JP6353484B2 - Chair - Google Patents

Description

The present invention relates to a chair which can change the initial position ((reference attitude is attitude in a side view of the backrest in a state where no lean person, the initial angle).

In the chair, it has been proposed to allow change the initial orientation of the backrest. As an example of the posture change method, Patent Document 1 discloses that in a rocking chair in which the seat and the backrest are tilted integrally, the initial posture of the seat and the initial posture of the backrest are changed by changing the initial posture of the seat by lever operation. Are described to change together.

  In Patent Documents 2 and 3, in a rocking chair in which a backrest is attached to a back frame that is connected to a base so as to be able to tilt backward, the initial posture of the backrest is changed by adjusting the posture of the back frame in a non-locking state. Is described. Further, in Patent Document 4, when the backrest is attached to the left and right brackets fixed to the seat, the backrest is connected to the bracket so as to rotate about the middle part of the top and bottom, and the rotation posture is changed by operating the pin. It is described to change.

  Further, in Patent Documents 5 and 6, in a chair in which a backrest having a lumbar support portion is attached to the back frame, the backrest is connected to the back frame so as to rotate around its upper end, and the lumbar support portion It is described that the side view posture of the backrest is changed by changing the protruding amount.

Japanese Examined Patent Publication No. 47-49543 JP 2002-142897 A Special table 2010-516433 Japanese Patent Publication No.46-8447 Japanese Patent No. 4185754 Japanese Patent No. 4220191

  Now, it has been pointed out that it is important to support the lumbar part (especially around the third lumbar vertebrae) of a seated person in a chair, and therefore, it is widely used to provide a lumbar support part that protrudes forward in a side sectional view . In other words, when a person sits on a chair and works, the lumbar support part supports the person's waist, so that the person can take a proper posture with his back straightened, thereby reducing the burden on the body. Can be reduced.

  On the other hand, the initial posture of the backrest is changed to suit the user's preference, but it is not preferable that the contact with the body changes by changing the initial posture. In other words, it is not preferable that the body support position shifts back and forth or the body contact position shifts up and down by changing the initial posture of the backrest.In a chair having a lumbar support part, the lumbar support function is accurately set. It is preferable that the initial posture can be changed while being held.

  However, since Patent Documents 1 to 3 change the initial posture by tilting the backrest around the rotation fulcrum of the back frame, the backrest moves back and forth as a whole as the initial posture is adjusted. For this reason, there is a possibility that the body may have a feeling of being pushed up, or the support function of the body may be reduced.

  Since Patent Documents 5 and 6 move the lumbar support part back and forth, it is difficult to respond to a request to change the initial posture of the backrest without changing the lumbar support function.

Since the backrest of Patent Document 4 rotates around its upper and lower middle parts, it can be said that the fit to the body is high, but since the backrest does not have a lumbar support part, There is a possibility that the lower end protrudes forward and gives a person a feeling of pushing up. Further, since the posture is changed by operating a pin provided on the upper end portion of the bracket, it is difficult to change the posture while sitting, and there is a problem that the operability is poor.

The present invention has been made in view of such circumstances, is to St. provide conscious and chair operability or the like of the posture change.

The present invention has the structure of each claim. The invention of claim 1 has a seat and a backrest arranged behind the seat, and the backrest is in a side view posture in a state where no person is leaned on a back frame extending rearward from below the seat. A chair that is attached in a state in which a certain initial posture can be changed,
On the rear end of the back frame, an upward back strut is provided, and the backrest is connected to the upper end of the back strut,
A lower end portion of the backrest is located behind the seat, an upward bearing rib is provided in a portion of the back frame located behind the seat, and a lower connecting portion is provided at the lower end of the backrest. A rotary handle that protrudes downward and allows the seated person to extend and operate the lower connecting part and the bearing rib so that the lower connecting part can be moved back and forth with respect to the bearing rib. Thus it is connected to.

The invention of claim 2 is the invention according to claim 1,
The lower connecting part and the handle of the backrest are arranged behind the seat and below the seat surface,
The initial posture of the backrest can be changed by providing an interval allowing the lower end of the backrest to move back and forth between the rear end of the seat and the lower end of the backrest.

According to a third aspect of the present invention, in the first or second aspect, the handle is disposed so as to rotate about a laterally horizontally long axis.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the backrest has a structure in which a mesh material is stretched on a frame opened in the front-rear direction.

In the present invention, since the handle for changing the initial posture of the backrest can be operated while the person is seated, the person can adjust the posture while trying to feel the body and is user-friendly.

According to the second aspect of the present invention, since the initial posture adjusting device including the bearing rib, the lower connecting portion, and the handle is located behind the seat and lower than the seat surface, the initial posture adjusting device becomes an obstacle and deteriorates the appearance. Nor.

Since the handle is a rotary type, there is an advantage that the initial posture of the backrest can be easily changed with one touch.

