JP4020419B2 - Multipurpose chair armrest - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a frame for a multipurpose chair.
[0002]
[Prior art]
In the publicly known Japanese Patent Application Laid-Open No. 2000-342376, an upper support frame is provided above a support lower frame placed on the floor, and a back frame and a seat frame are rotatably attached to the upper support frame. The footrest frame base is pivotally provided on the front side of the seat frame, and the armrest frame is provided on either the left or right side or both sides of the seat frame regardless of the inclination angle of the back frame. A configuration for maintaining a horizontal state is described.
Although not conventionally known, Japanese Patent Application No. 2001-263875 of the prior application discloses an upper lock mechanism between the armrest frame and the rear rotation arm of the armrest link, and a lower portion of the rear rotation arm and the back. A description is given of a configuration in which a switching mechanism is provided between the heel frame so that the armrest and the rail can be used, and an operation member for switching the usage mode is provided only in the upper lock mechanism.
[0003]
[Problems to be solved by the invention]
In the above-described known example, an armrest frame that maintains a substantially horizontal state regardless of the inclination angle of the dorsal fin frame is simply provided, and there is no other usage method.
In other words, the armrest can be used for the rail that prevents the sleeping person from falling down if the armrest can be held upright as well as maintaining a substantially horizontal state regardless of the inclination angle of the back frame. This can expand the versatility of the multi-purpose chair.
In the prior art, one is a lock mechanism, but the other is a switching mechanism, so that the configuration is different in the upper and lower parts, the number of parts is large, the manufacturing and assembly process is complicated, and the cost is high. .
Moreover, since it is the structure which switches a use aspect by one operation member, there exists a subject that an operation method is hard to understand.
That is, once the usage mode is switched, the operation feeling of using the same operation member for returning to the original state is poor, and the operation manual may be read one by one.
If this point is devised, both the rail and the armrest can be used, and the versatility is increased, and the operability is not deteriorated.
[0004]
OBJECT OF THE INVENTION
Reduce costs, provide versatile armrests, and improve operability.
[0005]
[Means for Solving the Problems]
In the present invention, an upper support frame 6 is provided above a support lower frame 2 placed on the floor, and a back frame 9 and a seat frame 16 are rotatably attached to the upper support frame 6. In the case where the base portion of the footrest frame 22 is rotatably provided on the front side, the armrest frame 50 is attached to the left or right side or both sides of the seat frame 16 and the backrest frame 9 is rotated by the armrest link 56. It is configured to switch between an armrest mode that moves back and forth while maintaining a substantially horizontal state in accordance with movement, and a rail mode that is fixed to a predetermined position on the side of the seat frame 16 regardless of the rotation of the dorsal frame 9. When the armrest mode is set between the armrest frame 50 and the rear rotation arm 54 of the armrest link 56, they are rotated. In the rail mode, an upper locking mechanism 65 is provided for fixing both of them. Between the lower part of the rear rotating arm 54 and the dorsal frame 9, a side of the dorsal frame 9 is provided in the armrest mode. This is an armrest for a multi-purpose chair provided with a lower lock mechanism 68 for locking with the shaft 10 side.
According to the present invention, in the armrest, the upper lock mechanism 65 and the lower lock mechanism 68 are armrests of a multi-purpose chair configured such that when one is locked, the other is unlocked.
According to the present invention, in the armrest, the upper lock mechanism 65 and the lower lock mechanism 68 are formed by locking guide members 58 and 69 concentric with the pivot center at the shaft attachment portions of the armrest frame 50 and the rear pivot arm 54. Are provided with lock holes 59 and 70 through which the engaging members 60 and 71 are connected, and the engaging member 60 and the lower engaging member 71 are in the length direction of the rear rotating arm 54 and opposite to each other. The armrest of the multi-purpose chair is configured to be movably provided on the rear rotating arm 54 so as to move in the direction and to be connected to and detached from the lock holes 59 and 70, respectively.
According to the present invention, in the armrest, the lock hole 59 is engaged with the engagement member 60 when the rear rotation arm 54 is in a substantially vertical state, and the lower engagement member 71 is engaged with the lower engagement member 71 in an inclined state. This is an armrest for a multi-purpose chair configured to fit together.
[0006]
【Example】
An embodiment of the present invention will be described with reference to the drawings. 1 is a multipurpose chair frame body such as a therapeutic chair used when an dialysis patient or a dental patient receives treatment, or a relax chair to be seated relaxed, 2 is a multipurpose chair It is a support lower frame which constitutes a part of the chair frame main body 1, and the support lower frame 2 is provided with front and rear rolling wheels 4 and is placed on the floor. The support lower frame 2 is provided with an upper support frame 6 via an optional lifter mechanism 5.
