before the locking position, the cam surface 64 is separated from the engagement shaft portion 12, while The combined shaft portion 12 faces the locking recess 68. As a result, the engagement shaft portion 12 enters the locking recess 68 by the elastic force of the lock maintaining member 10 itself, and then the lock lever 6 rotates to the locking position. You On the other hand, when the lock maintaining member 10 is rotated to the lock maintaining position, the lock shaft 12 stops when the engaging shaft portion 12 abuts against the bottom surface of the locking recess 68. Therefore, in this hinge 1 ″, the arm 5 is fixed to the base portion 2. After the attachment, the trouble of rotating the lock maintaining member 10 from the unlocked position to the locked maintaining position can be saved. However, when removing the arm 5 from the base 2, the lock maintaining member 10 is rotated from the lock maintaining position to the lock releasing position. This is the same as the hinge 1 described above.

In addition, this invention is not limited to said embodiment, It can change suitably.
For example, in the above-described embodiment, the base 2 is constituted by two members, that is, the fixing member 3 and the adjusting member 4. However, for example, the fixing member 3 can be used as the base 2 as it is. In that case, a locking lever 6 is provided on the fixing member 3.
In the above-described embodiment, the protruding shaft portion 44 and the support hole 53 constituting the coupling mechanism 7 are provided in the adjusting member 4 and the arm 5 of the base portion 2, respectively. The support member may be provided in the adjustment member 4.
In the above embodiment, the locking portion 66 and the pressing portion 67 of the lock lever 6 are abutted against the engagement shaft (engagement portion) 8 provided at the base end portion of the arm 5. The locking portion 66 and the pressing portion 67 may be abutted against the base end portion of the arm 5 other than the engagement shaft 8.
Further, in the hinge 1 ″ of the third embodiment, the cam surface 64 for rotating the lock lever 6 against the biasing force of the coil spring 9 when the arm 5 is rotated to the attachment position side. Is also used as a cam surface for rotating or elastically deforming the lock maintaining member 10 from the lock maintaining position to the unlocking position side. However, the lock maintaining member 10 is rotated or elastically moved from the lock maintaining position to the unlocking position side. The cam surface for deformation may be formed separately from the cam surface 64.

FIG. 1 is a view showing a first embodiment of the present invention in a state where an arm is attached to a base and a lock maintaining member is rotated to a lock maintaining position, and FIG. (B) is a plan view thereof, and FIG. 1 (C) is a front sectional view thereof. It is a figure which shows the same embodiment in the state before attaching an arm to a base, Comprising: FIG. 2 (A) is the front view, FIG.2 (B) is the front sectional drawing. It is a figure which shows the embodiment in the state which connected the front-end | tip part of the arm to the front-end | tip part of a base so that rotation was possible, Comprising: FIG. 3 (A) is the front view, FIG.3 (B) is the front sectional drawing. It is. It is a figure which shows the embodiment in the state which made the engagement shaft contact | abut to a lock lever, Comprising: FIG. 4 (A) is the front view, FIG.4 (B) is the front sectional drawing. FIG. 3 is a front sectional view showing the embodiment in a state where an engagement shaft is pushed up by a lock lever. It is a perspective view which shows the same embodiment in the state which attached the arm to the base and rotated the lock maintenance means to the lock release position. It is a disassembled perspective view of the same embodiment. It is a figure which shows the fixing member of the base used in the same embodiment, Comprising: FIG. 8 (A) is the front view, FIG.8 (B) is BB sectional drawing of FIG. 8 (A), FIG. FIG. 8C is a plan view thereof, and FIG. 8D is a perspective view thereof. It is a figure which shows the base adjustment member used in the same embodiment, Comprising: FIG. 9 (A) is the perspective view, FIG.8 (B) is the front view, FIG.8 (C) is the side view, FIG. 8D is a plan view thereof. It is a figure which shows the arm used in the embodiment, Comprising: FIG. 10 (A) is the perspective view, FIG.10 (B) is the front view, FIG.10 (C) is the top view, FIG. D) is a side view thereof. It is a figure which shows the lock lever used in the embodiment, Comprising: FIG. 11 (A) is the perspective view, FIG.11 (B) is the front view, FIG.11 (C) is the top view, FIG. (D) is a side view thereof. It is a figure which shows the lock maintenance member used in the embodiment, Comprising: FIG. 12 (A) is the perspective view, FIG.12 (B) is the top view, FIG.12 (C) is the front view. . FIG. 13A is a view showing a second embodiment of the present invention in a state where an arm is attached to a base and a lock maintaining member is moved to a lock maintaining position, and FIG. 13A is a front view thereof, FIG. B) is a plan view thereof, and FIG. 13C is a front sectional view thereof. It is a figure which shows the same embodiment in the state before attaching an arm to a base, Comprising: FIG. 14 (A) is the front view, FIG.14 (B) is the front sectional drawing. FIG. 15A is a front view of FIG. 15A and FIG. 15B is a front sectional view of the same embodiment in a state in which the distal end portion of the arm is rotatably connected to the distal end portion of the base portion. It is. It is a front sectional view showing a 3rd embodiment of this invention in the state in the middle of attaching an arm to a base.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hinge 1 'Hinge 1 "Hinge 2 Base 5 Arm 6 Lock lever 7 Connection mechanism 8 Engagement shaft (engagement part)
9 Coil spring (turning biasing means)
10 Lock maintenance member (rotating member)
10 'Lock maintenance member (movable member)
44 Projection shaft (connection shaft)
45 Open recess (introduction)
46 Engaging recess 53 Support hole (supporting recess)
56 Cam portion 66 Locking portion 67 Pressing portion 68 Locking recess