The chair of a reference example is shown, (A) is the perspective view seen from the front, (B) is the perspective view seen from the back, (C) is the separation side view which shifted the back frame back. FIG. It is the perspective view which abbreviate | omitted the support mechanism part and the seat part. (A) is the perspective view which looked at the back frame from the bottom, (B) is the isolation | separation perspective view in the state which turned over the 2nd back frame. (A) (B) is the isolation | separation perspective view of a backrest and a 2nd back frame. (A) and (B) are separation perspective views for explaining an initial posture adjusting device. (A) is a separated perspective view of a lever and a backrest, (B) is a perspective view of an initial posture adjusting device, and (C) is a perspective view of a lower end portion of a back inner shell. It is VIII-VIII sectional view taken on the line of FIG. (A) is a longitudinal side view of the main part, (B) is a cross-sectional view taken along the line BB of (A). (A) is a cross-sectional perspective view showing the initial posture adjusting device, and (B) is a cross-sectional view taken along the line XB-XB in FIG. It is a vertical side surface of the position fixing means. It is a figure which shows 1st Embodiment, (A) is a whole perspective view, (B) is the isolation | separation perspective view of the principal part. It is a figure which shows 1st Embodiment, (A) is a cross-sectional perspective view, (B) is sectional drawing in the state which changed the cutting position, (C) is the schematic diagram which took out a part of (B). It is a fragmentary perspective view of 2nd Embodiment. It is a separation perspective view of a 2nd embodiment. It is a figure which shows 2nd Embodiment, (A) is a cutting | disconnection perspective view, (B) is the perspective view which looked at the initial position adjustment apparatus from the downward direction. It is a whole perspective view of 3rd Embodiment. It is a fragmentary perspective view of 3rd Embodiment. It is a separate perspective view of a 3rd embodiment. (A) (B) is the isolation | separation perspective view of 3rd Embodiment. (A) is a perspective view which shows the fitting state of a surrounding surface cam, (B) is a separate perspective view of a handle and a surrounding surface cam. (A) is a longitudinal front view of the main part, (B) is a cross-sectional view taken along the line BB of (A).

Next, reference examples and embodiments of the present invention will be described with reference to the drawings. In the following description, the words “front and rear” and “left and right” are used to specify the direction. The front view direction is the direction facing the seated person, and therefore the left and right in the front view are opposite to the left and right viewed from the seated person.

(1). Summary of the chair according to a reference example First, an outline of the chair according to the reference example will be described mainly with reference to FIGS. 1 to 3 (and basic structure of the chair is common to all embodiments.). This reference example (and an embodiment described later) is applied to a swivel chair that is frequently used for office work and the like, and the chair displays only the leg support 1 (see FIG. 1C). And a base 2 fixed to the upper end of the leg support 1, a seat 3 disposed on the base 2, and a backrest 4 on which a seated person can lean. The base 2 is formed in a box shape opened upward.

  For example, as shown in FIG. 2, an intermediate metal fitting (seat receiving metal fitting) 5 made of a metal plate is arranged on the base 2, and a resin seat outer shell 6 is attached to the intermediate metal fitting 5. The seat 3 includes a resin seat inner shell (seat plate) and a seat cushion material disposed on the upper surface thereof, but since there is no direct relationship with the present application, the description thereof is omitted.

For example, as shown in FIG. 2, the first back frame 7 is connected to the base 2 so as to be able to tilt backward, and the second back frame 8 located behind the first back frame 7 is fixed to the first back frame 7. A backrest 4 is attached to the second back frame 8. The first back frame 7 has an arm portion 7 a that extends forward at an outer position of the base 2, and the front end portions of the left and right arm portions 7 a are connected to the base 2 by a horizontally elongated first shaft 9. Accordingly, the backrest 4 tilts back and forth around the axis of the first shaft 9. The first back frame 7 is an aluminum die-cast product, and the second back frame 8 is a resin-molded product, but either a metal die-cast product such as aluminum or a resin-molded product can be employed. is there. Accordingly back frame to the first and second back frames 7 and 8 are configured.

The chair of this reference example is a synchro-type chair in which the seat 3 is retracted in conjunction with the backward tilting of the backrest 4, and as can be understood from FIG. The rear part of the intermediate metal fitting 5 is connected to a bracket part 11 projecting upward from the first back frame 7 by a horizontally long second shaft 12. Yes. Inside the base 2, a reaction force unit that elastically supports the back tilt of the backrest 4 and the seat 3, a locking gas cylinder that controls the tilting of the backrest 4, and the like are arranged directly with the present invention. Since there is no relationship, the description is omitted.

Second back frame 8 has a base portion 13 fixed to the first back frame 7 has a the corner (one) projecting upward from left and right end portions shaped back support 14, the upper end of the back pillar 14 The backrest 4 is connected to the portion so as to be tiltable back and forth, and the base 13 is provided with a part of the initial posture adjusting device 15. By changing the support position of the backrest 4 in the front-rear direction by the initial posture adjustment device 15, the initial posture (initial angle) of the backrest 4 in the non-locking state is adjusted.