The upper support frame 6 has a pair of left and right front and rear hooks 7, and the front and rear hooks 7 are provided so as to move up and down with respect to the support lower frame 2 through the lifter mechanism 5. A rear bracket 8 is fixed to the rear portion of the front and rear cage 7, and a lower portion of the back frame 9 is attached to the upper portion of the rear bracket 8 so as to be rotatable by a horizontal shaft 10. A reclining motor 11 is rotatably attached to the left and right center position on the back surface (back surface) side of the dorsal frame 9. The reclining motor 11 is provided with a reclining rod 12 that expands and contracts by the rotation of the reclining motor 11. The reclining rod 12 protrudes downward and is pivotally attached to the tip of the mounting rod 13 by a shaft 14, and the base of the mounting rod 13 is fixed to the rear bracket 8 or the upper support frame 6 side below the horizontal shaft 10. Accordingly, the rear bracket 8 between the horizontal shaft 10 and the shaft 14, the back frame 9, the reclining rod 12 of the reclining motor 11, and the mounting rod 13 constitute a reclining link. .
[0007]
Thus, the lower portion of the upright portion 15 that stands upward is fixed to the upper surface of the base portion side of each upper support frame 6, and the rear portion of the U-shaped rear frame 17 of the seat frame 16 is attached to the upper end of each upright portion 15. The shaft 18 is rotatably attached. A seat intermediate connection frame 19 in the left-right direction is provided on the front side of the seat frame 16, and the seat intermediate connection frame 19 is placed on the front and rear rod 7 and is configured to restrict downward rotation of the seat frame 16. .
A seat coupling frame 20 in the left-right direction is provided on the front side of the seat intermediate coupling frame 19, and a base portion of a pair of left and right seat side arms 21 is fixed to the seat coupling frame 20. The tip of a leg-side arm 24 provided on the upper frame 23 of the hook frame 22 is rotatably attached by a left and right leg rotary shaft 25, and the leg frame 22 rotates about the leg rotary shaft 25. Configure freely.
In this case, each of the seat side arm 21 and the footrest side arm 24 is provided with a stopper surface 26, and the footrest portion frame 22 is rotated upward so that the footrest portion frame 22 and the seat frame 16 are in a horizontal state. In this case, the stopper surfaces 26 of the seat side arm 21 and the footrest side arm 24 are in contact with each other to regulate the upward rotation of the footrest portion frame 22, and the upper rotation of the footrest portion frame 22 with respect to the seat frame 16 is configured. The movement is stopped and the seat frame 16 and the footrest frame 22 are integrally rotated upward about the shaft 18. On the other hand, when the seat frame 16 and the footrest frame 22 are integrally rotated downward, and the seat connecting frame 20 of the seat frame 16 abuts against the upper surface of the front and rear saddle 7, the seat frame 16 is rotated downward. And only the footrest frame 22 is rotated downward.
Reference numeral 30 denotes a tilt motor that rotates the footrest frame 22 up and down. Reference numeral 31 denotes a tilt rod that expands and contracts as the tilt motor 30 rotates. The tilt rod tilt rod 31 is attached to an arm 32 provided on the upper frame 23. Install.
Thus, the bases of the pair of left and right footrest side lower arms 34 are fixed to the left and right lower frame 33 of the footrest portion frame 22, and the step frame 35 is provided at the tip of each footrest side lower arm 34. The tip end of the step side arm 36 is rotatably attached by a step rotation shaft 37 in the left-right direction.
[0008]
Therefore, a step link mechanism 40 that rotates the step frame 35 forward as the footrest frame 22 rotates upward is provided between the footrest frame 22 and the step frame 35. The step link mechanism 40 is provided with a bracket 41 on the upper frame 23 of the footrest frame 22, and an intermediate portion of the intermediate arm 42 is rotatably attached to the bracket 41 by an attachment shaft 43, and one end (upper end) of the intermediate arm 42. The upper end (rear end) of the step link rod 44 in the front-rear direction is attached by a shaft 45, the lower end (front end) of the step link rod 44 is attached by a shaft 46 to the step side arm 36, and the other end (lower end) of the intermediate arm 42. The front end (lower end) of the operating link rod 47 is attached by a shaft 48, and the rear end of the operating link rod 47 is attached to the seat side arm 21 by a shaft 49.
