Connecting Element For Medical Bedrail, Assembly Comprising It And Procedure For Assembling Said Assembly

Abstract

The proposed invention relates to a connecting element (1) for a medical bedrail, such as used in medical transport gurneys, stretchers, hospital beds and the like. The connecting element (1) connects a connecting rod (2) and a pivotable rod (3) of a foldable bedrail for medical beds and comprises a jaw (4), the inner surface (5) of the jaw (4) being concave in shape and adapted for abutting tightly against the outer surface of the connecting rod (2), two locking teeth (6) fashioned symmetrically on or at the upper edge of the inner surface (5) of the jaw (4), each on one side of the jaw (4), respectively, and two legs (7) fashioned on the upper part of the outer side of the jaw (4) and arranged symmetrically with respect to a central plane (R) extending vertically and longitudinally through the center of the jaw (4), the legs (7) extending downwards, each of the legs (7) comprising a snap-fit element (8) fashioned on the inner surface of the leg (7) facing the inner surface of the other leg (7), the snap-fit elements (8) being arranged symmetrically with respect to the central plane (R) and co-operating with two snap-fit elements (8) fashioned in the pivotable rod (3). The connecting element (1) may further comprise a centering web (13), located on the bottom of the jaw (4).

Claims

1. Connecting element for a medical bedrail, wherein the connecting element (1) connects a connecting rod (2) and a pivotable rod (3) of a foldable bedrail for medical beds, such as stretchers, beds or gurneys for transporting persons in the reclined position, the bedrail having at least two positions, namely a folded position and a deployed position, wherein it the connecting element comprises: a jaw (4), the inner surface (5) of the jaw (4) being concave in shape and adapted for abutting tightly against the outer surface of the connecting rod (2), two locking teeth (6) fashioned symmetrically on or at the upper edge of the inner surface (5) of the jaw (4), each on one side of the jaw (4), respectively, and adapted for co-operating with locking slots (9) fashioned in the connecting rod (2), and two legs (7) fashioned on the upper part of the outer side of the jaw (4) and arranged symmetrically with respect to a central plane (R) extending vertically and longitudinally through the center of the jaw (4), each of the legs (7) comprising a snap-fit element (8) fashioned on the inner surface of the leg (7) facing the inner surface of the other leg (7), the snap-fit elements (8) being arranged symmetrically with respect to the central plane (R) and co-operating with two snap-fit openings (11) fashioned in the pivotable rod (3), the snap-fit elements (8) and the corresponding snap-fit openings (11) being fashioned such as to allow the pivotable rod (3) to be rotated in the central plane (R).

2. Connecting element according to claim 1, wherein the locking teeth (6) are oblong and extend along almost the entire length of the inner surface (5) of the jaw (4), a chamfer (10) being fashioned on the upper edge of the locking tooth (6).

3. Connecting element according to claims 1, wherein the snap-fit element (8) is fashioned in the shape of a protrusion having a circular cross section, a chamfer (12) being fashioned on the lower edge of the snap-fit element (8).

4. Connecting element according to claim 1, wherein the legs (7) extend downwards, preferably forming an angle with the central plane (R), so that the legs (7) approach each other in their lower part, the distance between the inner faces of the legs (7) being at least equal to, and preferably smaller than, the outer diameter of the pivotable rod (3) when the connecting element (1) isn't connected with the pivotable rod (3), and the distance between the inner faces of the legs (7) being equal to the outer diameter of the pivotable rod (3) when the connecting element (1) is connected to the pivotable rod (3).

5. Connecting element according to claims 1, wherein the connecting element (1) further comprises a centering web (13), located on the bottom of the jaw (4), preferably at the center of the inner concavely shaped surface (5) of the jaw (4), and co-operating with a centering slot (14) in the connecting rod (2).

6. Connecting element according to claim 1, wherein it is fashioned in one piece from polyamide 6.

7. Assembly for a medical bedrail, the bedrail having at least two positions, namely a folded position and a deployed position, wherein the assembly comprises: at least one connecting element (1) according to claims 1 to 6, a connecting rod (2) and at least one pivotable rod (3), wherein the connecting rod (2) has locking slots (9) fashioned in places where the connecting rod (2) connects to the pivotable rod (3) via the connecting element (1), the pivotable rod (3) presenting, at its connecting end, two snap-fit openings (11), fashioned symmetrically with respect to the central plane (R) and co-operating with the snap-fit elements (8), the snap-fit elements (8) and the corresponding snap-fit openings (11) being fashioned such as to allow the pivotable rod (3) to be rotated in the central plane (R).

