CHAIR AND A KIT OF PARTS CONFIGURED TO BE ASSEMBLED INTO A CHAIR

Abstract

A chair (1) wherein the back rest (10) comprises two elongated connection members (11a, 11b) each provided with a hole (12a) extending along a crossing direction (T). The respective leg (20a, 20b) is provided with a first bore (21a) extending along a longitudinal direction (L) and a second bore (22a) extending along the crossing direction (T), connecting with the first bore (21a). The first bore (21a) is configured to receive a portion of the elongated connection member (11a). The corner pieces (31a, 31a′) are provided with a through-going hole (32a) being configured to be in register with the hole (12a) of the elongated member (11a) and the second bore (22a) of the leg (20a, 20b). The chair (1) further comprises a first and a second fastening arrangement (40) extending through the through-going hole (32a) and through the second bore (22a) into the hole (12a) of the elongated connection member (11a) to interconnect the back rest (10), the legs (20a, 20b) and the corner pieces (31a, 31b, 31a′). The disclosure also relates to a kit of parts configured to be assembled into a chair.

Claims

1. Chair (1) comprising a back rest (10), two legs (20a, 20b), and a third part (30) comprising two corner pieces (31a, 31b, 31a′), wherein the back rest (10) comprises a first elongated connection member (11a) connecting with a first leg (20a) of the chair (1), and a second elongated connection member (11b) connecting with a second leg (20b) of the chair (1), wherein the respective elongated connection member (11a, 11b) has an extension from the back rest (10) along a longitudinal direction (L) to a free end (11a′, 11b′) of the elongated connection member (11a, 11b), wherein the respective elongated connection member (11a, 11b) is provided with a hole (12a) extending along a crossing direction (T) having a main component orthogonal to the longitudinal direction (L) and being provided with an interconnecting portion (13a), wherein the respective leg (20a, 20b) is provided with a first bore (21a) extending along the longitudinal direction (L) and a second bore (22a) extending along the crossing direction (T) and connecting with the first bore (21a), wherein the first bore (21a) is configured to receive a portion of the respective elongated connection member (11a) by a relative movement of the elongated connection member (11a) along the longitudinal direction (L) into the first bore (21a) to such an extent that the hole (12a) of the elongated member (11a) is in register with the second bore (22a), wherein the respective corner piece (31a, 31a′) is provided with a through-going hole (32a) or recess (32a′) being configured to be in register with the hole (12a) of the respective elongated member (11a) and the second bore (22a) of the respective leg (20a, 20b), wherein the chair (1) further comprises a first and a second fastening arrangement (40) each having a head (41) and an elongated part (42), the respective head (41) directly or indirectly abutting a first side (33a) of the respective corner piece (31a), the first side (33a) facing away from the respective leg (20a), and the respective elongated part (42) extending through the respective through-going hole (32a) or recess (32a′) and through the second bore (22a) and into the hole (12a) of the respective elongated connection member (11a), the elongated part (42) having an engaging portion (42a) interacting with the interconnecting portion (13a) of the hole (12a) of the elongated connection member (11a) and thereby interconnecting the backrest (10), the respective leg (20a, 20b) and the respective corner piece (31a, 31b, 31a′), and wherein the respective corner piece (31a, 31b) comprises an abutment portion with one or more abutment surfaces (34a-b) configured to interact with one or more abutment surfaces (24a-b) of an abutment portion of the respective leg (20a, 20b), the abutment portions having an extension along the longitudinal direction (L) and an extension along a direction transverse to the longitudinal direction (L).

2. Chair according to claim 1, wherein the interconnecting portion (13a) of the respective elongated connection member (11a, 11b) and/or the engaging portion (42a) of the respective fastening arrangement (40) comprises abutment surfaces being inclined as seen around the crossing direction (T), whereby rotation of the engaging portion (42a) relative to the elongated connection member (11a, 11b) about the crossing direction (T) moves the fastening arrangement (40) relative to the elongated connection member (11a, 11b) along the crossing direction (T).

3. Chair according to claim 1 or 2, wherein the interconnecting portion (13a) of the respective elongated connecting member (11a, 11b) is a threaded portion (13a), wherein the threaded portion (13a) of the hole (12a) in the elongated connection member (11a) preferably has an extension (L13a) along at least 75% of the hole (12a) as seen along the crossing direction (T).