In this case, the step link rod 44 is positioned on the back side of the footrest frame 22, and the intermediate arm 42 is positioned on the backside of the footrest frame 22 with the step frame 35 as the center of the step rotation shaft 37. The length and distance of the step link rod 44 so as to move the length (distance) of the footrest frame 22 and the seat frame 16 that are horizontal to the support position that is substantially horizontal from the storage position. Configure the arrangement.
Thus, the multipurpose chair frame body 1 is in a sitting mode in which the backrest frame 9 stands up at an arbitrary inclination angle and the footrest frame 22 is lowered forward, and the backrest frame is in this sitting mode. 9 and the footrest frame 22 can be independently rotated, and can be moved up and down with respect to the lower support frame 2 by the lifter mechanism 5.
[0009]
Further, when the back frame 9 is tilted backward from the seating mode and the footrest frame 22 is rotated upward until it is flush with the seat frame 16, a substantially horizontal bed mode is obtained.
The step frame 35 starts to rotate forward from the retracted position located on the back side of the footrest frame 22 until the footrest frame 22 is flush with the seat frame 16 from the sitting mode. When the hanging part frame 22 is in the bed mode and is substantially flush with the seat frame 16, the step frame 35 is also substantially flush with the leg hanging part frame 22 and the seat frame 16, and if it is further rotated upward, the step frame 35 side It shifts also to the expansion mode which makes the height of the dorsal frame 9 low.
Therefore, the armrest frame 50 is provided on either one or both sides of the multipurpose chair frame body 1. An upper part of a front turning arm 51 is rotatably attached to the front side of the armrest frame 50 by a horizontal shaft 52, and a lower part of the front turning arm 51 is rotatably attached to a front portion of the seat frame 16 by a horizontal shaft 53. The upper part of the rear rotating arm 54 is rotatably attached to the rear side of the armrest frame 50 by a horizontal shaft 55, and the back frame 9 is rotatable to the rear bracket 8 at the lower part of the rear rotating arm 54. An armrest link 56 such as a substantially parallel link is constituted by the front turning arm 51, the rear turning arm 54, and the armrest frame 50, and the armrest link 56 constitutes an armrest frame. Reference numeral 50 denotes a substantially horizontal state regardless of the inclination angle caused by the back and forth rotation of the dorsal frame 9. Note that when the back frame 9 is rotated backward from a predetermined angle, the armrest frame 50 is inclined downwardly.
[0010]
In this case, the armrest frame 50 is in an approximately horizontal state regardless of the inclination angle of the dorsal frame 9 and moves back and forth in accordance with the position of the dorsal frame 9, and the rotation of the dorsal frame 9 Switching to the rail mode located on the side of the seat frame 16 independently is performed.
A locking guide member 58 having an arcuate arc portion centered on the horizontal shaft 55 is provided on the horizontal shaft 55 which is an upper shaft attachment portion of the rear rotation arm 54, and the locking guide member 58 includes A lock hole 59 is provided, and an engagement member 60 that engages with and disengages from the lock hole 59 is movably provided on the rear rotation arm 54. The engaging member 60 is formed by a shaft member, the engaging member 60 is inserted through a pair of upper and lower mounting plates 61, and the mounting plate 61 is sandwiched by a rear rotating arm 54 formed by a pair of left and right plate members. An operation member 62 is attached to the engagement member 60 between the upper and lower attachment plates 61 by an arbitrary method, and the engagement member 60 is engaged between the operation member 62 and the attachment plate 61 toward the lock hole 59. A spring 63 for biasing is provided.
When the engaging member 60 engages with the lock hole 59, it becomes a rail mode and holds the rear rotating arm 54 at a predetermined angle. Therefore, the locking guide member 58, the lock hole 59, the engaging member 60, and the mounting plate 61 are retained. The operation member 62 and the spring 63 constitute an upper lock mechanism 65.
Thus, the lower side of the rear rotating arm 54 is a lower side that locks the rear rotating arm 54 and the horizontal shaft 10 so as to be in an armrest mode in which the rotation of the armrest link 56 is adjusted to the back frame 9. A lock mechanism 68 is provided.
The lower locking mechanism 68 is provided with an arc-shaped lower locking guide member 69 centered on the horizontal shaft 10 on the horizontal shaft 10 which is a lower shaft attachment portion of the rear rotating arm 54, and the lower locking guide The member 69 is provided with a lower lock hole 70, and a lower engagement member 71 that engages and disengages with the lower lock hole 70 is provided on the rear rotation arm 54 so as to be movable. The lower engaging member 71 is formed of a shaft member, and the lower engaging member 71 is inserted into a pair of upper and lower lower mounting plates 72, and the lower mounting plate 72 is sandwiched by the rear rotating arm 54. A lower operation member 73 is slidably attached to the lower engagement member 71 between the upper and lower lower attachment plates 72, and the lower engagement member 71 is provided between the lower operation member 73 and the lower attachment plate 72 in a lower lock hole. A lower spring 74 is provided that is urged so as to be engaged toward 70.
