JP5448730B2 - Closing device and door device provided with the same - Google Patents

Description

  The present invention relates to a door closing device for forcibly and quietly closing a door that opens and closes an entrance and an entrance of a room.

  As a conventional closing device, there is one having an apparatus main body 101 attached to a door A and a guided member 102 attached to a door frame B as shown in FIG. In the conventional door closing device 100, when the door A is closed, the arm (104) of the guided member 102 is captured by the arm 104 of the device main body 101, and the arm 104 is rotated to the door A side to rotate the device main body. By pulling the 101 and the pin 102a toward each other, the door A is guided to the closed state. In the apparatus main body 101, there is provided a rotating (rotary type) buffering mechanism that prevents a sudden rotation of the arm 104 by constantly applying a resistance force to the rotating shaft of the arm 104. Door A closes gently (Patent Document 1).

JP 2007-120140 A

  In the conventional door closing device 100 described above, the device main body 101 having an arm 104 and a rotating buffer mechanism is attached to the door A. For this reason, in addition to the load of the door A, the load of the apparatus main body 101 is always excessively applied to the hinge 103 supporting the door A. As a result, the deterioration of the hinge 103 over time is accelerated. Further, since the resistance force by the buffer mechanism always acts on the rotation shaft of the arm 104, the resistance force also works when the door A is opened. For this reason, a strong force is required when opening the door A.

  In order to reduce the load applied to the hinge 103, it is desirable to attach the guided member 102 to the door A and attach the apparatus main body 101 to the door frame B. However, the rotating buffer mechanism is generally large in size, and the apparatus main body 101 provided with the mechanism is necessarily enlarged. For this reason, it is difficult to attach the apparatus main body 101 to the door frame B with a limited installation space.

  The problem to be solved by the present invention is to provide a door closing device capable of quietly closing a door by suppressing a sharp rotation of the door when closing and opening the door with a weak force when opening the door. An object of the present invention is to realize the apparatus main body without increasing the size thereof, to allow the apparatus main body to be attached to a door frame, and to provide a door device provided with such a door closing device.

[Closing device]
To solve the above problem,
The door closing device of the present invention is a door closing device (1) for forcibly closing a door (3) connected to a door frame (2) via a hinge (5) so as to be rotatable in the horizontal direction.
An apparatus body (6) attached to the door frame (2);
A guided member (7) fixed to the door (3),
The device body (6)
A fixing element (40) fixed to the upper edge of the opening of the door frame (2);
A closed door supported by the fixed element (40) so as to be pivotable in the horizontal direction, and configured to engage and disengage from the guided member (7) as the door (3) rotates. An arm (20);
When the guided member (7) is not engaged with the closed arm (20), the closed arm (20) is held in a standby posture waiting for engagement with the guided member (7). After the guide member (7) is engaged with the door closing arm (20), the door closing arm (20) is elastically moved to forcibly rotate the door closing arm (20) in a direction to close the door (3). An urging mechanism (50) for applying a force;
When the closing arm (20) is rotated in the direction to close the door (3), in order to suppress the rotation, when the closing arm (20) is rotated in the opposite direction, A direct acting buffer mechanism (60) for applying a force to the closing arm (20) to promote movement,
The fixing element (40)
A flat rectangular parallelepiped housing (70) fixed to the door frame,
The closing arm (20), the urging mechanism (50), and the buffer mechanism (60) are housed together in the housing (70),
An opening (75) through which the closing arm (20) enters and exits is formed in a portion of the housing (70) facing the door (3),
A notch (76) for receiving the guided member (7) when the door (3) is closed is formed at the bottom of the housing (70).

  By configuring as described above, the door is closed when the guided member is not engaged with the door closing arm, that is, when the door is opened larger than the opening degree at which the door closing arm and the guided member can be engaged. The arm is held in a standby posture by the elastic force of the urging mechanism. When the door is closed, the guided member approaches the apparatus main body together with the door, and the guided member engages with the closing arm when the opening degree of the door reaches a predetermined opening degree. Thereafter, when the door is further closed, the closing arm starts to rotate from the standby position in the direction of closing the door. At the same time, the elastic force of the urging mechanism starts to work as a force for forcibly turning the door closing arm in the direction of closing the door. As the closing arm is forcibly rotated, the door is forcibly closed. At this time, when the drag of the buffer mechanism starts to be effective so as to suppress the rotation of the door closing arm, the door is prevented from moving suddenly. As a result, the door is forcibly and quietly closed. On the other hand, when the door is opened from a state in which the door is completely closed, the door closing arm starts to rotate in a direction in which the door is in the standby posture as the door is opened. At the same time, the repulsive force of the buffer mechanism starts to act as a force for rotating the door closing arm in the direction of opening the door, and the rotation of the door closing arm in the direction of opening the door is promoted. As a result, when the door is manually opened, it is not necessary to apply a large force to the door handle. Since the direct acting type is used as the buffer mechanism, the device main body has a door closing device that can close the door quietly when closing and open the door with a weak force when opening the door. This can be achieved without increasing the size.

  Further, the door arm, the biasing mechanism, and the buffer mechanism are housed together in a flat rectangular housing fixed to the door frame, and an opening through which the closing arm enters and exits at a portion facing the door of the housing. By providing the portion, it is possible to reduce the size of the fixed element fixed to the door frame, and it is possible to realize a door closing device having a simple appearance form in which the movable portion is only the closing arm.