Claims (4)

One end of the base, provided between the base, the arm, one end of the base and one end of the arm, and the other end of the arm approaching and separating from the other end of the base A connecting mechanism for removably connecting one end of the arm to the head, a lock lever provided rotatably at the other end of the base, and rotating the lock lever in one direction. An engaging recess that is open toward the other is formed on one of the base and the other end of the arm that face each other in the direction of rotation of the arm. The other is provided with an engaging portion that enters the engaging recess from its opening when the arm is rotated close to a predetermined mounting position, and the lock lever is rotated at one end of the lock lever. Predetermined locking position by the biasing force of the biasing means And the other end of the arm positioned at the mounting position when the arm is rotated in the one direction to prevent the arm from rotating in a direction away from the mounting position, and the lock lever When the arm is rotated in the other direction from the locking position, the arm is separated from the other end of the arm, so that the other end of the arm is separated and rotated, so that the engagement portion escapes from the engagement recess. In the hinge provided with a locking part that allows to
The lock lever rotates between the one of the base and the arm and the lock lever in the other direction against the urging force of the rotation urging means from the locking position. locking maintaining means is provided we are to prevent,
The lock maintaining means is a rotating member provided at one end of the arm so as to be rotatable between a lock maintaining position and an unlocking position, and the rotating member is rotated to the lock maintaining position. Sometimes the other end of the rotating member engages with the lock lever located at the locking position to prevent the lock lever from rotating from the locking position in the other direction, and to the unlocked position. When rotating, the other end portion of the rotating member is separated from the lock lever located at the locking position, and allows the lock lever to rotate in the other direction from the locking position. To hinge. The arm is formed with a cam portion on which the rotating member abuts against its own elastic force, and the cam portion converts the elastic force of the rotating member into a rotating biasing force. 2. The hinge according to claim 1, wherein the hinge is biased in a direction from the unlocked position toward the lock maintaining position by a force to be maintained at the lock maintaining position . The cam portion converts the elastic force of the rotation member into a rotation urging force when the rotation member is positioned closer to the lock maintaining position than the central portion of the cam portion. To rotate the rotating member to the lock maintaining position, and when the rotating member is positioned closer to the unlocking position than the center of the cam portion, the elastic force of the rotating member is rotated. The hinge according to claim 2, wherein the hinge is converted into a force and the turning member is turned to the unlocking position by the turning biasing force . One end of the base, provided between the base, the arm, one end of the base and one end of the arm, and the other end of the arm approaching and separating from the other end of the base A connecting mechanism for removably connecting one end of the arm to the head, a lock lever provided rotatably at the other end of the base, and rotating the lock lever in one direction. An engaging recess that is open toward the other is formed on one of the base and the other end of the arm that face each other in the direction of rotation of the arm. The other is provided with an engaging portion that enters the engaging recess from its opening when the arm is rotated close to a predetermined mounting position, and the lock lever is rotated at one end of the lock lever. Predetermined locking position by the biasing force of the biasing means And the other end of the arm positioned at the mounting position when the arm is rotated in the one direction to prevent the arm from rotating in a direction away from the mounting position, and the lock lever When the arm is rotated in the other direction from the locking position, the arm is separated from the other end of the arm, so that the other end of the arm is separated and rotated, so that the engagement portion escapes from the engagement recess. In the hinge provided with a locking part that allows to
The lock lever rotates between the one of the base and the arm and the lock lever in the other direction against the urging force of the rotation urging means from the locking position. Locking means for blocking is provided,
The lock maintaining means is a movable member provided on the base portion so as to be linearly movable between a lock maintaining position and an unlocking position in the longitudinal direction thereof, and the movable member is moved to the lock maintaining position. Sometimes it engages with the lock lever located at the locking position to prevent the lock lever from rotating in the other direction from the locking position, and when it moves to the unlocking position, the locking position The hinge is characterized in that it is spaced apart from the lock lever located at a position and allows the lock lever to turn in the other direction from the locking position .

Images