(2). Backrest and then its mounting structure, the details of each portion will be described with reference to FIG. 4 the following drawings. First, details of the backrest 4 and its mounting structure will be described. As shown in FIG. 1A, the backrest 4 has a back inner shell 18 that is a molded product of resin such as polypropylene, a cushion 19 stretched on the front surface, and a skin material 20 such as a cloth. doing. Therefore, the outer shape of the backrest 4 is the same as the outer shape of the back inner shell 18.

The skin material 20 is configured in a bag shape and covers the entire back inner shell 18 from above. When the skin material 20 is configured in a bag shape as in this reference example , a thin cushion sheet can be disposed on the back surface of the back inner shell 18 to give tension to the skin material 20. As shown in FIG. 5A, a large number of grid-like reinforcing ribs 21 extending in the vertical and horizontal directions are formed on the back surface of the back inner shell 18.

  For example, as shown in FIG. 3 and FIG. 9 (A), the backrest 4 has a lumbar support portion 22 against which the waist of a seated person hits. Therefore, the backrest 4 has a forward projecting shape in a side view and a longitudinal side view. It has become. Strictly speaking, the back inner shell 18 is curved so that the lumbar support portion 22 is located in the foremost position in a longitudinal side view. Further, the back inner shell 18 is gently curved in a concave shape in a plan view, but the degree of curvature is greatest at the lumbar support portion 22, and the degree of curvature decreases as it goes upward, and is flat at the upper end. It is a close form.

For example, as shown in FIG. 3, the backrest 4 is set such that the left and right lateral width is the largest at the lumbar support portion 22 and the lateral width decreases as the distance from the lumbar support portion 22 increases. Therefore, the backrest 4 (back inner shell 18) has a shape close to a substantially hexagonal shape when viewed from the front. Since the lumbar support portion 22 is close to the lower portion of the back inner shell 18, the backrest 4 is precisely in the form of a downwardly swelled hexagonal shape, and the left and right end portions of the lumbar support portion 22 are laterally oriented in the front view. It has the shape of a protruding mountain.

  And the side connection part 23 for connecting with the back support | pillar 14 is provided in the right-and-left end part of the lumbar support part 22 in the back inner shell 18. The side connection part 23 protrudes forward from the periphery. A longitudinal rib 24 extending upward from the side connecting portion 23 is provided on the front side portion of the back inner shell 18.

As shown in FIG. 4, the base excluding the arm portion 7a of the first back frame 7, while forms an essentially plate-shaped or block-shaped form, the base 13 of the second back frame 8 also plate in the form close to Jo or block shape, the rear portion of the first back frame 7, overlapping the front portion of the base portion 13 in the second back frame 8 has entered both by screws 25. In this case, a protrusion 13 a provided at the front end of the base 13 in the second back frame 8 is fitted into a space 26 in the rearward opening formed in the first back frame 7, and a horizontally long shape provided in the first back frame 7. The fitting protrusion 27 and a horizontally long fitting groove 28 provided on the lower surface of the base portion 13 of the second back frame 8 are fitted. For this reason, both the back frames 7 and 8 are firmly fastened by the single screw 25.

For example, as shown in FIG. 5, a fist-like head portion 14a that opens forward is formed at the upper end of the back column 14 in the second back frame 8, and a bearing portion that opens forward is formed on the head portion 14a. 29 is formed integrally. On the other hand, a boss portion 30 that fits into the bearing portion 29 is formed integrally with the side connecting portion 23 of the back inner shell 18, and the side connecting portion 23 of the back inner shell 18 is fitted to the back connecting portion 23 . the head 14a of the strut 14, are forward omission non linked. The boss part 30 is integrally connected to a rib 31a provided on the outer side and a regulation plate 31b provided on the inner side.

As clearly shown in FIG. 10B, the bearing portion 29 has a constricted portion, while the boss portion 30 has an oval cross section. However, when the backrest 4 is set in a predetermined posture, the boss portion 30 is substantially omitted. While the horizontal posture is set, the opening direction of the bearing portion 29 is set to open obliquely upward with respect to the horizontal. For this reason, by setting the backrest 4 to a posture inclined backward with respect to a predetermined posture , the boss portion 30 can be fitted into the bearing portion 29, and the lower end of the back inner shell 18 is connected to the second back frame 8, Even if a forward external force acts on the backrest 4, the boss portion 30 is held so as not to be detached from the bearing portion 29. Therefore, the backrest 4 can be easily attached.

As shown in FIGS. 5 and 8, a portion of the inner bearing part 29 of the head portion 14a of the back support 14, the load receiving unit 32 having an arcuate surface that is much crab greatly curvature than the radius of the boss portion 30 is On the other hand, the side connecting portion 23 of the back inner shell 18 is integrally provided with an arc-shaped load application portion 33 that fits into the load receiving portion 32. Since the load bearing portion 33 is in contact with the load receiving portion 32 in a wide area (surface contact), the back inner shell 18 is stably supported by the left and right back struts 14 without being hindered from rotating back and forth. It is supported by.