In the closing device (1) of the present invention,
The closing arm (20)
And integrally having a cam portion (14) in which an elastic force by the biasing mechanism (50) and a buffering force by the buffer mechanism (60) act in opposite directions,
The biasing mechanism (50) includes a spring (52) that applies an elastic force to the first cam surface (14A) of the cam portion (14),
The buffer mechanism (60) is rotated with the rotation of the second cam surface (14B) of the cam portion (14) when the door closing arm (20) rotates in a direction to close the door (3). And a direct acting damper (62) that generates a braking force by being compressed and repelled in the horizontal direction,
It is desirable that the urging mechanism (50) and the buffer mechanism (60) are provided in series with each other with the cam portion (14) interposed therebetween.

  According to said structure, the number of parts can be reduced by integrating the cam part for making the elastic force by an urging | biasing mechanism, and the buffering force by a buffering mechanism act on a closing arm with a closing arm. By reducing the number of parts housed in the housing, the housing can be reduced in size. In addition, by providing the biasing mechanism and the shock-absorbing mechanism in series with each other with the cam portion in between, the width dimension in the short direction of the housing can be reduced, so the door frame has a narrow and limited installation space. This is extremely advantageous in attaching the apparatus main body.

The upper frame member (2A) of the door frame (2) is provided with a door stop (4B) against which the upper edge of the door (3) hits when the door (3) is closed,
The casing (70) is preferably attached to a space (S) formed by lacking a part of the door stop (4B) of the upper frame member (2).

  According to this structure, a housing | casing can be attached to the lower surface part of an upper frame member using the installation space per door. Further, by designing the structure of the housing so that the upper surface portion of the housing just fits in the groove in which the door stop of the upper frame member is fitted, the mounting accuracy of the housing with respect to the upper frame member can be improved.

  Further, the door arm (20) is entirely in the housing (70) when the door (3) is closed, and the distal end side of the door arm (20) is the housing (70) when in the standby posture. ) From the opening (75) to the door (3) side. According to this configuration, when the door is closed, the guided member is engaged with the closing arm that is on standby with the front end side protruding from the opening of the housing to the door side as the door rotates. To do. Thereafter, when the door is further closed, the closing arm rotates in a direction to close the door, and when the door is closed, the closing arm is completely stored in the housing.

The guided member (7) includes a support portion (30) fixedly attached to the plate surface of the door (3) and a slider protruding upward from the tip end portion of the support portion (30). (31)
The closing arm (20) has a guide groove (22) extending in the rotational radius direction thereof,
When the door closing arm (20) is in the standby position, the tip of the slider (31) is received in the guide groove (22) as the door (3) rotates in the closing direction. It is desirable to be configured as described above.

Moreover, it is desirable that the apparatus main body (1) has an adjusting means (17) for adjusting the elastic force of the urging mechanism (50). Thereby, it is possible to adjust the rotational speed when the door is closed and the drag by the urging mechanism when the door is opened.
[Door device]
In order to solve the above problems, the door device of the present invention is:
A door frame (2), a door (3) connected to the door frame (2) via a hinge (5) so as to be pivotable in a horizontal direction, and a door closing device (forcibly closing the door (3)) 1) and a door device (10) comprising:
The closing device (1)
An apparatus body (6) attached to the door frame (2);
A guided member (7) fixed to the door (3),
The device body (6)
A fixing element (40) fixed to the upper edge of the opening of the door frame (2);
A closed door supported by the fixed element (40) so as to be pivotable in the horizontal direction, and configured to engage and disengage from the guided member (7) as the door (3) rotates. An arm (20);
When the guided member (7) is not engaged with the closed arm (20), the closed arm (20) is held in a standby posture waiting for engagement with the guided member (7). After the guide member (7) is engaged with the door closing arm (20), the door closing arm (20) is elastically moved to forcibly rotate the door closing arm (20) in a direction to close the door (3). An urging mechanism (50) for applying a force;
When the closing arm (20) is rotated in the direction to close the door (3), in order to suppress the rotation, when the closing arm (20) is rotated in the opposite direction, A direct acting buffer mechanism (60) for applying a force to the closing arm (20) to promote movement,
The fixing element (40)
A flat rectangular housing (70) fixed to the door frame (2);
The closing arm (20), the urging mechanism (50), and the buffer mechanism (60) are housed together in the housing (70),
An opening (75) through which the closing arm (20) enters and exits is formed in a portion of the housing (70) facing the door (3),
A notch (76) for receiving the guided member (7) when the door (3) is closed is formed at the bottom of the housing (70).

