The present invention relates to a door opening and closing device for facilitating opening and closing of a door.
As a door opening and closing device for facilitating opening and closing of a door, the applicant has proposed a door opening and closing device illustrated in
The door opening and closing device 4 includes a main opening and closing device body 5 attached to the housing 1 and an arm 6 pivotably provided to the main opening and closing device body 5. At a tip end of the arm 6, an arm slider 7 is provided to be slidable in a length direction of the arm 6. The arm slider 7 is pivotably linked to the door 2. Inside the main opening and closing device body 5, a slider crank mechanism (not shown) for exerting a force to assist opening and closing of the door 2 is provided. The force for assisting the opening and closing of the door 2 is transmitted to the arm 6 from the slider crank mechanism.
However, the conventional door opening and closing device requires the hinges 3 for restraining the door 2 so that the door 2 moves in a certain manner in addition to the door opening and closing device 4. It is necessary to mount both of the door opening and closing device 4 and the hinges 3 to the housing 1 and the door 2, which complicates a mounting operation.
Therefore, it is an object of the present invention to provide a door opening and closing device for applying a force in an opening direction and/or a closing direction to a door, which obviates the need for a hinge for restraining the door so that the door moves only in a certain manner.
In order to solve the above-described problem, the present invention provides a door opening and closing device comprising: a main opening and closing device body attached to a housing; a mounting member attached to a door; an arm pivotably provided to the main opening and closing device body, the arm applying force to the door via the mounting member in an opening direction and/or a closing direction; a slider provided to the main opening and closing device body so as to be slidable in one direction; an urging means for urging the slider in the one direction; a transmission mechanism for transmitting urging force of the urging means to the arm; and a door restraint link pivotably linked to the arm at a position away from the center of pivot of the arm, pivotably linked to the mounting member, and linked to the main opening and closing device body or the slider slidably or via an auxiliary link so that the door moves in a certain manner, wherein the door restraint link and the slider overlap each other when seen in an axial direction of a pivotal axis of the arm.
In a preferred embodiment of the present invention, a shaft is provided to the main opening and closing device body and elongated holes through which the shaft is inserted are formed in the slider and the door restraint link.
In a preferred embodiment of the present invention, a recessed portion is formed in a side face of the slider and the door restraint link is housed in the recessed portion of the slider.
In a preferred embodiment of the present invention, the urging means is one or more coil springs and a portion of the slider where the recessed portion is formed has a smaller width than an outer diameter of at least one of the coil springs when the slider is seen in a section orthogonal to the one direction.
In a preferred embodiment of the present invention, the door opening and closing device further includes an expanding and contracting damper in which a shaft portion moves in the one direction relative to a main body portion, wherein one of the main body portion and the shaft portion comes in contact with the arm and the other of the main body portion and the shaft portion comes in contact with the slider.
In a preferred embodiment of the present invention, the transmission mechanism is a cam provided to the slider and a roller for coming in contact with the cam is provided to the arm.
The door is a flap door which can pivot about a horizontal axis, the main opening and closing device body is attached to a side plate of the housing, and the mounting member is attached to a back face of the flap door.
According to the present invention, because the door opening and closing device is provided with a door restraint link for restraining the door so that the door moves in the certain manner, it is possible to obviate the need for a hinge in addition to the door opening and closing device. Moreover, because the door restraint link is pivotably linked to the arm at the position away from the center of pivot of the arm, the door restraint link moves forward relative to the housing as the arm pivots when the door is opened. Therefore, it is possible to open the door while the door is brought ahead of the housing. By opening the door while the door is brought ahead of the housing, it is possible to prevent the door and the housing from interfering with each other. Furthermore, when seen in the axial direction of the pivotal axis of the arm, the door restraint link and the slider overlap each other, which increases a degree of flexibility in layout of the door restraint link and the slider. It is possible to prevent increase in size of the door opening and closing device, even though the door restraint link moves forward and backward while pivoting and the slider is increased in size for the purpose of obtaining greater urging force.