In addition, a groove 32a is formed between the bearing portion 29 and the load receiving portion 32 in the head portion 14a of the back column 14, and the regulation plate 31b of the back inner shell 18 is exactly fixed to the groove 32a so that it cannot be displaced left and right. It is fitted. As described above, the back inner shell 18 is held so as not to be laterally displaced by the fitting of the groove 32a and the regulating plate 31b. Therefore, a backward load acts on the lumbar support portion 22 so that the side connecting portion 23 faces inward. Even if pulled, the side connecting portion 23 does not move inward. For this reason, the mounting strength is high. Bottom and outer periphery of the regulating plate 31b of the groove 32a are formed in an arc shape and curvature of the center of the axis of the boss portion 30 in a side view, therefore, the back inner shell 18 about the axis of the boss portion 30 It is allowed to rotate.

As described above, in the assembly structure of the upper end of the back column 14 and the back inner shell 18, the retaining in the front-rear direction, the support of the load applied to the backrest 4, and the prevention of left-right displacement are performed at different specific parts. Specifically, the boss portion 30 and the bearing portion 29 prevent the detachment in the front-rear direction, so that the boss portion 30 does not have other functions (support of load on the back, prevention of left-right displacement). Is loosely fitted to the bearing portion 29 with a slight clearance between its outer peripheral surface and the inner peripheral surface of the bearing portion 29, and the boss portion 30 is larger than the left and right width dimensions of the bearing portion 29. By setting the left and right width dimensions to be slightly wider, the rib plate 31 a is prevented from hitting the side surface of the bearing portion 29. Further, the rear end surface of the regulation plate 31 is set so as not to hit the bottom surface of the groove 32 a in the back column 14.

(3) Initial posture adjusting device The lower middle portion of the back inner shell 18 is connected to the second back frame 8 through the initial posture adjusting device 15 at the left and right intermediate portions. This point will be described next.

For example, as shown in FIG. 7 (A) (C), the left and right intermediate portions of the lower end of the back inner shell 18, and provided with a lower connection portion 35 which is forward protruded, downward to the opening in the lower coupling portion 35 The center groove 36 is formed, and a pin hole 37 is opened across the center groove 36. Furthermore, among the lower portion of the back inner shell 18, b on the right side of the site A connecting portion 35, ribs 38, 39 of upper and lower, which are connected to the lower connecting portion 35, the scan between the upper and lower ribs 38 and 39 wearing the lever 4 0 Ride formula freely right and left slide. The lower connecting portion 35 and the lever 40 are components of the initial posture adjusting device 15. The lever 40 is provided with a finger hook 40a that can be grasped by a person.

The lever 40 is integrally formed with a pin-like lock pin 41 that fits into the pin hole 37 of the lower connecting portion 35. Therefore, when the lever 40 is slid left and right, the lock pin 41 can be projected and retracted in the center groove 36 of the lower connecting portion 35. The lock pin 41 is an example of the scan topper. The upper rib 38 is provided with a claw 42 for holding the lever 40 so as not to be detached from the back inner shell 18.

Further, the lever 40 is provided with a spring disposing space 43a that opens toward the back inner shell 18 and a stroke restricting space 43b. The spring disposing space 43a is located on the lock pin 41 side, and the stroke restricting space 43b is located on the finger hooking portion 40a side. On the other hand, the back inner shell 18 is provided with a spring receiving protrusion 44a that enters the spring placement space 43a and a stroke restriction projection 44b that enters the stroke restriction space 43b, and the spring receiving protrusion 44a and the spring placement space 44b. A compression coil spring 43c is disposed between the inner surface 43e of the place 43a. For this reason, the lever 40 is urged so that the lock pin 41 fits into the lower connecting portion 35 and becomes free (so that the lock position is maintained). The spring 43c is arranged in the spring arrangement space 43a by being pushed in from a window hole 43e provided in the front surface of the lever 40.

The retraction position is regulated when the lever 40 is pulled outward by hand by applying the inner side surface of the stroke regulating space 43b to the stroke regulating projection 44b. The forward position when the lever 40 is pushed by the spring may be regulated by applying the inner surface of the spring placement space 43a to the stroke regulating projection 44b, or the end of the lever 50 is connected to the lower part. You may carry out by contacting to the side surface of the part 35. FIG.

As shown in FIG. 7B, a block-like lock body 45 is provided at the rear end of the base portion 13 of the second back frame 8 so as to be fitted into the center groove 36 of the lower connecting portion 35 of the seat inner shell 18 from below. The lock body 45 has three lock holes 46 into which the lock pins of the lever 40 are fitted. Therefore, the lock body 45 is also a component of the initial posture adjusting device 15. The three lock holes 46 are present on an arc centered on the rotation fulcrum of the back inner shell 18, and the initial posture of the backrest 4 is obtained by selectively fitting the lock pins into any of the lock holes 46. Can be changed in three stages. Needless to say, the number of the lock holes 46 is not limited to three, but may be two or four or more. Lock hole 46 is an example of a lock portion.

  The lock body 45 is made of resin and is formed separately from the second back frame 8, and is fitted into the base 13 of the second back frame 8 from below. For this reason, for example, as shown in FIG. 6, the base 13 of the second back frame 8 has a hole 47 into which the lock body 45 fits from below, and a center guard portion 48 that supports the lock body 45 from behind. The center guard portion 48 is provided with a forward opening groove 49 into which the lock body 45 is fitted. The lock body 45 is provided with a front wall 45a that restricts the lower end of the back inner shell 18 from moving forward greatly.