  By configuring as described above, the door is closed when the guided member is not engaged with the door closing arm, that is, when the door is opened larger than the opening degree at which the door closing arm and the guided member can be engaged. The arm is held in a standby posture by the elastic force of the urging mechanism. When the door is closed, the guided member approaches the apparatus main body together with the door, and the guided member engages with the closing arm when the opening degree of the door reaches a predetermined opening degree. Thereafter, when the door is further closed, the closing arm starts to rotate from the standby position in the direction of closing the door. At the same time, the elastic force of the urging mechanism starts to work as a force for forcibly turning the door closing arm in the direction of closing the door. As the closing arm is forcibly rotated, the door is forcibly closed. At this time, when the drag of the buffer mechanism starts to be effective so as to suppress the rotation of the door closing arm, the door is prevented from moving suddenly. As a result, the door is forcibly and quietly closed. On the other hand, when the door is opened from a state in which the door is completely closed, the door closing arm starts to rotate in a direction in which the door is in the standby posture as the door is opened. At the same time, the repulsive force of the buffer mechanism starts to act as a force for rotating the door closing arm in the direction of opening the door, and the rotation of the door closing arm in the direction of opening the door is promoted. As a result, when the door is manually opened, it is not necessary to apply a large force to the door handle.

  Further, the door arm, the biasing mechanism, and the buffer mechanism are housed together in a flat rectangular housing fixed to the door frame, and an opening through which the closing arm enters and exits at a portion facing the door of the housing. By providing the portion, the fixed element fixed to the door frame can be reduced in size, and in appearance, a door device including a door device having a simple appearance form in which the movable portion is only the door arm can be realized.

  In the door device of the present invention, the fixing element (40) is fixed to an end of the upper frame member (2A) of the door frame (2) opposite to the side on which the hinge (5) is attached. It is desirable to be attached. The fixing element is attached to the end of the door frame's upper frame member opposite to the hinge side, so that when the door is opened, the rebound force (restoring force) of the buffer mechanism is Can work as effectively as the power to promote the opening of. Therefore, even if the repulsive force (restoring force) of the buffer mechanism is weak, an effect of assisting the opening of the door when the door is opened can be obtained.

In the door device (1) of the present invention,
The closing arm (20)
And integrally having a cam portion (14) in which an elastic force by the biasing mechanism (50) and a buffering force by the buffer mechanism (60) act in opposite directions,
The biasing mechanism (50) includes a spring (52) that applies an elastic force to the first cam surface (14A) of the cam portion (14),
The buffer mechanism (60) is rotated with the rotation of the second cam surface (14B) of the cam portion (14) when the door closing arm (20) rotates in a direction to close the door (3). And a direct acting damper (62) that generates a braking force by being compressed and repelled in the horizontal direction,
It is desirable that the urging mechanism (50) and the buffer mechanism (60) are provided in series with each other with the cam portion interposed therebetween.

  According to said structure, the number of parts can be reduced by integrating the cam part for making the elastic force by an urging | biasing mechanism, and the buffering force by a buffering mechanism act on a closing arm with a closing arm. By reducing the number of parts housed in the housing, the housing can be reduced in size. In addition, since the biasing mechanism and the buffer mechanism are arranged in series with the cam portion interposed therebetween, the width dimension in the short dimension direction and the height direction of the casing can be reduced, so that the installation space is limited. This is extremely advantageous in attaching the apparatus main body to the door frame.

The upper frame member (2A) of the door frame (2) is provided with a door stop (4B) against which the upper edge of the door (3) hits when the door (3) is closed,
The casing (70) is preferably attached to a space (S) formed by lacking a part of the door stop (4B) of the upper frame member (2).

  According to this structure, a housing | casing can be attached to the lower surface part of an upper frame member using the installation space per door. Further, by designing the structure of the housing so that the upper surface portion of the housing just fits in the groove in which the door stop of the upper frame member is fitted, the mounting accuracy of the housing with respect to the upper frame member can be improved.

  Further, the door arm (20) is entirely in the housing (70) when the door (3) is closed, and the distal end side of the door arm (20) is the housing (70) when in the standby posture. It is desirable that it protrudes to the door (3) side from the opening portion. According to this configuration, when the door is closed, the guided member is engaged with the closing arm that is on standby with the front end side protruding from the opening of the housing to the door side as the door rotates. To do. Thereafter, when the door is further closed, the closing arm rotates in a direction to close the door, and when the door is closed, the closing arm is completely stored in the housing.

The guided member (7) includes a support portion (30) fixedly attached to the plate surface of the door (3) and a slider protruding upward from the tip end portion of the support portion (30). (31)
The closing arm (20) has a guide groove (22) extending in the rotational radius direction thereof,
When the door closing arm (20) is in the standby position, the tip of the slider (31) is received in the guide groove (22) as the door (3) rotates in the closing direction. It is desirable to be configured as described above.

  In the door device of the present invention, it is preferable that the device main body (1) has an adjusting means (17) for adjusting the elastic force of the biasing mechanism (50). Thereby, it is possible to adjust the rotational speed when the door is closed and the drag by the urging mechanism when the door is opened.

  According to the present invention, when the door is closed, the door is forcibly closed by the elastic force of the urging mechanism, and the door is quietly controlled by suppressing the steep rotation of the door by the resistance of the buffer mechanism. When the door is opened, the movement of the door is promoted by the repulsive force of the buffer mechanism, and the door can be opened with a weak force. By using the direct acting type as a buffer mechanism to suppress the steep movement of the door when closing and to promote the movement of the door when opening the door, the main body of the device is more than that of the conventional closing device Can be downsized. Thereby, the apparatus main body can be attached to the door frame.