According to the preferred embodiment of the invention, a shaft is provided to the main opening and closing device body and therefore it is possible to prevent rattling of the shaft to thereby stabilize movement of the door restraint link guided by the shaft. Moreover, because an elongated hole through which the shaft is inserted is formed in the slider, it is possible to prevent increase in size of the door opening and closing device, even if the slider is increased in size for the purpose of obtaining the greater urging force.
According to the preferred embodiment of the invention, a recessed portion is formed in the side face of the slider and the door restraint link is housed in the recessed portion of the slider. Therefore, it is possible to prevent increase in size of the door opening and closing device in a thickness direction.
According to the preferred embodiment of the invention, the urging means is coil springs and the portion of the slider where the recessed portion is formed has a smaller width than an outer diameter of the coil spring when the slider is seen in a section orthogonal to the one direction. Therefore, the width of the slider can be small, even if the diameters of the coil springs are increased for the purpose of obtaining greater urging force.
According to the preferred embodiment of the invention, because an expanding and contracting damper, in which the shaft portion moves in the one direction relative to the main body portion, is provided between the arm and the slider, it is possible to contract the expanding and contracting damper by utilizing the pivoting of the arm and the sliding of the slider in the one direction. Therefore, it is possible to generate large damping force.
According to the preferred embodiment of the invention, because the transmission mechanism is a cam provided to the slider and a roller for coming in contact with the cam is provided to the arm, it is possible to stably transmit the urging force of the urging means to the arm.
According to the preferred embodiment of the invention, the door is a flap door which can pivot about a horizontal axis, the main opening and closing device body is attached to the side plate of the housing, and the mounting member is attached to the back face of the flap door. Therefore, it is possible to open the flap door, which pivots about the horizontal axis, with a slight force. Furthermore, it is possible to stop the flap door at an arbitrary position.
A door opening and closing device according to a first embodiment of the present invention will be described below in detail based on the accompanying drawings.
Between the case 64 and the mounting member 65, arms 66 and door restraint links 67 are supported. The arms 66 exert a force for assisting opening and closing of the door 62 by manual operations. The door restraint links 67 restrain the door 62 so that the door 62 moves in a certain manner. Because the door 62 is restrained by the door restraint links 67, hinges for restraining the door 62 are not provided in addition to the door opening and closing devices 60. The case 64 is covered with a facing cover 68.
As illustrated in a sectional view in
The arm slider 66c can pivot about a shaft 69 relative to the arm main bodies 66a and slide in a vertical direction relative to the mounting member 65. As illustrated in
With reference to an exploded perspective view in
The arms 66 include arm main bodies 66a formed in substantially L shapes and extending from the arm shaft 76 toward a mounting member main body 65b to be narrower, a roller 66b provided to the corner portions of the L shapes, and an arm slider 66c provided to the tip ends of the arm main bodies 66a. The arm main body 66a has two turning pairs. In other words, one end portions of the arm main bodies 66a are pivotably linked to the case 64 via the arm shaft 76. The other end portions of the arm main bodies 66a are pivotably linked to the arm slider 66c via the shaft 69. The arm slider 66c has a sliding pair and is slidably linked to the mounting member main body 65b so as to be slidable in one direction.
Each of the door restraint links 67 is formed in a substantially L shape on the whole. The door restraint link 67 has three turning pairs and one sliding pair. In other words, the one end portions of the door restraint links 67 are pivotably linked to the mounting member main body 65b via the shaft 74. Central portions of the door restraint links 67 are pivotably linked to the arm main bodies 66a via the shaft 73. In the other end portions of the door restraint link 67, substantially U-shaped elongated holes 67a are formed. The shaft 75a is inserted through the elongated holes 67a. The other end portions of the door restraint links 67 are slidably and pivotably linked to the case 64.