As shown in FIG. 9, a recess 50 into which the lock body 45 enters is formed on the lower surface of the second back frame 8, and a lower flange 45 b provided on the lock body 45 is overlapped on the bottom surface of the recess 50. And the support claw 51 is provided in the inner surface of the recessed part 50, and the lock body 45 is hold | maintained so that it cannot fall by the lower flange 45b getting over the support claw 51 from the downward direction. The lower flange 45b and the support claw 51 are formed with inclined surfaces for guiding. The lower flange 45b is provided with a hole 45c for facilitating deformation. The lock body 45 can be provided integrally with the second back frame 8, but if it is configured separately from the second back frame 8 as in this reference example , there is an advantage that the processing becomes easy.

(4). Posture Fixing Means Depending on the user, the initial posture adjustment function of the backrest 4 may not be required. Therefore, in this reference example , the posture of the backrest 4 can be kept constant without using the initial posture adjusting device 15. That is, in this reference example , the initial posture of the backrest 4 can be kept constant by using the posture fixing means without using the initial posture adjusting device 15. This point will be described next.

For example, as shown in FIG. 6A, side guard parts 53 having upper and lower openings having a pair of right and left restricting ribs are formed on the left and right sides of the center guard part 48 in the base part 13 of the second back frame 8, A block-shaped side regulating body 54 is fitted into the side guard portion 53 from below. The side restricting body 54 is held by the side guard portion 53 so as not to move left and right, and is supported by a support rib 55 from the rear. As shown in FIG. 11, a flange 54 a is provided at the lower end of the side regulating body 54, and the flange 54 a overlaps the bottom surface of the recess 13 c provided in the base portion 13 of the second back frame 8. Similarly to the lock body 45, the side restricting body 54 is also held by the engaging claws 13d so as not to fall.

The side restricting body 54 is formed with an engaging groove 56 that opens upward in a side view. As shown in FIG. 11, the restricting shaft 57 provided at the lower end of the back inner shell 18 is engaged with the engaging groove 56. The backrest 4 is held so that the initial posture cannot be changed. The restriction shaft 57 is formed integrally with the back inner shell 18 via a pair of left and right rearward facing ribs 48. 6 and 7, the lever 40 and the side restricting body 54 are displayed together for convenience. However, when the initial posture of the backrest 4 is changed by the initial posture adjusting device 15, the restricting body 54 has the second back. If it is not mounted on the frame 8 and the initial posture adjustment function 15 is not required, the lever 40 and the lock body 45 are not mounted.

(5) Summary In the above configuration, the lever 40 is pulled outward (retracted) , the lock pin 41 is pulled out of the lock hole 46 of the lock body 45 and re-fitted into the other lock hole 46, so that the backrest 4 Can be adjusted in three stages.

In this case, the backrest 4, for rotating around the height position of the lumbar support portion 22, variation in the longitudinal position of the lumbar support portion 22 by changing the initial attitude of the backrest 4 is not, Therefore, Changing the initial posture of the backrest 4 does not change how the lumbar support portion 22 hits the body. Moreover, even if the initial posture of the backrest 4 is changed, the lumbar support function is always exhibited.

For example, as is clear from FIG. 1C, the lower end of the backrest 4 is located below the seat surface, and therefore the initial posture adjusting device 15 is also disposed below the seat surface. For this reason , the initial posture adjusting device 15 does not touch the body. Also, since the seated person can reach the back and operate the lever 40, the initial posture can be adjusted very easily. To adjust the initial posture of the backrest 4, pull the lever 40 to release the lock and then change the posture of the backrest 4. As a method of changing the posture of the backrest 4, grasp the lower part of the backrest 4 with your left hand. The backrest 4 may be moved back and forth, or the backrest 4 may be rotated by pushing the upper or lower end of the backrest 4 with the body.

For example, as shown in FIG. 7 (B), the rear end of the base portion 13 of the second back frame 8, a rear wall 13b projecting upward is formed integrally, the center guard 48 and the side guard 53 is a rear wall It is also connected to 13b. Further, the base of the back column 14 is connected to the rear wall 13b. Since the rear wall 13b exhibits a rib effect, the second back frame 8 has high strength. In the initial posture where the backrest 4 is most raised , a person's fingers can be inserted between the lower end of the backrest 4 (back seat inner shell 18) and the rear wall 13b of the second back frame 8 with a margin. There is a gap. Therefore, a person does not pinch a finger.

(6). First Embodiment Next, a first embodiment shown in FIGS. 12 and 13 will be described. Elements common to the reference example use the same reference numerals, and description thereof is omitted (the same applies to other embodiments) . In this embodiment, the back frame 60 has a single structure, and the back column 14 is integrally provided at the rear end of the back frame 60. The point that the lumbar support portion 22 of the back inner shell 18 is connected to the upper end of the back column 14 is the same as the reference example .