The fragmentary perspective view which shows the form example of the door apparatus provided with the closing device of this invention Partial perspective view of the door device viewed from another direction Partial sectional view showing a portion where the device main body of the closing device is attached Exploded perspective view of the main body of the closing device Partial front view of door device AA sectional view of FIG. (A) The top view which shows the state in an apparatus main body when the closing arm of a closing device is in a standby position (B) The top view which shows the state in an apparatus main body when the closing arm of a closing device is in a stowed position (A) is sectional drawing which looked at the door apparatus just before the closing operation by a closing device was started from the lower part. (B) is sectional drawing which looked at the door apparatus after the closing operation by the closing apparatus was finished from the lower part. (A), (B) and (C) are explanatory diagrams of operations performed when the door closing arm is returned to the standby posture. The fragmentary perspective view which illustrates the door device to which the conventional closing device was attached

  The best mode for carrying out the present invention will be described below with reference to FIGS.

  FIG. 1 is a partial perspective view showing an example of an embodiment of a door device provided with the door closing device of the present invention. FIG. 2 is a partial perspective view of the door device of FIG. 1 viewed from another direction.

  The door device 10 includes a door frame 2 provided by being fitted to an opening of a building such as a doorway of a house, and a door 3 provided on the door frame 2 so as to be rotatable in a horizontal direction. The door frame 2 has an upper frame member 2A provided at the upper edge of the opening of the building, and vertical frame members 2L and 2R provided at the left and right side edges of the opening. The door 3 is rotatably connected to one of the two vertical frame members 2 </ b> L and 2 </ b> R (right side in the drawing) via a hinge 5. The vertical frame member 2 </ b> L and the upper frame member 2 </ b> A on the other side (right side in the drawing) of the door frame 2 are provided with door stops 4 </ b> A and 4 </ b> B that contact the edge of the door 3 when the door 3 is closed.

  The closing device 1 includes a device main body 6 attached to the upper frame member 2 </ b> A and a guided member 7 attached to the door 3. The apparatus main body 6 is attached in the vicinity of the vertical frame member 2L on the opposite side to the vertical frame member 2R to which the hinge 5 of the upper frame member 2A is attached.

  The guided member 7 is attached to the vicinity of the end portion (door end side) where the hinge 5 in the vicinity of the upper end of the back surface of the door 3 is not provided, corresponding to the installation position of the apparatus main body 6. The guided member 7 includes a support portion 30 fixedly attached to the plate surface of the door 3, and a rod-shaped slider 31 protruding upward from the distal end portion of the support portion 30. The slider 31 is elastically supported from below by a coil spring (not shown) built in the support portion 30.

  The apparatus main body 6 is fixed to the upper edge portion of the opening of the door frame 2, and is supported by the fixing element 40 so as to be rotatable in the horizontal direction. The closing arm 20 configured to be engaged with or disengaged from the door, and a standby posture in which the closed arm 20 waits for engagement with the guided member 7 when the guided member 7 is not engaged with the closed arm 20. (FIG. 7A) After the guided member 7 is engaged with the door closing arm 20, an elastic force is applied to the door closing arm 20 in order to forcibly rotate the door closing direction to close the door 3. When the closing arm 20 is rotated in the opposite direction to suppress the rotation when the closing mechanism 20 is rotated in the direction to close the door 3, A force is applied to the closing arm 20 to promote movement. That has a buffering mechanism 60 of the linear motion type, the.

  The fixing element 40 has a flat rectangular parallelepiped housing 70 fixed to the door frame 2. In the casing 70, the closing arm 20, the urging mechanism 50, and the buffer mechanism 60 are housed.

  The casing 70 is attached to a space S formed by missing a part of the door stop 4B of the upper frame member 2. On the upper surface of the housing 70, a protrusion 71e having a shape and size that fits just into the groove 2a into which the door stop 4B of the upper frame member 2 is fitted is formed (see FIGS. 4 and 6).

  An opening 75 through which the closing arm 20 enters and exits is formed at a portion of the housing 70 facing the door 3. A notch 76 is formed at the bottom of the housing 70 to receive the slider 31 of the guided member 7 when the door 3 is closed.

  The closing arm 20 has an arm main body 21 that extends in the radial direction from the center of rotation and protrudes and disappears from the opening 75 of the housing 70. A guide groove 22 is formed on the lower surface side of the arm main body 21 so as to extend in the longitudinal direction, that is, the rotational radius direction. The guide groove 22 extends from the distal end portion of the arm main body portion 21 to the central portion in the longitudinal direction. Then, when the door closing arm 20 is in the standby posture (FIG. 7A), the tip of the slider 31 moves from the tip of the door closing arm 20 into the guide groove 21 as the door 3 rotates in the closing direction. Configured to be accepted.

  Further, the door 3 is closed on the side of the arm main body 21 facing the door 3 even when the closed arm 20 is completely accommodated in the housing 70 (the state shown in FIG. 7B). Thus, a guide surface 20a for allowing the slider 31 to be guided into the guide groove 21 is formed. The guide surface 20a is a smooth concave curved surface curved in an arc shape (see FIG. 4).