4. Chair according to any one of claims 1-3, wherein the respective elongated connection member (11a) has a free end portion (14a) between the hole (12a) and the free end (11a′), the free end portion (14a) having a length (L14a) along the longitudinal direction (L) being at least three times, preferably at least five times, a mean diameter (D13a) of the hole (12a).

5. Chair according to any one of claims 1-4, wherein the abutment portion of the respective corner piece (31a) and/or of the respective leg (20a) respectively comprises a first abutment surface (34a, 24a) and a second abutment surface (34b, 24b) both having an extension along the longitudinal direction (L), wherein the first and second abutment surfaces (34a-b, 24a-b) form an angle (β) relative to each other in a plane in which the longitudinal direction (L) forms normal direction.

6. Chair according to claim 5, wherein the through-going hole (32a) or recess (32a′) is positioned relative to the first and second abutment surfaces (34a-b) such that the elongated part (42) of the respective fastening arrangement (40) extends into a geometrical sector volume defined by the first abutment surface (34a) on one side and the second abutment surface (34b) on the other hand and such that the elongated part (42) of the respective fastening arrangement (40) forms an angle (γ1) relative to the first abutment surface (34a) and an angle (γ2) relative to the second abutment surface (34b) in a plane in which the longitudinal direction (L) forms normal direction.

7. Chair according to claim 5 or 6, wherein the through-going hole (32a) or recess (32a′) extends through or nearby a geometrical intersection between the first and second abutment surfaces (34a-b).

8. Chair according to any one of claims 5-7, wherein the abutment portions of the respective leg (20a, 20b) and/or the respective corner piece (31a, 31b), respectively extends along the longitudinal direction (L) a distance (L34a) in both directions from through-going hole (32a) or recess (32a′) being at least equal to, preferably being at least two times, a mean diameter (D13a) of the hole (12a).

9. Chair according to any one of claims 1-8, wherein the through-going hole or recess of the respective corner piece (31a, 31b) is a through-going hole (32a).

10. Chair according to any one of claims 1-9, wherein the respective elongated connection member (11a, 11b) is formed of a metallic material and preferably also the respective fastening arrangement (40) is formed of a metallic material.

11. Chair according to any one of claims 1-10, wherein the respective corner piece (31a, 31b) is formed of a metallic material.

12. Kit of parts being configured to be assembled into a chair, the kit of parts comprising a back rest (10) , two legs (20a, 20b), a third part (30) comprising two corner pieces (31a, 31b, 31a′), and a first and a second connection arrangement (40), wherein the back rest (10) comprises a first elongated connection member (11a) configured to be connected with a first leg (20a) of the chair (1), and a second elongated connection member (11b) being configured to be connected with a second leg (20b) of the chair (1), wherein the respective elongated connection member (11a, 11b) has an extension (L11a, L11b) from the back rest (10) along a longitudinal direction (L) to a free end (11a′, 11b′) of the elongated connection member, wherein the respective elongated connection member (L11a, L11b) is provided with a hole (12a) extending along a crossing direction (T) having a main component orthogonal to the longitudinal direction (L) and being provided with an interconnecting portion (13a), wherein the respective leg (20a, 20b) is provided with a first bore (21a) extending along a longitudinal direction (L) and a second bore (22a) extending along a crossing direction (T) having a main component orthogonal to the longitudinal direction (L) and connecting with the first bore (21a), wherein the first bore (21a) is configured to receive a portion of the respective elongated connection member (11a) by a relative movement of the elongated connection member (11a) along the longitudinal direction (L) into the first bore (21a) to such an extent that the hole (12a) of the elongated member (11a) is in register with the second bore (22a), wherein the respective corner piece (31a, 31b, 31a′) is provided with a through-going hole (32a) or recess (32a′) being configured to be in register with the hole (12a) of the respective elongated member (11a) and the second bore (22a) of the respective leg (20a, 20b), wherein the respective fastening arrangement (40) has a head (41) and an elongated part (42), the respective head (41) being configured to directly or indirectly abut a first side (33a) of the respective corner piece (31a, 31b), the first side (33a) being configured to face away from the respective leg (20a, 20b), and the respective elongated part (42) being configured to extend through the respective through-going hole (32a) or recess (32a′) and through the second bore (22a) and into the hole (12a) of the respective elongated connection member (11a), the elongated part (42) having an engaging portion (42) being configured to interact with the interconnecting portion (13a) of the hole (12a) of the elongated connection member (11a) and thereby interconnecting the back rest (10), the respective leg (20a, 20b) and the respective corner piece (31a, 31b, 31a′), and wherein the respective corner piece (31a, 31b) comprises an abutment portion with one or more abutment surfaces (34a-b) configured to interact with one or more abutment surfaces (24a-b) of an abutment portion of the respective leg (20a, 20b), the abutment portions having an extension along the longitudinal direction (L) and an extension along a direction transverse to the longitudinal direction (L).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0057] The invention will by way of example be described in more detail with reference to the appended schematic drawings, which shows a presently preferred embodiment of the invention.