The slider 71 is provided to the case 64 to be movable in the one direction. The slider 71 is provided with the paired straight elongated holes 71a and 71b through which the paired shafts 75a and 75b fixed to the case 64 are inserted. The shaft 75a is inserted through the elongated hole 71a in the slider and the elongated holes 67a in the door restraint links 67. On side faces of the slider 71, recessed portions 71c are formed. The recessed portions 71c are formed by grooves extending in the one direction. In the recessed portions 71c, the door restraint links 67 are housed. The door restraint links 67 are sandwiched between the slider 71 and the case 64 (refer to
As illustrated in
In the front end portion of the slider 71, a damper 84 for exerting a damping force by use of viscous resistance of fluid is embedded. The damper 84 is an expanding and contracting damper including a cylindrical main body portion 84a and a shaft portion 84b which moves in one direction relative to the main body portion 84a. The moving direction of the shaft portion 84b is parallel to the one direction in which the slider 71 moves. One of the main body portion 84a and the shaft portion 84b comes in contact with the arms 66 and the other of the main body portion 84a and the shaft portion 84b is housed in a damper housing hole in the slider 71 to come in contact with the slider 71. The damper 84 is provided between the arms 66 and the slider 71. When the arms 66 pivot at a predetermined or greater angle in a closing direction, the arms 66 and the damper 84 come in contact with each other to compress the damper 84.
As illustrated in
As illustrated in
The door restraint links 67 cause the door 62 to move in the certain manner on the following principle. As illustrated in
On the other hand, the one end portions of the arms 66 are pivotably linked to the arm shaft 76 of the case 64. The other end portions of the arms 66 are pivotably and slidably linked to the mounting member 65 via the shaft 69.
The arms 66 and the door restraint links 67 cross each other in X shapes to form an X linkage. As illustrated in
As illustrated in
As illustrated in
In closing the fully-open door 62 illustrated in
The door opening and closing device 60 according to the first embodiment exerts the following effects. Because the door restraint links 67 for restraining the door 62 so that the door 62 moves in the certain manner are provided, it is unnecessary to provide hinges in addition to the door opening and closing devices 60. Moreover, because the door restraint links 67 are pivotably linked to the arms 66 at the positions away from the centers of pivot of the arms 66, the door restraint links 67 move forward relative to the housing 61 as the arms 66 pivot when the door 62 opens. Therefore, it is possible to open the door 62 while the door 62 is brought ahead of the housing 61. By opening the door 62 while the door 62 is brought ahead of the housing 61, it is possible to prevent the door 62 and the housing 61 from interfering with each other. Furthermore, when seen in the axial direction of the arm shaft 76, the door restraint links 67 and the slider 71 overlap each other, which increases a degree of flexibility in layout of the door restraint links 67 and the slider 71 and prevents increase in size of the door opening and closing device 60, even though the door restraint links 67 move forward and backward while pivoting and the slider 71 is increased in size for the purpose of obtaining greater urging force.
Because the shaft 75a is provided to the case 64 and the elongated holes 71a and 67a through which the shaft 75a is inserted are formed in the slider 71 and the door restraint links 67, the same shaft 75a can perform both the functions of guiding the slider 71 and guiding the door restraint links 67. If the case 64 guides sliding of the slider 71 in the one direction, the increase in urging force of the urging means may cause deformation of the case 64. Because the direction of the torque applied to the arms 66 from the cam 70 reverses, the slider 71 pushes the case 64 upward and downward. By using the shaft 75a to guide sliding of the slider 71 in the one direction as in the embodiment, it is possible to prevent deformation of the case 64.
Because the recessed portions 71c are formed in the side faces of the slider 71 and the door restraint links 67 are housed in the recessed portions 71c of the slider 71, it is possible to prevent increase in size of the door opening and closing device 60 in a thickness direction (left-right direction in
Because the expanding and contracting damper 84 in which the shaft portion 84b slides in an axial direction relative to the main body portion 84a is provided between the arms 66 and the slider 71, it is possible to contract the expanding and contracting damper 84 by utilizing pivoting of the arms 66 and sliding of the slider 71 in the one direction. As a result, it is possible to generate large damping force.
The cam 70 provided to the slider 71 is employed as a transmission mechanism and the roller 66b for coming in contact with the cam 70 is provided to the arms 66. Therefore, it is possible to stably transmit the urging force of the coil springs 72a to 72c to the arms 66.