  The closing arm 20 has a cam portion 14 on which an elastic force by the urging mechanism 50 and a buffering force by the buffering mechanism 60 act. The urging mechanism 50 and the buffer mechanism 60 are provided in series with each other with the cam portion 14 interposed therebetween, and the elastic force by the urging mechanism 50 and the buffer force by the buffer mechanism 60 act in opposite directions from both sides of the cam portion 14. It has a structure to do. The cam portion 14 is provided integrally with the base portion of the arm main body portion 21.

  The urging mechanism 50 includes a first slider 51 that linearly moves back and forth in the longitudinal direction of the housing 70, and a spring 52 that applies an elastic repulsive force to the first cam surface 14 </ b> A of the cam portion 14 via the first slider 51. And have.

  The buffer mechanism 60 includes a second slider 61 that linearly moves back and forth in the longitudinal direction of the housing 70, and a direct acting type that applies a braking force to the second cam surface 14B of the cam portion 14 via the second slider 61. And a damper 62. The damper 62 includes two damper units 62U and 62U arranged in parallel. Each damper unit 62U includes an output shaft 62a and a unit main body 62b that holds the output shaft 62a so as to advance and retract in the axial direction. In the unit main body 62b, a spring (not shown) that urges the output shaft 62a in the extending direction, and a resistance fluid (not shown) such as oil that applies a braking force to the movement of the output shaft 62a in the contracting direction. ) Is housed. The buffer mechanism 60 generates a braking force by being compressed and repelled in the horizontal direction with the rotation of the second cam surface 14B of the cam portion 14 when the closing arm 20 is rotated in the direction to close the door 3. To do.

  When the door 3 is closed (see FIG. 8B), the door closing arm 20 is entirely inside the housing 70 (see FIG. 7B), and when it is in a standby position, its tip The side protrudes from the opening 75 of the housing 70 to the door 3 side.

  Next, the configuration and operation of the apparatus main body 6 will be described in more detail with reference to FIGS.

  As described above, the apparatus main body 6 has the fixing element 40 fixed to the upper frame member 2A of the door frame. The fixing element 40 includes a flat rectangular parallelepiped casing 70 fixed to the upper frame member 2 </ b> A of the door frame, and a casing cover 80 attached to the casing 70.

  The housing 70 has an upper housing member 71 that forms the upper portion and a lower housing member 72 that forms the lower portion. The casing cover 80 is provided so as to cover the outer side of the lower casing member 72. The housing cover 80 is formed with an opening 78 through which the arm main body 21 enters and exits at a position overlapping the opening 75 of the housing 70. At the bottom of the housing cover 80, a notch 77 that receives the slider 31 of the guided member 7 when the door 3 is closed is formed.

  First guide slits 71 b and 72 b for guiding the first slider 51 and the second slider 61 are guided to the upper plate portion 71 a of the upper housing member 71 and the lower plate portion 72 a of the lower housing member 72. Second guide slits 71c and 72c for the purpose, shaft holes 71d and 72d through which the support shaft 25 for rotatably supporting the closing arm 20 is inserted, and upper and lower casing members 71 and 72 are fixed to each other. Fastening holes 71g and 72g through which the fastening pin 73 is inserted are formed at positions that communicate with each other in the vertical direction.

  At both left and right ends of the upper casing member 71, end plate portions 71L and 71R formed by bending both end portions of the upper plate portion 71a downward, and side edges of the upper plate portion 71a are formed in an L shape upward. Protrusions 71e and 71e formed by bending are provided. The protrusions 71e and 71e are provided in two places in the left-right direction (the longitudinal direction of the upper frame member 2A). The protrusions 71e and 71e are designed to have a shape and size that fits exactly into the groove 2a (see FIG. 6) in which the door stop 4B of the upper frame member 2 is fitted. The protrusions 71e and 71e are formed with long holes 71f and 71f for appropriately positioning the upper housing member 71 on the upper frame member 2 and fastening them with screws 74, respectively.

  Guide protrusions 51 a and 51 b that are slidably fitted into the first guide slits 71 b and 72 b are formed on the upper and lower surfaces of the first slider 51. A holding hole 51 c into which the distal end portion of the spring 52 is inserted is formed at the proximal end portion of the first slider 51. The spring 52 is provided in a compressed state between the first slider 51 and one end plate portion 71L of the upper housing member 71 (the left side in this example) with the tip portion inserted into the holding hole 51c. It has been. A tip surface 51d orthogonal to the sliding direction of the first slider 51 and an inclined surface 51e inclined about 45 degrees with respect to the tip surface 51d are formed at the tip of the first slider 51. The inclined surface 51e is formed smoothly and continuously from the front end surface 51d on the opening 75 side.

  Guide protrusions 61 a and 61 b that are slidably fitted into the second guide slits 71 c and 72 c are formed on the upper and lower surfaces of the second slider 61. A holding hole (not shown) into which the distal end portion of the output shaft 62 a of the damper 62 is inserted is formed at the proximal end portion of the second slider 61. The damper 62 was compressed between the second slider 61 and one end plate portion 71R of the upper housing member 71 (right side in this example) with the tip end portion of the output shaft 62a inserted into the holding hole. It is provided in the state. An inclined surface 61 e inclined at about 30 degrees with respect to the sliding direction of the second slider 61 is formed at the tip of the second slider 61. The inclined surface 61e of the second slider 61 is inclined in the opposite direction (the direction of opening toward each other) with respect to the inclined surface 51e of the first slider 51.