In the first embodiment, a rotary handle 40 is used as an operation tool, and is rotatably held by a pair of left and right bearing ribs 61 provided at the left and right intermediate portions of the back frame 60. The front end portion of the handle 40 positioned between the left and right bearing ribs 61 is a prismatic portion 40b, and the circumferential cam 62 is relatively unrotatable (that is, rotates together with the handle 40). In). The circumferential cam 62 has one center cam portion 63 and a pair of left and right side cam portions 64 positioned on the left and right sides thereof. On the other hand, the lower inner shell 18 is integrally provided with a lower connecting portion 65 that opens downward so that the circumferential cam 62 can be fitted from below (the lower connecting portion 65 is manufactured separately, It may be fixed to the shell 18).

The center cam part 63 and the side cam part 64 have their outer peripheral surfaces as cam surfaces, and the front inner surface of the lower connecting part 65 forms a front regulating surface 65a with which the center cam part 63 abuts, and the rear inner surface of the lower connecting part 65 is It forms a rear regulating surface 65b with which the side cam portion 64 abuts. The outer periphery of the center cam 63, the first to third cam surfaces 63a~63c the height from the axis are different is formed, in the outer periphery of the side cam portion 64, the height from the axis is different 1 To third cam surfaces 64a to 64c. Although lower connecting portion 65 is opened downward as described above, before and after the interval L0 between the front regulating surface 65a and rear regulating surface 65b is set to increase toward the bottom.

Now, as the person leans against the backrest 4, as shown by the white arrow X in FIG. 13C, an external force that tries to rotate around the axial center of the boss portion 30 acts on the back inner shell 18. The external force is transmitted from the rear restricting surface 65b of the lower connecting part 65 to the prism 40b of the handle 40 via the side cam 63. That is, the backrest load generated by the locking of the backrest 4 is supported by the handle 40 via the side cam portion 64.

The rear restricting surface 65b of the lower connecting portion 65 is orthogonal to the tangent line of the turning locus O when adjusting the initial posture of the backrest 4 passing through the axis of the handle 40 in a side view. For this reason, the side cam part 64 does not try to rotate by the back load accompanying rocking, and the back load is stably supported. That is, there is no problem that the side cam portion 64 rotates unintentionally due to the back load. Although the front restricting surface 65a of the lower connecting portion 65 is inclined with respect to the rear restricting surface 65b, the inside of the lower connecting portion 65 has a tapered shape in which the front-rear width expands downward. When the backrest 4 is assembled to the frame 60, the lower connecting portion 65 can be easily fitted into both the cam portions 63 and 64, and the die can be easily removed when molding using a mold.

  When the first cam surface 63a of the center cam portion 63 is in contact with the front restricting surface 65a, the first cam surface 64a of the side cam portion 64 is in contact with the rear restricting surface 65b. When the second cam surface 63b of the cam portion 63 is in contact with the front restriction surface 65a, the second cam surface 64b of the side cam portion 64 is in contact with the rear restriction surface 65b and the third cam surface 63c of the center cam portion 63 is contacted. Is in contact with the front regulating surface 65a, the third cam surface 64c of the side cam portion 64 is in contact with the rear regulating surface 65b. A rear wall 60 a is provided at the rear end of the back frame 60.

In the present embodiment, by rotating the handle 40, the initial posture of the backrest 3 can be adjusted in three stages, and the backrest 4 is held so as not to be loose. In addition, although resistance arises with respect to rotation of the surrounding surface cam 62, the surrounding surface cam 62 can be rotated by elastically deforming the lower connection part 65. FIG. The left and right side plates of the lower connecting portion 65 are provided with long holes 71 into which the handle 40 is loosely fitted to allow the lower connecting portion 65 to rotate.

In this embodiment, the side connecting portion 23 is first connected to the leg support 14, and then the circumferential cam 62 is fitted into the lower connecting portion 64 from below. Therefore, as shown in FIG. 13A, the back frame 60 has an escape hole 60b for inserting the circumferential cam 62 therethrough.

  Now, since the front-rear distance between the front and rear regulating surfaces 65a, 65b increases as it goes downward, the height position where the first cam surfaces 63a, 64a hit, the height position where the second cam surfaces 63b, 64b hit, The height positions where the third cam surfaces 63c and 64c hit differ.

  Therefore, the distance between the front and rear restricting surfaces 65a and 66b at the height position where the first cam surfaces 63a and 64a abut is L1, and the front and rear restricting surface 65a at the height position where the second cam surfaces 63b and 64b abut. , 65b is L2, and the distance between the front and rear restricting surfaces 65a, 65b at the height position where the third cam surfaces 63c, 64c hit is L3, the sum of the heights of the first cam surfaces 63a, 64a. (69a + 70a) is set to approximately the same dimension as L1, the sum of the heights of the second cam surfaces 62b and 63b (69b + 70b) is set to approximately the same dimension as L2, and the sum of the heights of the third cam surfaces 63c and 64c. (69c + 70c) is set to approximately the same size as L3. As a result, the backrest 4 can be held in a stable state without rattling while the regulating surfaces 65a and 66b are inclined downward.