[0058] FIG. 1 depicts a chair in which the inventive concept is applied.

[0059] FIG. 2 is an exploded view of a part of the chair of FIG. 1.

[0060] FIG. 3 depicts one of the rear legs of the chair.

[0061] FIG. 4A depicts an elongated connection member and FIG. 4B is a cross-section along line B-B in FIG. 4A.

[0062] FIGS. 5A and 5B an inside view and an outside view, respectively, of a corner piece of a chair frame. FIG. 5C discloses an alternative embodiment.

[0063] FIGS. 6A-D discloses different steps of a method of assembling the chair.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0064] As shown in the figures, the inventive concept may be used in a chair 1. With reference to FIGS. 1 and 2, the chair 1 comprises a back rest 10, two rear legs 20a-b, and a seat frame 30. The seat frame 30 may support, or be integrally formed with, a chair seat 35. The seat frame 30 is further connected to two front legs 20c-d.

[0065] In the description below there will sometimes in general terms be referred to a furniture comprising a first part 10, a second part 20a, 20b, and a third part 30 and sometimes there will in more specific details be referred to the chair 1, wherein the back rest 10 forms the first part, a rear leg 20a or 20b forms the second part, and the seat frame 30 or a part, such as a corner piece, connected to the seat frame 30 forms the third part. It may be noted that there will be formed a first interconnection according to the invention at the first rear leg 20a and a second interconnection also according to the invention at the second rear leg 20b.

[0066] The back rest 10 comprises an elongated connection member 11a, 11b having an extension L11a, L11b from the back rest 10 along a longitudinal direction L to a free end 11a′, 11b′ of the elongated connection member 11a, 11b. As indicated in FIGS. 4A and 6A, the elongated connection member 11a, 11b may be a separate member attached to the first part 10 (the back rest) by having an extension indicated by the dashed lines into the back rest 10. The elongated connection members 11a, 11b may be attached to the back rest 10 using a number of different attachment methods, they may be inserted into a bore in the back rest and be held in place using an interference fit, glue, threads, etc. Alternatively, the elongated connection members 11a, 11b may be said to be a more integrated part of the back rest 10. The elongated connection members 11a, 11b may e.g. be opposing ends of a single member being curved inside the back rest 10.

[0067] As is best shown in FIGS. 4A and 4B, the elongated connection member 11a is provided with a hole 12a extending along a crossing direction T. The crossing direction T forms an angle α with the longitudinal direction L. The crossing direction has at least a main component orthogonal to the longitudinal direction L. In the preferred embodiment, the crossing direction T is orthogonal to the longitudinal direction L. As is shown e.g. in FIGS. 4A, 4B and 6B-D, the hole 12a is provided with a threaded portion 13a. It may be noted that the hole 12a may, but need not, be threaded through-out its length L12a. As shown in the figures, the other elongated connection member 11b is similarly designed with an at least partly threaded hole extending in a second crossing direction relative to the longitudinal direction. Although it not being necessary, it is preferred that the elongated connection members 11a, 11b are designed as mirror copies of each other, the members 11a, 11b being mirrored about a geometrical symmetry plane M extending in a vertical direction and extending in a back to front direction being orthogonal to the distance between the members 11a, 11b, and being located mid between the two members 11a, 11b.