  The closing arm 20 has a shaft hole 23 at the base, and is rotatably connected to a support shaft 25 via a rotary bearing 24 fitted and fixed in the shaft hole 23. The support shaft 25 is provided by inserting the closing arm 20 between the upper and lower housing members 71 and 72 and then passing through the shaft holes 72d and 71d from the lower housing member 72 side.

  The cam portion 14 of the closing arm 20 is sandwiched between a first slider 51 and a second slider 61, the first slider 51 is on the first cam surface 14A, and the second slider is on the second cam surface 14B. 61 is always in pressure contact.

  The cam portion 14 includes plate portions 14U and 14L that are spaced apart from each other in the vertical direction. Both plate portions 14U and 14L are formed with shaft holes 14b and 14b penetrating vertically, and a roller (small rotor) 29 is rotatably supported on a support shaft 26 inserted through the shaft holes 14b and 14b. Has been. The outer peripheral surface of the roller 29 forms the first cam surface 14A. The second cam surface 14B is a portion that extends toward the center of rotation of the door closing arm 20 while bulging in an arc shape from the portion of the cam portion 14 where the roller 29 is provided to the second cam surface 14B side.

  In addition, a projection 27 that defines a maximum rotation range of the closing arm 20 toward the opening side is formed at the base of the closing arm 20. When the projection 27 abuts against the side surface of the second slider 61, the rotation of the closing arm 20 toward the opening side is restricted. When the door closing arm 20 rotates to the open side as much as possible, the first cam surface 14A is engaged with the inclined surface 51e of the first slider 51, and the rotation posture is maintained. FIG. 7A shows the state at this time (standby state).

  7A, when the closing arm 20 is rotated toward the closing side, the first cam surface 14A moves from the inclined surface 51e of the first slider 51 to the tip surface 51d. The urging mechanism 50 is once compressed when it moves from the inclined surface 51e to the tip surface 51d, but thereafter it is expanded by the elastic force of the spring 52. The first cam surface 14A is pressed by this elastic force, and the closing arm 20 is forcibly rotated toward the closing side. As the second cam surface 14B rotates at this time, the second slider 61 is pressed and the damper 62 of the buffer mechanism 60 is compressed, so that a drag acts on the closing arm 20. By a series of these operations, when the door 3 is closed, that is, after the guided member 7 is engaged with the closing arm 20, the door 3 is prevented from rotating sharply, and the door 3 is forcibly and quietly closed.

  When the closing arm 20 is rotated to the opening side from the state of FIG. 7B, the tip surface 51d of the first slider 51 is pushed by the first cam surface 14A. This elastic force acts as a force that controls the rotation of the closing arm 20 toward the opening side. On the other hand, since the damper 62 of the buffer mechanism 60 attempts to restore from the compressed state to the extended state, the pressing force by the damper 62 acts on the second cam surface 14B in the direction opposite to the elastic force of the spring 52. As a result, the force by the spring 52 is largely canceled by the force of the damper 62. When the closing arm 20 further rotates toward the opening side, the first cam surface 14A moves from the tip surface 51d of the first slider 51 to the inclined surface 51e. At this time, the first cam surface 14A is locked to the inclined surface 51e of the first slider 51, and the closing arm 20 is held in a posture rotated to the maximum on the door opening side. With these series of operations, when the door 3 is opened from the state where the door 3 is completely closed, it is not necessary to apply a large force to the handle of the door 3.

  Next, operation | movement of the door closing apparatus 1 comprised as mentioned above is demonstrated.

  When the guided member 7 is not engaged with the closed arm 20, that is, when the door 3 is opened larger than the opening at which the closed arm 20 and the guided member 7 can be engaged, the closed arm 20 is attached. The holding mechanism 50 is held in the standby posture by the elastic force of the biasing mechanism 50. When the door 3 is closed, as shown in FIG. 8A, when the guided member 7 approaches the apparatus main body 6 together with the door 3 and the opening degree of the door 3 reaches a predetermined opening degree, The member 7 is engaged with the closing arm 20. Thereafter, when the door 3 is further closed, the door closing arm 20 starts to rotate from the standby posture to the direction of closing the door 3. At the same time, the elastic force of the urging mechanism 50 starts to act as a force for forcibly turning the closing arm 20 in the direction of closing the door 3. As the door closing arm 20 is forcibly rotated, the door 3 is forcibly closed. At this time, the steep movement of the door 3 is prevented by starting the effect of the buffer mechanism 60 so as to suppress the rotation of the door closing arm 20. Thereby, the door 3 is forcibly and quietly closed.

  On the other hand, as shown in FIG. 8B, when the door 3 is opened from the state in which the door 3 is completely closed, the door closing arm 20 is rotated in a direction in which the door 3 is in the standby posture as the door 3 is opened. start. At the same time, the repulsive force of the buffer mechanism 60 starts to act as a force for rotating the closing arm 20 in the direction of opening the door 3, and the rotation of the closing arm in the direction of opening the door 3 is promoted. As a result, when the door 3 is manually opened, a large force is not applied to the handle of the door 3. Since a direct-acting type is used as the buffer mechanism 60, the door closing device 1 can close the door 3 quietly when closing the door and can open the door 3 with a weak force when opening the door. Can be realized without increasing the size of the apparatus body 6.