(7). Second Embodiment Next, a second embodiment shown in FIGS. In this embodiment, a back column 72 that is tilted forward as viewed from the side is provided at the left and right intermediate portion of a back frame (not shown), and a rotary member 73 having a square shape in side view is provided on the upper end portion of the back column 72. The back inner shell 18 is fixed to the upper half of the rotating member 73. The back column 72 is fixed to a back frame (not shown), but it is preferable that the back column 72 be integrated with the back frame.

The rotation member 73 is connected to the bent vertex portion in the vicinity of the pin 74, and the vertex of the lumbar support portion 22 of the back inner shell 18 and the vertex of the rotation member 73 are substantially coincident with each other. For this reason, the back inner shell 18 rotates around the height position of the lumbar support portion 22. The back column 72 has left and right side plates 72a, and the rotating member 73 is disposed between the left and right side plates 72a. In this embodiment , the back column 72 and the rotating member 73 are manufactured by sheet metal processing, but a die-cast product or a resin molded product can also be adopted.

By regulating the angle of the rotating member 73 with the initial posture adjusting device 15, the initial posture of the back inner shell 18 is adjusted. The initial posture adjusting device 15 is basically the same as in the first embodiment, and the circumferential cam 62 is rotated by the handle 40. The handle 40 is rotatably held on the back posts 72 (and thus also serves as a bearing rib in the back posts 72), not shown, is provided with a grip on the right end. In this embodiment, a resin lower connecting portion 65 is fixed to the lower portion of the rotating member 73 with a screw or the like in a state of protruding downward.

(8) Third Embodiment Next, a third embodiment shown in FIGS. 17 to 22 will be described. The third embodiment is substantially common with the first embodiment, where, are designated by the same reference numerals for parts common to the first embodiment as much as possible omitted, mainly the differences will be described. The back frame basically has the same structure as the reference example, and the second back frame 8 is provided with bearing ribs 61.

For example, as shown in FIG. 19, in this embodiment, bearing cylindrical portions 75 are integrally formed on the left and right ends of the circumferential cam 62, while the cylindrical portion 75 is fitted on the inner side surface of the bearing rib 61. A longitudinal long groove 76 is formed. Although the rectangular portion 40a of the handle 40 penetrates the cylindrical portion 75 of the circumferential cam 62, a pair of protrusions 77 are provided at the base of the rectangular portion 40a of the handle 40 as clearly shown in FIG. On the other hand, a pair of notches 78 into which the protrusions 77 are fitted is formed in one cylindrical portion 75 of the circumferential cam 62. For this reason, the integrity of the circumferential cam 62 and the handle 40 is increased.

A small diameter portion 79 is formed at the tip of the handle 40, and the small diameter portion 79 is rotatably fitted in a bearing hole 80 provided in the other bearing rib 61. A pair of stopper pieces 81 projecting in a direction orthogonal to the shaft center is provided at the tip of the small diameter portion 79 of the handle 40, while the stopper piece 81 is fitted on the outer surface of the other bearing rib 61 so that it cannot be removed. A round step 81 is formed. The bearing hole 80 of the other bearing rib 61 is an elongated hole that is long in the front-rear direction. Therefore, the stopper piece 81 is fitted sideways into the bearing hole 80, and the stopper piece 81 is fitted into the bearing hole 80. When the handle 40 is rotated by 90 °, the handle 40 is held so that it cannot be removed.

The handle 40 is inserted after the circumferential cam 62 is set between the left and right bearing ribs 61. As shown in FIG. 21B, the protruding direction 83 of the protrusion 77 and the protruding direction 84 of the stopper piece 81 are orthogonal to each other. As shown in FIG. 19, a rib 40 b for displaying the posture of the backrest 5 is provided at the proximal end of the grip of the handle 40.

As shown in FIGS. 21 and 22, the circumferential cam 62 is fitted by a procedure in which the rotational axis is fitted between the left and right bearing ribs 61 in a posture inclined with respect to the horizontal and then returned to the horizontal posture. Is called. Since the long groove 76 is long in the vertical direction, the left and right cylindrical portions 75 can be fitted into the left and right long grooves 76 by tilting the circumferential cam 62 in a front view, and when the posture is returned so that the rotation axis is horizontal. The circumferential cam 62 is held so as not to move back and forth.

Then, after attaching the circumferential cam 62 and the handle 40 to the bearing rib 61, the lower connecting portion 65 of the backrest 4 is fitted into the cylindrical portion 75 of the circumferential cam 62. In this case, as shown in FIG. 19, the long hole 71 of the lower connecting portion 65 is inclined in a side view so that the upper part is located at the rear and the lower end is located at the front, and is opened downward. Therefore, it can be fitted into the cylindrical portion 75 of the circumferential cam 62 that is set in advance. As clearly shown in FIG. 20B, an elastic piece 65a that narrows the groove width of the opening is provided inwardly (upward) at the opening of the elongated hole 71 in the lower connecting portion 65. For this reason, the lower connecting portion 65 is fitted into the cylindrical portion 75 of the circumferential cam 62 by elastically deforming the elastic piece 65 a, and when the lower connecting portion 65 is fitted into the cylindrical portion 75 of the circumferential cam 62. The lower connecting portion 65 is held in a state in which it does not come off from the cylindrical portion 75 of the circumferential cam 62. For this reason, the posture of the backrest 4 can be maintained during assembly.