The door 62 is a flap door 62 which can pivot about a horizontal axis, the case 64 is attached to the inner face of the side plate 61a of the housing 61, and the mounting member 65 is attached to the back face of the flap door 62. Therefore, it is possible to open the flap door 62, which pivots about the horizontal axis, with a slight force (an assist function) and it is possible to stop the flap door 62, which has been opened a predetermined angle, at an arbitrary position (a free stop function).
As illustrated in
The door restraint links 15 and the force applying links 24 are pivotably linked to the connecting plates 14a of the arm 14 at positions away from the arm shaft 22. As described above, the door restraint links 15 are links for causing the door 12 to move in the certain manner. On the other hand, the force applying links 24 are links for applying forces in an opening direction and a closing direction to the door 12.
As illustrated in
With reference to an exploded perspective view in
The arm 14 includes paired connecting plates 14a around the arm shaft 22 (hereafter referred to as a first shaft 22), an arm main body 14b extending from the first shaft 22 toward the mounting member 13, and an arm slider 14c provided to the arm main body 14b to be slidable in the longitudinal direction. Between the paired connecting plates 14a, a shaft insertion plate 34 is provided. Through the shaft insertion plate 34, the first shaft 22, a second shaft 32 which is a pivotal axis of the door restraint links 15 relative to the arm 14, and a third shaft 33 which is a pivotal axis of the force applying links 24 relative to the arm 14 are inserted. In one end portion of the arm main body 14b, mounting holes for attaching the paired connecting plates 14a are formed. Into the one end portion of the arm main body 14b, the connecting plates 14a are inserted. The connecting plates 14a and the arm main body 14b are linked by pins. The one end portion of the arm main body 14b is surrounded with a frame-shaped fixing piece. The tip end of the arm main body 14b is closed with a plug.
The arm main body 14b is provided with an arm slider 14c to be slidable in a length direction of the arm main body 14b. The arm slider 14c is formed in a frame shape surrounding the arm main body 14b. On the arm slider 14c, a protruding portion 14c1 linked to the mounting member 13 is formed. To the protruding portion 14c1 of the arm main body 14b, the mounting member 13 is pivotably attached via a fourth shaft 35.
Between the arm main body 14b and the arm slider 14c, a friction adjusting plate 31 is provided. The friction adjusting plate 31 slides with the arm slider 14c. A force of the friction adjusting plate 31 for pushing the arm main body 14b is adjusted by a position adjusting screw 36. By adjusting pressure of the friction adjusting plate 31, it is possible to adjust the resistance in sliding of the arm slider 14c relative to the arm main body 14b.
The mounting member 13 is formed into a U shape in cross-section and extends to be narrower in one direction. In a bottom wall 13a of the mounting member 13, screw holes 13a1 through which the screws for attaching the mounting member 13 to the surface of the door 12 are formed. To one end portion in a length direction of the mounting member 13, the arm slider 14c is pivotably linked. To the other end portion in the length direction of the mounting member 13, the door restraint links 15 are pivotably linked. Through side faces 13b of the mounting member 13, the fourth shaft 35 which is a pivotal axis of the arm slider 14c relative to the mounting member 13 and a fifth shaft 38 which is a pivotal axis of the door restraint links 15 relative to the mounting member 13 are inserted.
Each of the door restraint links 15 has a base portion 15b extending to be narrower in one direction and a tip end portion 15c bent relative to the base portion 15b, and the entire door restraint link 15 is formed into an L shape. Through a central portion in a length direction of the base portion 15b, the second shaft 32 is inserted. An outside shape of the base portion 15b is widened. Through elongated holes 15a in the base portions 15b, the slider pivoting shaft 25 (hereafter referred to as the sixth shaft 25) which is a pivotal axis of the force applying links 24 relative to the slider 27 is inserted. Through the tip end portions 15c of the door restraint links 15, the fifth shaft 38 is inserted. When seen in an axial direction of the arm shaft 22, the door restraint links 15 and the slider 27 overlap each other (refer to
The paired force applying links 24 extend to be narrower in one direction. One end portions of the force applying links 24 are pivotably linked to the connecting plates 14a via the third shaft 33. The other end portions of the force applying links 24 are pivotably linked to the slider 27 via the sixth shaft 25. The sixth shaft 25 (the slider pivoting shaft 25) is formed by a first slider pivoting shaft 25a and a second slider pivoting shaft 25b.