  Even when the door 3 is not in the closed state, even if the door arm 20 is housed in the housing 70 for some reason (the state in FIG. 7B), the door 3 Is closed and then opened, the door closing arm 20 can be returned to the standby state (the state shown in FIG. 7A). FIG. 9 shows the operation at this time. When the door 3 is closed from the state of FIG. 9A, the tip 31a of the slider 31 is guided downward along the guide surface 20a, and the slider 31 is pushed down accordingly. 9B, the tip 31a of the slider 31 passes through the guide surface 20a and reaches the lower end of the arm body 21, and then slides as shown in FIG. 9C. The child 31 is engaged with the guide groove 22. By opening the door 3 after this state, the door closing arm 20 can be returned to the standby state.

  According to the configuration of this embodiment, the closing arm 20, the biasing mechanism 50, and the buffer mechanism 60 are housed in the flat rectangular parallelepiped casing 70 fixed to the upper frame member 2 </ b> A of the door frame 2, and the casing By providing an opening 75 through which the closing arm 20 enters and exits at a portion facing the door 3 of 70, the fixed element 40 fixed to the door frame 2 is downsized, and in terms of appearance, only the closing arm 20 has a movable part. Thus, the door closing device 1 having a simple appearance can be realized.

  In addition, the apparatus main body 6 is attached to the end of the upper frame member 2 </ b> A constituting the door frame 2 on the end (door side) opposite to the side on which the hinge 5 is attached (hanging side). When the door 3 is opened, the repulsive force (restoring force) of the buffer mechanism 60 can be used as effectively as the force for promoting the opening of the door 3. Therefore, even if the repulsive force (restoring force) of the buffer mechanism 60 is weak, an effect of assisting the opening of the door 3 when the door 3 is opened can be obtained.

  Further, the cam part 14 for causing the elastic force of the urging mechanism 50 and the buffering force of the buffering mechanism 60 to act on the closing arm 20 is integrated with the closing arm 20, so that the number of parts can be reduced. By reducing the number of parts housed in the housing 70, the housing 70 can be downsized. In addition, since the biasing mechanism 50 and the buffer mechanism 60 are arranged in series with each other with the cam portion 14 in between, the width dimension and the height dimension in the short direction of the casing 70 can be reduced. Is extremely advantageous in attaching the apparatus main body 6 to the door frame 2 which is narrow and limited. As a result of reducing the width dimension and the height dimension of the casing 70 in the short dimension direction, the casing 70 is formed on the lower surface portion of the upper frame member 2 by using the installation space S of the door stop 4B provided in the upper frame member 2. Can be attached. Since the projection 71e provided on the upper surface portion of the housing 70 is just fitted in the groove 2a in which the door stop 4B of the upper frame member 2 is fitted, the mounting accuracy of the housing 70 to the upper frame member 2 is increased. be able to.

  In addition, although the example which applied the door closing apparatus of this invention to the left opening type door was shown in the said embodiment, it cannot be overemphasized that it can apply effectively also to a right opening type door.

  In the above-described embodiment, the damper 62 including two damper units 62U is used. However, the damper 62 may be configured by one damper unit 62U, and the damper 62 including three or more damper units 62U. May be used.

  Moreover, in the said embodiment, although the coil spring is used as an elastic repulsion force generation source of the biasing mechanism 50, you may use not only a coil spring but other elastic repulsion means, such as a leaf | plate spring and a gas spring.

  Moreover, although the door closing apparatus 1 of the said embodiment is provided with the housing | casing cover 80, the housing | casing cover 80 is not an essential component.

DESCRIPTION OF SYMBOLS 1 Door closing apparatus 2 Door frame 3 Door 5 Hinge 6 Apparatus main body 7 Guided member 14 Cam part 14A 1st cam surface 14B 2nd cam surface 22 Guide groove 20 Closed arm 31 Slider 40 Fixed element 50 Energizing mechanism 52 Spring 60 Buffer mechanism 62 Damper 70 Housing 75 Opening 76 Notch 77 Notch 78 Opening S Space

Claims (9)