[0011]
When the lower engagement member 71 is disengaged from the lower lock hole 70, the rail mode is set to allow the upper lock mechanism 65 to be locked, and when the lower engagement member 71 is engaged with the lower lock hole 70, the armrest mode is set to By rotating the horizontal shaft 10 that rotates according to the rotation of the saddle frame 9, the rear rotation arm 54 is rotated according to the rotation of the back frame 9 through the lower engagement member 71 and the lower lock hole 70. .
In this case, the upper lock mechanism 65 and the lower lock mechanism 68 change the positions (phases) of the lock hole 59 and the lower lock hole 70, respectively, and the lock hole 59 is engaged when the rear rotating arm 54 is substantially vertical. The lower lock hole 70 is formed so as to be engaged at a position where the rear rotation arm 54 is inclined to prevent the upper lock mechanism 65 and the lower lock mechanism 68 from being mechanically locked. Yes.
Thus, the front turning arm 51 is divided into an upper arm 77 and a lower arm 78, and the upper arm 77 and the lower arm 78 are configured to be extendable and contractable with each other. Is configured to be changeable.
In the embodiment, the upper arm 77 is formed of a plate member, a pair of sliding cylinders 79 is fixed to the lower surface (inner surface) of the upper arm 77, and the lower arms 78 formed in a pair of shaft shapes are attached to the sliding cylinder 79. Insert. Reference numeral 80 denotes a retaining stopper provided at the upper part of the lower arm 78, and 81 denotes a stopper for stopping the reduction of the upper arm 77 and the lower arm 78.
[0012]
[Action]
Next, the operation will be described.
When the reclining motor 11 is rotated, the reclining rod 12 is reduced, and the dorsal frame 9 is rotated backward (downward) about the horizontal axis 10. Further, when the reclining motor 11 is reversed, the reclining rod 12 is extended, and the dorsal frame 9 is rotated forward (upward) about the horizontal axis 10.
Accordingly, when the tilt motor 30 is rotated, the tilt rod 31 is extended. Since the tilt rod 31 pushes the arm 32 of the footrest frame 22 forward, the footrest frame 22 starts to rotate upward about the footrest pivot shaft 25.
In this case, because the seat side arm 21 provided on the seat frame 16 and the leg side arm 24 provided on the footrest frame 22 are respectively formed with stopper surfaces 26, the footrest frame 22 and the seat frame 16 are formed. And the stopper surfaces 26 of the seat side arm 21 and the footrest side arm 24 come into contact with each other to restrict the upward rotation of the footrest portion frame 22, and the footrest portion frame 22. To the bed mode position.
Further, when the tilt rod 31 is further extended, the upward rotation of the footrest frame 22 with respect to the seat frame 16 is stopped, and the seat frame 16 and the footrest frame 22 are integrally rotated about the shaft 18. Move to the exhibition mode. On the other hand, when the seat frame 16 and the footrest frame 22 are integrally rotated downward from the profile mode or the bed mode, the seat coupling frame 20 of the seat frame 16 comes into contact with the upper surface of the front and rear heel 7. Then, the downward rotation of the seat frame 16 is restricted, and only the footrest frame 22 is rotated downward to enter the seating mode.
Thus, the lower frame 33 of the footrest frame 22 is provided with a footrest-side lower arm 34, and the step-side arm 36 provided on the step frame 35 is rotated by a step rotation shaft 37. The step frame 35 can be freely mounted and rotated from a storage position located on the back side of the footrest frame 22 to a support position substantially flush with the footrest frame 22, and between the seat coupling frame 20 and the step frame 35. Since the step link mechanism 40 is provided to the footrest frame 22, when the footrest frame 22 is rotated upward by the tilt motor 30, the step frame 35 is first rotated downward about the step rotation shaft 37. When the leg frame 22 is substantially flush with the seat frame 16 in the seating mode, it starts to rotate upward so as to be reversed when passing through the lower part of the seat. Frame 35 becomes the leg rest portion frame 22 substantially flush.