The slider 27 is provided to the case 21 to be movable in the one direction. A spring bracket 41 is attached to the case 21 via a pin 42. Between the slider 27 and the spring bracket 41, coil springs 18 are provided. The slider 27 is urged in the one direction by the coil springs 18. At one end of the slider 27, a mound-shaped protrusion 27a is formed. The protrusion 27a is provided with a recessed portion 27b and an elongated hole 27c corresponding to the first slider pivoting shaft 25a and the second slider pivoting shaft 25b of the force applying links 24. The first slider pivoting shaft 25a is inserted through the recessed portion 27b and the second slider pivoting shaft 25b is fitted into the elongated hole 27c.
In the case 21, the damper 43 for generating a damping force by use of viscous resistance of fluid is attached. When the arm 14 pivots at a predetermined or greater angle in one direction, the arm 14 and a movable portion 44 of the damper 43 come in contact with each other to compress the damper 43. When the damper 43 is compressed, the damper 43 applies a damping force to the arm 14.
In this embodiment, the slider pivoting shaft 25 which serves as a center of pivot of the force applying links 24 relative to the slider 27 is formed by the first and second slider pivoting shafts 25a and 25b. When an opening angle of the door 12 is a predetermined or smaller angle, a switch from the first slider pivoting shaft 25a to the second slider pivoting shaft 25b is made to moderate the force acting on the door 12 in the closing direction. The switch from the first slider pivoting shaft 25a to the second slider pivoting shaft 25b will be described below.
As shown in
As illustrated in
In the door opening and closing device 20 with the door 12 pivoting about a horizontal axis, the moment acting on the door 12 increases as the door 12 opens an angle close to 90 degrees. The slider crank mechanism S1 is utilized to facilitate manual operations of opening the door 12. If the urging forces of the coil springs 18 are increased, the opening operations of the door 12 become easier. However, if the urging forces of the coil springs 18 are increased, the opening of the closed door 12 becomes heavy. In order to avoid this, as illustrated in
The door restraint links 52, the arm 14, the case 21, and the auxiliary links 51 form a second chain C2 in
As illustrated in
The invention is not limited to those embodied in the above-described embodiments and can be embodied in various embodiments without departing from the gist of the invention.
Although the invention is applied to the upward opening flap door which pivots about the horizontal axis at an upper portion of the housing in the example described in each of the above-described embodiments, the invention can be also applied to a downward opening flap door which pivots about a horizontal axis at a lower portion of a housing. The invention can be also applied to a folding flap door formed by connecting two doors by use of hinges.
Although the door restraint links and the slider overlap each other when seen in the direction of the pivotal axis of the arms from the closed state to the open state of the door in each of the above-described embodiments, the door restraint links and the slider may overlap each other only in a certain range between the closed state and the open state of the door.
In each of the above-described embodiments, the elongated holes are formed in the door restraint links and the shaft inserted through the elongated holes is provided to the slider or the case. However, a shaft may be provided to door restraint links and (an) elongated hole(s) may be provided to a slider or a case.
The shapes of the door restraint links, the arms, the force applying links, the slider, the mounting member, and the like in the above-described embodiments are merely examples and can be changed suitably according to size, weight, and a manner of opening of the door.
Although the mounting member main body is formed by the single part in each of the above-described embodiments, a mounting member main body may be formed by two parts including a first split body linked to door restraint links and a second split body linked to arms.
Although the case of the door opening and closing device is attached to the inner face of the side plate of the housing in each of the above-described embodiments, a case may be attached to an outer face of a side plate of a housing. If the case is attached to the outer face of the side plate of the housing, arms and door restraint links do not obstruct housing and it becomes easy to house objects in the housing.
The present description is based on Japanese Patent Application No. 2012-210302 filed on Sep. 25, 2012, all contents of which are incorporated herein.
Number | Date | Country | Kind |
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2012-210302 | Sep 2012 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2013/075519 | 9/20/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/050749 | 4/3/2014 | WO | A |
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Number | Date | Country | |
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