A door closing device (1) for forcibly closing a door (3) connected to a door frame (2) via a hinge (5) so as to be rotatable in a horizontal direction,
An apparatus body (6) attached to the door frame (2);
A guided member (7) fixed to the door (3),
The device body (6)
A fixing element (40) fixed to the upper edge of the opening of the door frame (2);
A closed door supported by the fixed element (40) so as to be pivotable in the horizontal direction, and configured to engage and disengage from the guided member (7) as the door (3) rotates. An arm (20);
When the guided member (7) is not engaged with the closed arm (20), the closed arm (20) is held in a standby posture waiting for engagement with the guided member (7). After the guide member (7) is engaged with the door closing arm (20), the door closing arm (20) is elastically moved to forcibly rotate the door closing arm (20) in a direction to close the door (3). An urging mechanism (50) for applying a force;
When the closing arm (20) is rotated in the direction to close the door (3), in order to suppress the rotation, when the closing arm (20) is rotated in the opposite direction, A direct acting buffer mechanism (60) for applying a force to the closing arm (20) to promote movement,
The fixing element (40)
A flat rectangular parallelepiped housing (70) fixed to the door frame;
The closing arm (20), the urging mechanism (50), and the buffer mechanism (60) are housed together in the housing (70),
An opening (75) through which the closing arm (20) enters and exits is formed in a portion of the housing (70) facing the door (3),
A notch (76) that receives the guided member (7) when the door (3) is closed is formed at the bottom of the housing (70),
The closing arm (20)
And integrally having a cam portion (14) in which an elastic force by the biasing mechanism (50) and a buffering force by the buffer mechanism (60) act in opposite directions,
The biasing mechanism (50) includes a spring (52) that applies an elastic force to the first cam surface (14A) of the cam portion (14),
The buffer mechanism (60) is rotated with the rotation of the second cam surface (14B) of the cam portion (14) when the door closing arm (20) rotates in a direction to close the door (3). And a direct acting damper (62) that generates a braking force by being compressed and repelled in the horizontal direction,
The door closing device , wherein the urging mechanism (50) and the buffer mechanism (60) are provided in series with each other with the cam portion (14) interposed therebetween . The upper frame member (2A) of the door frame (2) is provided with a door stop (4B) against which the upper edge of the door (3) hits when the door (3) is closed,
The said door (70) is a door closing apparatus of Claim 1 attached to the space (S) formed by lacking a part of said door stop (4B) of the said upper frame member (2).   The door arm (20) is entirely in the housing (70) when the door (3) is closed, and the distal end side of the housing (70) is in the standby posture. The door closing apparatus of Claim 1 or 2 which has come out to the said door (3) side from the opening part. The guided member (7) includes a support portion (30) fixedly attached to the plate surface of the door (3) and a slider (31) protruding upward from a tip portion of the support portion (30). )
The closing arm (20) has a guide groove (22) extending in the rotational radius direction thereof,
When the door closing arm (20) is in the standby position, the tip of the slider (31) is received in the guide groove (22) as the door (3) rotates in the closing direction. The door closing device of claim 3 configured as described above. A door frame (2), a door (3) connected to the door frame (2) via a hinge (5) so as to be pivotable in a horizontal direction, and a door closing device (forcibly closing the door (3)) 1) and a door device (10) comprising:
The closing device (1)
An apparatus body (6) attached to the door frame (2);
A guided member (7) fixed to the door (3),
The device body (6)
A fixing element (40) fixed to the upper edge of the opening of the door frame (2);
A closed door supported by the fixed element (40) so as to be pivotable in the horizontal direction, and configured to engage and disengage from the guided member (7) as the door (3) rotates. An arm (20);
When the guided member (7) is not engaged with the closed arm (20), the closed arm (20) is held in a standby posture waiting for engagement with the guided member (7). After the guide member (7) is engaged with the door closing arm (20), the door closing arm (20) is elastically moved to forcibly rotate the door closing arm (20) in a direction to close the door (3). An urging mechanism (50) for applying a force;
When the closing arm (20) is rotated in the direction to close the door (3), in order to suppress the rotation, when the closing arm (20) is rotated in the opposite direction, A direct acting buffer mechanism (60) for applying a force to the closing arm (20) to promote movement,
The fixing element (40)
A flat rectangular parallelepiped housing (70) fixed to the door frame;
The closing arm (20), the urging mechanism (50), and the buffer mechanism (60) are housed together in the housing (70),
An opening (75) through which the closing arm (20) enters and exits is formed in a portion of the housing (70) facing the door (3),
A notch (76) that receives the guided member (7) when the door (3) is closed is formed at the bottom of the housing (70),
The closing arm (20)
A cam portion (14) in which an elastic force by the biasing mechanism (50) and a buffering force by the buffer mechanism (60) act in opposite directions;
The biasing mechanism (50) includes a spring (52) that applies an elastic force to the first cam surface (14A) of the cam portion (14),
The buffer mechanism (60) is rotated with the rotation of the second cam surface (14B) of the cam portion (14) when the door closing arm (20) rotates in a direction to close the door (3). And a direct acting damper (62) that generates a braking force by being compressed and repelled in the horizontal direction,
The door device characterized in that the biasing mechanism (50) and the buffer mechanism (60) are provided in series with each other with the cam portion (14) interposed therebetween .   The fixing element (40) is fixedly attached to an end of the upper frame member (2A) of the door frame (2) opposite to the side on which the hinge (5) is attached. Item 5. The door device according to item 5. The upper frame member (2A) of the door frame (2) is provided with a door stop (4B) against which the upper edge of the door (3) hits when the door (3) is closed,
The door device according to claim 5 or 6, wherein the casing (70) is attached to a space (S) formed by lacking a part of the door stop (4B) of the upper frame member (2). .   The door arm (20) is entirely in the housing (70) when the door (3) is closed, and the distal end side of the housing (70) is in the standby posture. The door apparatus in any one of Claim 5 thru | or 7 which has come out to the said door (3) side from the opening part. The guided member (7) includes a support portion (30) fixedly attached to the plate surface of the door (3) and a slider (31) protruding upward from a tip portion of the support portion (30). )
The closing arm (20) has a guide groove (22) extending in the rotational radius direction thereof,
When the door closing arm (20) is in the standby position, the tip of the slider (31) is received in the guide groove (22) as the door (3) rotates in the closing direction. The door device according to claim 8 configured as described above.