[0013]
In this case, the step link mechanism 40 attaches the intermediate portion of the intermediate arm 42 to the bracket 41 of the upper frame 23 of the footrest frame 22 so as to be rotatable by the attachment shaft 43, and steps in the front-rear direction to one end of the intermediate arm 42. The upper end (rear end) of the link rod 44 is attached by a shaft 45, the lower end (front end) of the step link rod 44 is attached by a shaft 46 to the step side arm 36, and the operation link is connected to the other end (lower end) of the intermediate arm 42. Since the front end (lower end) of the rod 47 is attached by the shaft 48 and the rear end of the operation link rod 47 is attached to the seat side arm 21 by the shaft 49, the step link rod 44 located on the back side of the footrest frame 22 is The intermediate arm 42 rotates about the attachment shaft 43 and moves forward with respect to the footrest frame 22 by a predetermined distance. Hook is rotated from the storage position located on the back side of the frame 22 to the supporting position where the foot hold unit frame 22 substantially horizontal to step the pivot shaft 37 around.
In other words, when the tilting rod 31 is extended by the tilting motor 30, the footrest frame 22 is rotated about the footrest rotating shaft 25, whereby the mounting shaft 43 to which the intermediate arm 42 is attached is also the footrest rotating shaft. The actuating link rod 47 pivots about the shaft 49 below the footrest pivot shaft 25, so that the actuating link rod 47 pulls the lower end of the intermediate arm 42. Thus, the shaft 45 moves forward with respect to the shaft 49, and the step link rod 44 moves through this length (distance). Therefore, the step frame 35 at the retracted position rotates to the support position.
[0014]
Therefore, a motor or the like for rotating the step frame 35 becomes unnecessary.
Thus, the step frame 35 rotates with respect to the footrest frame 22 about the step rotation shaft 37, so that the footrest frame 22 does not form a gap with the front end of the footrest frame 22. Extend the length of the bed mode.
Further, as the lower end of the footrest part frame 22 moves away from the floor surface, the step frame 35 increases in the downward rotation amount, and the tip end of the footrest part frame 22 is located where the front end of the step frame 35 is located a predetermined distance above the floor surface. In the seating mode, the step frame 35 is located on the back side of the footrest frame 22 and does not interfere with the seated person's feet. The foot surface is brought into contact with the floor surface, and when the footrest frame 22 is turned upward to enter the bed mode, the length of the footrest frame 22 can be extended to support the seated person's foot.
That is, the step frame 35 is expected to act to compensate for the length of the footrest frame 22 in the bed mode, and the step frame 35 itself has a predetermined thickness, so that the footrest frame 22 is in the storage mode or the seating mode. The seat surface height is set by the seat frame 16 from the upper surface of the step frame 35 to increase the seat surface height at the initial position. Therefore, it is not preferable, and the low setting of the seating surface height and the extension of the footrest frame 22 in the bed mode are difficult to achieve at the same time. Both the securing of the length of the footrest frame 22 in the bed mode is achieved.
[0015]
As described above, the multipurpose chair frame main body 1 is displaced, but when this is put together, the back frame 9 is flush with the seat frame 16, the footrest frame 22, and the step frame 35 that are substantially horizontal. Then, the bed mode is set, and when the seat frame 16, the footrest frame 22 and the step frame 35 are rotated upward and the dorsal frame 9 is rotated downward, the step frame 35 side is high, and the dorsal frame 9 Transition to the slimming mode where the side is low.
Therefore, the armrest frame 50 is provided on either one or both sides of the multi-purpose chair frame body 1, and the armrest frame 50 is formed in a parallel link shape by an armrest link 56 including a front rotation arm 51 and a rear rotation arm 54. The upper locking mechanism 65 and the lower locking mechanism 68 are provided on the upper and lower portions of the rear rotating arm 54, respectively. The upper locking mechanism 65 and the lower locking mechanism 68 lock and unlock the rotation of the armrest link 56. Since the upper lock mechanism 65 and the lower lock mechanism 68 are configured such that one of them is locked and the other is unlocked, when the lower lock mechanism 68 is locked, The armrest frame 56 including the side pivoting arm 54 is rotated in accordance with the dorsal frame 9 and the armrest frame. 0 are moved back and forth to the armrest mode held in a substantially horizontal state while.
When the upper locking mechanism 65 is locked, the lower locking mechanism 68 is unlocked, and the armrest frame 50 is always located at a predetermined position regardless of the back and forth rotation of the dorsal frame 9 and enters the rail mode. .
[0016]
In this case, the upper lock mechanism 65 and the lower lock mechanism 68 lock the upper lock mechanism 65 when the rear rotation arm 54 is substantially vertical, and the lower lock mechanism when the rear rotation arm 54 is inclined. Since 68 are locked, they are prevented from being mechanically locked to each other.