[0068] As is shown in FIG. 3 and also in FIGS. 6B-6D, the rear leg 20a is provided with a first bore 21a extending along the longitudinal direction L and a second bore 22a extending along the crossing direction T and connecting with the first bore 21a. The first bore 21a is configured to receive a portion of the elongated connection member 11a by a relative movement of the elongated connection member 11a along the longitudinal direction L into the first bore 21a to such an extent that the hole 12a of the elongated member 11a is in register with the second bore 22a. As shown in the figures, the other rear leg 20b is also provided with a first bore 21b extending along the longitudinal direction L and a second bore 22b extending along a crossing direction and connecting with the first bore 21b. The first bore 21b is configured to receive a portion of the elongated connection member 11b by a relative movement of the elongated connection member 11b along the longitudinal direction L into the first bore 21b to such an extent that the hole 12b of the elongated member 11b is in register with the second bore 22b. Although it not being necessary, it is preferred that the rear legs 20a, 20b are designed as mirror copies of each other, the rear legs 20a, 20b being mirrored about the geometrical symmetry plane M extending in a vertical direction and extending in a back to front direction being orthogonal to the distance between the rear legs 20a, 20b and being located mid between the two rear legs 20a, 20b.

[0069] As e.g. shown in FIGS. 2, 5A-B, and 6A, the third part is in the disclosed embodiment formed of a corner piece 31a forming part of the frame 30. The third part, e.g. formed by the frame 30 or the corner piece 31a, is provided with a through-going hole 32a or recess 32a′ (as shown in the alternative embodiment 31a′ of FIG. 5C) being configured to be in register with the hole 12a of the elongated member 11a and the second bore 22a. As shown in the figures, the other rear corner of the seat frame 30 is also provided with a corner piece 31b. Also this corner piece 31b is provided with a through-going hole 32b or recess. Although it not being necessary, it is preferred that the corner pieces 31a, 31b are designed as mirror copies of each other, the corner pieces 31a, 31b being mirrored about the geometrical symmetry plane M extending in a vertical direction and extending in a back to front direction being orthogonal to the distance between the corner pieces 31a, 31b and being located mid between the two corner pieces 31a, 31b.

[0070] As shown in FIGS. 6A-D, the furniture further comprises a bolt 40 having a head 41 and an elongated part 42. As shown in FIGS. 6A-C, the elongated part 42 is configured to be inserted through the through-going hole 32a or recess 32a′ such that the elongated part 42 extends through the through-going hole 32a or recess 32a′ and through the second bore 22a and into the hole 12a of the elongated connection member 11a. Likewise is at the other rear corner another bolt, having a head and an elongated part, configured to be inserted through the through-going hole or recess such that the elongated part extends through the through-going hole or recess and through the second bore and into the hole of the elongated connection member 11b.

[0071] In the following the details will be disclosed with reference to the parts provided at the corner where the elongated member 11a forms part of the interconnection. The details are equally applicable to the parts provided at the corner where the elongated member 11b forms part of the interconnection.

[0072] As shown in FIG. 6D, the bolt 40 is inserted until the head 41 directly or indirectly (such as with a washer between the head 41 and the corner piece 31) abutting a first side 33a of the third part 31a, the first side 33a facing away from the second part 20a. In the preferred embodiment, the first side is provided with a distinct abutment surface 33a forming a rim around the through-going hole 32a.

[0073] As e.g. shown in FIG. 6A, the elongated part 42 has a threaded portion 42a forming an engaging portion configured to threadingly interact with the threads 13a of the hole 12a of the elongated connection member 11a and thereby interconnect the first 10, second 20a and third part 30, 31a. In the disclosed embodiment, the bolt 40 is of a kind having threads along basically the complete elongated portion 42. However, the elongated portion 42 may alternatively be provided with threads only at a portion actually interacting with the hole 12 of the elongated connecting member 11a, 11b. Thus the elongated portion 42 may be provided with threads only along the engaging portion 42a.

[0074] It may be said that the first 10, second 20a and third parts 30, 31a are interconnected by the bolt 40 forcing the third part 30, 31a towards the second part 20a by threadingly drawing the elongated connection member 11a of the first part 10 towards the third part 30, 31a while the elongated connection member 11a is received in the first bore 21a in the second part 20a.

[0075] As shown in FIG. 5C, the through-going hole or recess of the third part may be through-going recess which may be seen as a through-going hole with material otherwise forming a portion of the inside envelope surface being removed. A through-going recess may be designed as in FIG. 5C where the bolt may be inserted into the recess by a movement in a direction transverse to the axial direction of the bolt. Such a design allows for the first and second part being pre-assembled and partly interconnected by the bolt before the first and second parts are connected to the third part.

[0076] The threaded portion 13a of the hole 12a in the elongated connection member 11a may have an extension L13a along at least 75% of the hole 12a as seen along the crossing direction T. In the design shown in the figures, the hole 12a is threaded along its full length in the elongated connection member 11a. Although it not being necessary, in the preferred embodiment the hole 12a extends through the elongated connection member 11a. This facilitates production of the hole and the threads and it also makes it possible to make the most out of the available dimensions when it comes to threadingly transmitting forces.