Further, as described in the reference example, when the boss portion 30 of the side connecting portion 23 is fitted into the bearing portion 29 of the back column 18, the backrest 4 is tilted backward, but the handle 40 of the lower connecting portion 65 is disposed. Since the hole into which the boss portion 30 is fitted is a long hole 71, the boss portion 30 can be fitted into the bearing portion 29 and the lower connecting portion 65 can be fitted into the handle 40 at the same time. When the backrest 4 is tilted backward after the two are fitted, the backrest 4 is held so that it cannot be removed in the vertical direction and the front-rear direction at both the side connecting portion 23 and the lower connecting portion 65.

Thus, since the circumferential cam 62 can be set to the bearing rib 61 from the front side, it is not necessary to provide a relief hole in the second back frame 8. Even if a load in the front-rear direction is applied to the circumferential cam 62, the cylinder portion 75 hits the inner surface of the long groove 76, so that no load is applied to the handle 40.

For example, as shown in FIG. 22 (see also FIG. 19), an elastic piece 86 having a lower end as a free end is integrally formed on the front surface of the bearing rib 61 so as to be engaged with the elastic piece 86. While the holes 87 are provided, the cam surfaces 63a, 63b, 63c of the center cam portion 63 of the circumferential cam 62 are provided with projections 88 that fit into the engagement holes 87, respectively. For this reason, when any one of the protrusions 88 is fitted in the engagement hole 87, the user can grasp with a sense that the circumferential cam 62 has been rotated to a predetermined state. That is, the handle 40 can be accurately rotated with a click feeling.

As shown in FIG. 22A, the long grooves 71 of the left and right bearing ribs 61 are open on the lower surface of the second back frame 8. Further, as can be understood from FIG. 20, for example, the bearing holes 81 and 88 into which the handle 40 is fitted are long grooves opened to the front. That is, the bearing holes 81 and 88 are formed by the long groove 71 in the vertical direction and the long groove in the front and rear direction. For this reason, the bearing holes 81 and 88 can be formed while performing die cutting relatively easily (the long groove in the front-rear direction is formed by the movement of the main mold, and the long groove 71 in the vertical direction is formed by the slide mold. .)

(9). Others The present invention can be embodied in various ways other than the above embodiment. For example, the present invention can be applied to a chair whose backrest does not rock. Also, the shape and structure of the backrest can be embodied in various ways. For example , it is possible to adopt a structure in which a mesh is stretched on the front and rear opening frame, or a structure in which a soft back plate is exposed without providing a cushion.

Various initial posture adjustment devices can be implemented . When using a cam to initial attitude adjustment device, it can be adopted various cams, such as the end face cam. It is also possible to adjust the initial posture of the backrest steplessly by providing a screw-type handle in the initial posture adjusting device. It is also possible to employ a lock mechanism other than a pin or cam.

The present invention may be embodied in the chair. Therefore, it can be used industrially.

2 Base 3 Seat 4 Backrest 7 1st Back Frame 8 2nd Back Frame 13 2nd Back Frame Base 14, 72 Back Strut 15 Initial Posture Adjustment Device 18 Back Inner Shell 22 Lumber Support Portion 23 Side Connection Portion 29 Bearing Portion 30 Boss Part 65 Lower connecting part constituting initial posture adjusting device 40 handle (in the reference example, lever)
45 Lock body constituting initial posture adjusting device 46 Lock hole 48 Center guard 53 Side guard 54 Side restricting member 61 Bearing rib constituting initial posture adjusting device 62 Peripheral cam constituting initial posture adjusting device 65 Lower connecting portion of backrest 73 Rotating member

Claims (4)

It has a seat and a backrest arranged behind it, and the backrest can change an initial posture which is a side view posture in a state where no person leans on a back frame extending backward from below the seat. A chair attached in a state,
On the rear end of the back frame, an upward back strut is provided, and the backrest is connected to the upper end of the back strut,
A lower end portion of the backrest is located behind the seat, an upward bearing rib is provided in a portion of the back frame located behind the seat, and a lower connecting portion is provided at the lower end of the backrest. A rotary handle that protrudes downward and allows the seated person to extend and operate the lower connecting part and the bearing rib so that the lower connecting part can be moved back and forth with respect to the bearing rib. Therefore, I linked to,
Chair. The lower connecting part and the handle of the backrest are arranged behind the seat and below the seat surface,
The initial posture of the backrest can be changed by providing an interval allowing the lower end of the backrest to move back and forth between the rear end of the seat and the lower end of the backrest.
The chair according to claim 1. The handle is disposed so as to rotate about a horizontally long axis.
The chair according to claim 1 or 2. The backrest has a structure in which a mesh material is stretched on a frame that is open at the front and rear.
The chair as described in any one of Claims 1-3.

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