Thus, the upper locking mechanism 65 is provided with a locking guide member 58 substantially concentric with the horizontal shaft 55 on the armrest frame 50, and the locking guide member 58 is provided with a locking hole 59 and engaged with the locking hole 59. An engaging member 60 is provided movably on the mounting plate 61 of the rear rotating arm 54, the engaging member 60 is provided with a spring 63 that is urged to engage with the lock hole 59, and the lock hole 59 Since the rear rotation arm 54 is provided at a position where the rear rotation arm 54 is fitted in the rail mode, when the engagement member 60 is detached from the lock hole 59 by the operation member 62, the engagement member 60 is moved to the outer periphery of the lock guide member 58. The armrest link 56 is held in the unlocked state only by sliding the frame, and therefore the armrest link 56 operates in response to the rotation of the dorsal frame 9.
When the armrest frame 50 is moved from the armrest mode to a predetermined position in the rail mode, the engagement member 60 is engaged with the lock hole 59 by the elasticity of the spring 63, and the angle between the armrest frame 50 and the rear rotation arm 54. As a result, the operation of the armrest link 56 is fixed, and the rail mode is set.
Thus, the lower locking mechanism 68 is provided with a lower locking guide member 69 substantially concentric with the horizontal shaft 10 in the armrest frame 50 (in this embodiment, a shaft cylinder member is fitted), and the lower locking guide. The member 69 is provided with a lower lock hole 70, and a lower engagement member 71 that engages with the lower lock hole 70 is movably provided on the lower mounting plate 72 of the rear rotation arm 54. Since the lower spring 74 is provided to be urged so as to be engaged with the hole 70 and the lower lock hole 70 is provided at a position where the rear rotating arm 54 is fitted in the armrest mode, the upper lock mechanism is provided. When 65 is unlocked and the armrest frame 50 is pushed rearward, the lower engagement member 71 engages and locks with the lower lock hole 70, so that the armrest link 56 rotates the back frame 9. In response to operate.
[0017]
On the contrary, when the lower engagement member 71 is detached from the lower lock hole 70 by the lower operation member 73 and the armrest frame 50 is moved from the armrest mode to the predetermined position in the rail mode, the lower engagement member 71 becomes the lower lock guide member. The lower lock mechanism 68 is held in an unlocked state simply by sliding on the outer periphery of 69, while the angle between the armrest frame 50 and the rear rotation arm 54 is fixed by the upper lock mechanism 65, thereby The operation is fixed and the rail mode is set.
Therefore, the upper lock mechanism 65 is unlocked when the engaging member 60 is lowered, and the lower lock mechanism 68 is unlocked when the lower engaging member 71 is moved upward. When sandwiched vertically, the upper lock mechanism 65 and the lower lock mechanism 68 are unlocked at a time, and the use mode can be changed, facilitating the operation.
That is, if only one operation member is provided, even if the mode can be changed to a certain mode, it may be confused when operating without knowing whether the same operation member may be used to change to another mode. However, by providing the two operation members of the operation member 62 and the lower operation member 73 and operating them at the same time, it is possible to avoid confusion in operation without deteriorating operability.
In this case, the upper lock mechanism 65 and the lower lock mechanism 68 are substantially the same except that the position of the lock hole of the lock guide member is changed, and therefore two operation mechanisms are provided. Even so, the increase in cost can be sufficiently suppressed.
[0018]
Therefore, since the upper lock mechanism 65 and the lower lock mechanism 68 change the positions of the lock hole 59 and the lower lock hole 70, respectively, when the engaging member 60 of the upper lock mechanism 65 is engaged with the lock hole 59. When the lower engagement member 71 of the lower lock mechanism 68 is detached from the lower lock hole 70 and the engagement member 60 of the upper lock mechanism 65 is separated from the lock hole 59, the lower engagement member of the lower lock mechanism 68 is removed. 71 engages with the lower lock hole 70 to prevent the upper lock mechanism 65 and the lower lock mechanism 68 from being mechanically locked with a simple configuration.
Thus, the front turning arm 51 is divided into an upper arm 77 and a lower arm 78, and the upper arm 77 and the lower arm 78 are configured to be extendable and contractable with each other. Therefore, even if a foreign object enters between the armrest frame 50 and the seat frame 16 while the dorsal frame 9 rotates backward, the space between the horizontal shaft 52 and the horizontal shaft 53 is not limited. This prevents the foreign matter from being caught.