[0077] The elongated connection member 11a has a free end portion 14a between the hole 12a and the free end 11a′. The free end portion 14a has a length L14a along the longitudinal direction L being at least three times, preferably at least five times, a mean diameter D13a of the threaded portion 13a of the hole 12a. The length L14a is about the same as the free length between the hole 12a and the point where the elongated connection member 11a enters into the back rest 10. Thus, the length L14a is about half the length L11a. Preferably the length L14a is about half the length L11a+/−20%, and more preferably the length L14a is about half the length L11a+/−10%.

[0078] The third part 31a comprises an abutment portion with one or more abutment surfaces 34a, 34b configured to interact with one or more abutment surfaces 24a, 24b of an abutment portion of the second part 20a.

[0079] The abutment portions of the third part 31a and of the second part 20a have both an extension along the longitudinal direction L and an extension along a direction transverse to the longitudinal direction. In a preferred embodiment the respective abutment surface 24a-b, 34a-b is generally planar. The abutment portions of the third part 31a and/or of the second part 20a respectively may comprise a first abutment surface 24a, 34a and a second abutment surface 24b, 34b both having an extension along the longitudinal direction L, wherein the first and second abutment surfaces 24a-b, 34a-b form an angle β relative to each other in a plane in which the longitudinal direction L forms normal direction. In the preferred embodiment, the angle β is 90°.

[0080] As shown e.g. in FIGS. 5A-B and 6A, the through-going hole 32a or recess is positioned relative to the first and second abutment surfaces 34a-b of the third part 31a such that the elongated part 42 of the bolt 40 extends into a geometrical sector volume defined by the first abutment surface 34a on one side and the second abutment surface 34b on the other hand and such that the elongated part 42 of the bolt 40 form an angle γ1 relative to the first abutment surface 34a and an angle γ2 relative to the second abutment surface 34b in a plane in which the longitudinal direction L forms normal direction. As shown in the figures, the through-going hole 32a or recess extend through a geometrical intersection between the first and second abutment surfaces 34a-b. In the preferred embodiment the axial direction A40 of the bolt 40 bisects the angle β between the first and second abutment surfaces 34a-b, i.e. the angle γ1 is equal to the angle γ2 where both angles γ1 and γ2 is equal to half the angle β.

[0081] The abutment portions of the second 20a and/or third part 31a may respectively extend along the longitudinal direction L a distance L24a, L34a in both directions from the through-going hole 32a or recess being at least equal to, preferably being two times, a mean diameter D13a of threaded portion 13a of the second bore 12a.

[0082] It may be noted that the extension of the abutment surfaces may, but need not, be such that there is an abutment all the way from the through-going hole or recess to the outer most portion of the abutment portion. The abutment portion may e.g. be configured with a recessed surfaces portion close to the through-going hole or recess and be provided with more protruding abutment surfaces forming a contour about and at a distance from the through-going hole or recess. In FIG. 5A, there is e.g. disclosed recessed portions 35a, 35b. Such portions may be used to provide a reinforcing rib 36a by having an extension offset the abutment surface 34a.

[0083] The elongated connection member 11a, 11b is preferably formed of a metallic material. The bolt 40 is preferably formed of a metallic material. It may be noted that they may, but need not, be formed of the same metallic material. Metallic materials are preferred since they may be provided with strong threads and still have small dimensions. The overall design of the interconnection systems allows for the other parts to be produced using a wide variety of materials. The second part 20a, 20b may e.g. be formed of wood. It may alternatively be formed of a metallic material.

[0084] The third part 31a is preferably formed of a metallic material. In an alternative embodiment, the third part 30a is formed of wood, In such a design it is preferred that there is provided a metallic washer between the head of the bolt and the third part. It may be noted that wood need not only refer to solid natural wood, it may also refer to wood based material, such as materials where the wood has been shredded into small fragments and then pressed/glued together to again form a solid piece of material.

[0085] As shown in FIG. 6A, the first part 10, the second part 20a, the third part 30 and the bolt 40 could conceivably be provided as a kit of parts being configured to be assembled into a furniture, such as the chair 1.

[0086] It is contemplated that there are numerous modifications of the embodiments described herein, which are still within the scope of the invention as defined by the appended claims.