8. Assembly according to claim 7, wherein, when the connecting element (1) comprises a centering web (13), the connecting rod (2) exhibits centering slots (14) in places where the connecting rod (2) connects to the connecting rod (2) via the connecting element (1), each centering slot (14) on the connecting rod (2) being fashioned centrally between the two corresponding locking slots (9).

9. Procedure for assembling the assembly, comprising the steps of: a) pressing the connecting rod (2) into the jaw (4) of the particular connecting element (1), whereby the jaw (4) is flexed apart due to the elasticity of the material and the locking teeth (6) fit into the locking slots (9); b) pressing the particular pivotable rod (3) between the legs (7) of the particular connecting element (1), the legs (7) being outwardly flexed apart due to the elasticity of the material; c) snapping the snap-fit elements (8) into the corresponding snap-fit openings (11), part of the elastic force of the material which allows the legs (7) to be flexed during the pressing of the pivotable rod (3) into the connecting element (1) being transferred to the jaw (4), thus additionally strengthening the joint between the jaw (4) and the connecting rod (2), by means of which a sturdy assembly is formed.

10. Procedure according to claim 9, wherein, when the connecting element (1) comprises a centering web (13), insertion of the centering web (13) into the centering slot (14) is carried out prior to step a).

Description

[0010] The invention shall hereinafter be described with reference to an embodiment thereof and the accompanying illustrations, representing:

[0011] FIG. 1 represents the connecting element with the connecting rod and the pivotable rod in a disassembled sectional view;

[0012] FIG. 2 represents the connecting element with the connecting rod and the pivotable rod in a disassembled perspective view;

[0013] FIG. 3 represents the connecting element with the connecting rod and the pivotable rod in an assembled perspective view;

[0014] FIG. 4 represents the foldable medical bedrail with connecting elements.

[0015] The connecting element 1, shown in FIGS. 1 to 3, comprises a jaw 4, the inner surface 5 of the jaw 4 being concave in shape and adapted for abutting tightly against the outer surface of the connecting rod 2, two locking teeth 6 fashioned symmetrically on or at the upper edge of the inner surface 5 of the jaw 4, each on one side of the jaw 4, respectively, and two legs 7 fashioned on the upper part of the outer side of the jaw 4 and arranged symmetrically with respect to a central plane R extending vertically and longitudinally through the center of the jaw 4, the legs 7 extending downwards, generally parallel to or preferably forming an angle with the central plane R, so that the legs 7 approach each other in their lower part. Each of the legs 7 comprises a snap-fit element 8 fashioned on the inner surface of the leg 7 facing the inner surface of the other leg 7, the snap-fit elements 8 being arranged symmetrically with respect to the central plane R.

[0016] The connecting rod 2 and the pivotable rods 3 are preferably fashioned as tubes with a circular cross section, but may evidently be fashioned as tubes or solid bars of various cross sections or profiles. The connecting rod 2 exhibits locking slots 9 in places where the connecting rod 2 connects to the pivotable rod 3 via the connecting element 1.

[0017] The locking teeth 6 are preferably oblong and extend along almost the entire length of the inner surface 5 of the jaw 4.

[0018] The locking teeth 6 are insertable in a snap-fit engagement into the corresponding locking slots 9 in the connecting rod 2. When the corresponding connecting element 1 and the connecting rod 2 are connected, forming a joint between them, the locking teeth 6 in combination with the locking slots 9 prevent mutual displacement of the corresponding connecting element 1 and the connecting rod 2 in any direction. Preferably, a chamfer 10 is fashioned on the upper edge of the locking tooth 6, so that it may readily snap into the locking slot 9, which facilitates the assembling, i.e. the connecting of the connecting element 1 and the connecting rod 2.

[0019] At its connecting end, the pivotable rod 3 presents two snap-fit openings 11, fashioned symmetrically with respect to the central plane R and co-operating with the snap-fit elements 8. The snap-fit elements 8 and the corresponding snap-fit openings 11 are fashioned such as to allow the pivotable rod 3 to be rotated in the central plane R. The snap-fit element 8 is preferably shaped as a protrusion having a circular cross section and fits the circular snap-fit opening 11 in the pivotable rod 3. More preferably, a chamfer 12 is fashioned on the lower edge of the snap-fit element 8 to facilitate the insertion of the pivotable rod 3 into the connecting element 1.