That is, when a foreign object enters between the armrest frame 50 and the seat frame 16 and tries to lift the armrest frame 50, the sliding cylinder 79 of the upper arm 77 slides with respect to the lower arm 78, widens the interval, When the distance sliding cylinder 79 moves, the sliding cylinder 79 comes into contact with the stopper 80 at the upper part of the lower arm 78.
When the slide cylinder 79 is returned to the original position after moving, the stopper 81 comes into contact with the upper end of the lower arm 78 and stops the lowering of the upper arm 77.
In this case, the upper arm 77 is formed in a plate shape, a sliding cylinder 79 is provided on the upper arm 77, and the shaft-shaped lower arm 78 is slidably inserted into the sliding cylinder 79. A telescopic mechanism can be achieved.
It should be noted that names such as “reclining” and “tilt” are given to the components, and explanations are made using words such as “sitting mode”, but these names are for ease of understanding. It is not limited by words and phrases.
[0019]
【effect】
In the present invention, an upper support frame 6 is provided above a support lower frame 2 placed on the floor, and a back frame 9 and a seat frame 16 are rotatably attached to the upper support frame 6. In the case where the base portion of the footrest frame 22 is rotatably provided on the front side, the armrest frame 50 is attached to the left or right side or both sides of the seat frame 16 and the backrest frame 9 is rotated by the armrest link 56. It is configured to switch between an armrest mode that moves back and forth while maintaining a substantially horizontal state in accordance with movement, and a rail mode that is fixed to a predetermined position on the side of the seat frame 16 regardless of the rotation of the dorsal frame 9. When the armrest mode is set between the armrest frame 50 and the rear rotation arm 54 of the armrest link 56, they are rotated. In the rail mode, an upper lock mechanism 65 is provided for fixing both of them. Between the lower part of the rear rotating arm 54 and the dorsal frame 9, a side of the dorsal frame 9 is provided in the armrest mode. Since it is an armrest of a multi-purpose chair provided with a lower lock mechanism 68 that locks with the shaft 10 side, it can be maintained in a substantially horizontal state regardless of the inclination angle of the dorsal fin frame to ensure usability as an armrest. Of course, it can be held upright and used for rails, improving the versatility of the multi-purpose chair, and further providing a lock mechanism at the top and bottom, simplifying the manufacturing and assembling process and reducing the cost.
According to the present invention, in the armrest, the upper lock mechanism 65 and the lower lock mechanism 68 are armrests of a multi-purpose chair configured such that when one of them is locked, the other is unlocked. Prevents mechanical locking with a simple configuration.
According to the present invention, in the armrest, the upper lock mechanism 65 and the lower lock mechanism 68 are formed by locking guide members 58 and 69 concentric with the pivot center at the shaft attachment portions of the armrest frame 50 and the rear pivot arm 54. Are provided with locking holes 59 and 70 through which the engaging members 60 and 71 are connected, and the engaging member 60 and the lower engaging member 71 are in the length direction of the rear rotating arm 54 and opposite to each other. Since the armrest of the multi-purpose chair is configured to be movably provided on the rear rotation arm 54 so as to move in the direction and connect to and disengage from the lock holes 59 and 70, the two operation members 62 and the lower operation member 73 are provided so that they are always operated at the same time, so that confusion in operation can be avoided without deteriorating operability.
According to the present invention, in the armrest, the lock hole 59 is engaged with the engagement member 60 when the rear rotation arm 54 is in a substantially vertical state, and the lower engagement member 71 is engaged with the lower engagement member 71 in an inclined state. Since it is an armrest of a multipurpose chair configured to fit together, it is possible to prevent mechanical locking with a simple configuration.
[Brief description of the drawings]
FIG. 1 is a side view of a frame body (sitting mode).
FIG. 2 is a side view of a state in which a footrest frame is moved up.
FIG. 3 is a side view of the armrest of FIG. 2 in a rail mode.
FIG. 4 is a side view of a state in which the dorsal frame is rotated backward.
FIG. 5 is a side view of a footrest part frame and a step link mechanism part.
FIG. 6 is a side view of a footrest part frame and a step link mechanism part.
FIG. 7 is a schematic perspective view of a step link mechanism.
FIG. 8 is a plan view of a step link mechanism, a seat frame, and a footrest frame portion.
FIG. 9 is a schematic explanatory diagram of a displacement state of a step frame.
FIG. 10 is a schematic perspective view of the left half portion of the frame body.
FIG. 11 is a schematic perspective view of the left half portion of the frame body.
FIG. 12 is a side view of the vertical lock mechanism.