[0020] When the connecting element 1 isn't connected with the pivotable rod 3, the distance between the inner faces of the legs 7 is at least equal to, and preferably smaller than, the outer diameter of the pivotable rod 3. When the connecting element 1 is connected to the pivotable rod 3, forming a joint between them, the distance between the inner faces of the legs 7 is equal to the outer diameter of the pivotable rod 3.

[0021] The connecting element 1 may optionally comprise a centering web 13 located on the bottom of the jaw 4, preferably at the center of the inner concavely shaped surface 5 of the jaw 4. In that case, the connecting rod 2 exhibits centering slots 14 in places where the connecting rod 2 connects to the connecting rod 2 via the connecting element 1. Each centering slot 14 on the connecting rod 2 is preferably fashioned centrally between the two corresponding locking slots 9. In the assembled position, the centering web 13 fits the centering slot 14, thus additionally preventing mutual displacement of the connecting element 1 and the connecting rod 2 in the longitudinal direction. The height of the centering web 13 is such that it co-operates with the centering slot 14 during assembly even before the connecting rod 2 is pressed into the jaw 4, flexing it apart, whereby precise fitting of the locking teeth 6 into the locking slots 9 is ensured during assembly. Preferably, the centering web 13 is cylindrically shaped with a circular cross section and the centering slot 14 has a circular cross section, so that they fit each other.

[0022] The connecting element 1 is preferably fashioned in one piece.

[0023] When assembling the rail, which is to say, connecting/forming joints between the connecting elements 1 with the connecting rod 2 and the pivotable rods 3, the connecting element 1 is first joined to the connecting rod 2 by pressing the connecting rod 2 into the jaw 4 of a connecting element 1, whereby the jaw 4 is flexed apart due to the elasticity of the material, ensuring precise fitting of the locking teeth 6 into the locking slots 9. Subsequently, the connecting element 1 and the pivotable rod 3 are joined by inserting/pressing the particular pivotable rod 3 between the legs 7 of the particular connecting element 1. The elasticity of the material allows the legs 7 to be outwardly flexed apart and the snap-fit elements 8 to snap into the corresponding snap-fit openings 11. In a preferred embodiment, owing to the design of the connecting element 1, to the flexing apart of the legs 7, and to the connecting element 1 being fashioned in one piece, part of the elastic force of the material which allows the legs 7 to be flexed during the insertion of the pivotable rod 3 into the connecting element 1 is transferred to the jaw 4, thus additionally strengthening the joint between the jaw 4 and the connecting rod 2. In this way, when the connecting rod 1 and the pivotable rod 3 are connected by means of the connecting element 1, the joint between the connecting element 1 and the connecting rod 2 reinforces the joint between the connecting element 1 and the pivotable rod 3, and vice versa. Thusly, a sturdy assembly is formed, consisting of the connecting rod 2, the connecting element 1, and the pivotable rod 3.

[0024] In a preferred embodiment, the connecting element 1 further comprises a centering web 13. In this case, when assembling the rail, the centering web 13 is first inserted into the centering slot 14, and subsequently the connecting rod 2 is pressed into the jaw 4 of the particular connecting element 1.

[0025] The connecting element 1 is made of a strong, elastic material. The choice of the material to produce the connecting element 1 from is important because the elasticity of the material, namely the elastic force thereof, prevents the legs 7 from flexing apart while the connecting element 1 is connected to the pivotable rod 3. In addition, as described above, while the legs 7 are being outwardly flexed apart, the connecting element 1 being fashioned in one piece, part of the elastic force of the material which enables the legs 7 to be flexed during the insertion of the pivotable rod 3 into the connecting element 1 is transferred to the jaw 4, thus additionally strengthening the joint between the jaw 4 and the connecting rod 2. The material from which the connecting element 1 is produced is preferably polyamide 6, which is convenient for quick injection molding and exhibits good thermal stability, excellent dimensional stability, high toughness and elasticity, and high chemical resistance. More preferably, the material is Promyde B30 P, manufactured by Nurel S. A.