FIG. 13 is a sectional view of the same.
FIG. 14 is a side view of the armrest mode state.
FIG. 15 is a side view of a rail mode.
FIG. 16 is a perspective view of a vertical lock mechanism.
FIG. 17 is a side view of the front arm in a normal state.
FIG. 18 is a side view of the front arm in an extended state.
FIG. 19 is a perspective view of the front arm in a normal state.
FIG. 20 is a perspective view of the front arm in an extended state.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Multi-purpose chair frame main body, 2 ... Supporting lower frame, 4 ... Rolling wheel, 5 ... Lifter mechanism, 6 ... Upper support frame, 7 ... Front / rear side, 8 ... Rear bracket, 9 ... Back frame, 10 ... Horizontal axis , 11 ... Reclining motor, 12 ... Reclining rod, 13 ... Mounting rod, 14 ... Shaft, 15 ... Standing part, 16 ... Seat frame, 17 ... Rear frame, 18 ... Shaft, 19, 20 ... Seat coupling frame, 21 ... Seat side arm, 22 ... Foot frame, 23 ... Upper frame, 24 ... Foot side arm, 25 ... Foot pivot, 26 ... Stopper surface, 30 ... Tilt motor, 31 ... Tilt rod, 32 ... arm, 33 ... lower frame, 34 ... lower arm on foot side, 35 ... step frame, 36 ... step side arm, 37 ... step rotation shaft, 40 ... step link mechanism, 41 ... bracket, 42 ... middle Arm, 43 ... Mounting shaft, 44 ... Step link rod, 45 ... shaft, 46 ... shaft, 47 ... Actuation link rod, 48 ... shaft, 49 ... shaft, 50 ... Armrest frame, 51 ... Front pivot arm, 52 ... Horizontal axis 53... Horizontal axis 54... Rear rotation arm 55. Horizontal axis 56. Armrest link 58. Lock guide member 59. Upper lock hole 60. Upper engagement member 61. 62 ... Upper operation member, 63 ... Spring, 65 ... Upper lock mechanism, 68 ... Lower lock mechanism, 69 ... Lower lock guide member, 70 ... Lower lock hole, 71 ... Lower engagement member, 72 ... Lower mounting plate 73 ... Lower operation member, 74 ... Lower spring, 77 ... Upper arm, 78 ... Lower arm, 79 ... Sliding cylinder, 80 ... Stop stopper, 81 ... Stopper.

Claims (4)

An upper support frame 6 is provided above the lower support frame 2 placed on the floor, and a dorsal frame 9 and a seat frame 16 are rotatably attached to the upper support frame 6, and a foot is attached to the front side of the seat frame 16. In the structure in which the base part of the part frame 22 is provided so as to be rotatable, an armrest frame 50 is provided on either one or both sides of the seat frame 16 according to the rotation of the back frame 9 by an armrest link 56. The armrest mode is configured to be switched between an armrest mode that moves back and forth while maintaining a substantially horizontal state and a rail mode that is fixed to a predetermined position on the side of the seat frame 16 regardless of the rotation of the dorsal frame 9. In the armrest mode between the frame 50 and the rear rotating arm 54 of the armrest link 56, the two can rotate freely. An upper lock mechanism 65 is provided for fixing both in the case of the mode, and between the lower part of the rear rotating arm 54 and the dorsal frame 9, the horizontal axis 10 side of the dorsal frame 9 in the armrest mode. Armrests for multipurpose chairs with lower locking mechanism 68 for locking. The armrest of the multipurpose chair according to claim 1, wherein the upper lock mechanism 65 and the lower lock mechanism 68 are configured such that when one of them is locked, the other is unlocked. In claim 2, the upper locking mechanism 65 and the lower locking mechanism 68 are engaged with locking guide members 58 and 69 concentric with the pivot center at the pivot portions of the armrest frame 50 and the rear rotation arm 54, respectively. Lock holes 59 and 70 for connecting and disconnecting the coupling members 60 and 71 are provided, respectively, and the engagement member 60 and the lower engagement member 71 move in the length direction of the rear rotation arm 54 and in directions opposite to each other. Then, the armrest of the multi-purpose chair constructed so as to be movably provided on the rear rotating arm 54 so as to be connected to and disengaged from the lock holes 59 and 70, respectively. 4. The lock hole 59 according to claim 3, wherein the engagement member 60 is engaged with the rear rotating arm 54 in a substantially vertical state, and the lower engagement member 71 is engaged with the lower engagement member 71 in an inclined state. The armrest of the multi-purpose chair constructed in

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