SE539070C2 - Articulated bed - Google Patents

Description

LED BED Technical area The present invention relates to a bed, more specifically to an articulated bed comprising modules. Even more specifically, it refers to an articulated and angular bed comprising modules.

Background Today there are several functions for obtaining adjustable firmness in beds, this is normally done by means of a motor which applies a force to one or more compression planes in the bed in order in this way to create varying tension in springs arranged on or above the compression plane. If the motor pushes the compression plane upwards, this means that the springs are compressed, which leads to a type of firmness in the mattress, while an adjustment of the compression plane downwards gives less compressed springs, which leads to a different type of firmness in the mattress. These functions are usually applied to a certain part of the bed in a so-called compression zone. In the case that the bed is angular, i.e. the bed consists of a number of modules which can be angled relative to a horizontal plane, a number of different motors can be used to obtain adjustable strength in the different modules as described above. However, this is rather expensive as a larger number of motors is required, and it is further complicated to synchronize the divided zone with several motors. Accordingly, there is a need to provide functions for articulated beds that provide an alternative to this.

Summary This invention aims to provide techniques which at least partially overcome the disadvantages mentioned above. In particular, the invention aims to provide technology which makes it possible to extend the action from a single compressive zone in a base module to surrounding modules. In this way, it only becomes necessary to use a motor, or similar device, which is arranged to regulate the height position in a base module. The invention demonstrates a number of embodiments which make it possible to transfer the height control caused by the motor to the side modules.

According to a first aspect of the present invention, there is provided a bed comprising at least two modules, a base module and an angular side module, the base module comprising two planes, a base plane and a compression plane whose relative position can be changed to effect a change in the degree of compression of the base module. The side module of the bed includes two levels, a side module base level and a companion level. Follow-up plane comprises two end sections, a first end section and a second end section, the first end section of the follow-up plane is arranged to the compression plane of the base module 1 via a fixing means. Fixing means allows a rotation of the follower plane relative to the compression plane of the base module, and is also arranged to fix the first end section of the follower plane to the compression plane of the base module in such a way that a movement of the compression plane causes corresponding movement of the first end section. the relative position between the base plane and the compression plane, causes a change in the degree of compression of the side module According to a second aspect of the present invention, there is provided a side module which is to be combined with an existing base module to form an angular and compressible bed. Such a side module comprises a follower plane and a side module base plane, the follower plane comprises a first end section and a second end section. The first end section comprises fixing means for connecting to a compression plane in said base module. Fixing means are provided for attaching the follower plane to the compression plane in such a way that a rotation of the follower plane relative to the compression plane of the base module is possible. The fixing means is also arranged to fix the first end section of the follower plane to the compression plane of the base module in such a way that a movement of the compression plane causes corresponding movement of the first end section, a change in the compression degree of the base module, caused by a change in the relative position. , causes a change in the degree of compression of the side module.

Embodiments of the present invention take advantage of existing height control in the base module and transfer it to the side module's follower plane. The connection between the modules positions the follow-up plane of the side module to the same height as the compression plane of the base module. The rest position and angle of the following plane is controlled by additional functions. The embodiments enable alternative constructions of articulated beds which require fewer compression motors and which consequently also entail an economic advantage.

Short drawing description Below is a brief description of the figures that will be referred to. The reference numerals used in the figures indicate similar elements or identical elements. Fig. 1a shows a cross section from the side how the base and side modules relate to each other in a possible embodiment. The side module base plane is in the raised position and its follower plane is in its upper position. Fig. 1 b shows a cross section of vital parts in a possible embodiment of the two modules. Fig. 2a shows a possible embodiment where one end of the follower's follower plane rests against the compression plane of the base module. The side module base plane plane is lowered and the compression plane is in its upper position. Fig. 2b shows a possible embodiment where one end plane of the side module rests against the compression plane of the base module. The side module base plane is in an angled position and the compression planes are in its lower position. Fig. 3a shows a possible embodiment where the compression planes in the base and the side module are connected to each other. The side module base plane is lowered and the compression planes are in its upper position. Fig. 3b shows a possible embodiment where the compression planes in the base and the side module are connected to each other. The side module base plane is in an angled position and the compression planes are in its lower position. Fig. 4a shows a possible embodiment where the plane of the side module is locked to a parallel mutual position. The side module base plane is lowered and the compression planes are in its upper position. Fig. 4b shows a possible embodiment where the plane of the side module is locked to a parallel mutual position. The side module base plane is in an angled position and the compression planes are in its lower position. Fig. 4c shows a possible embodiment corresponding to 4a but where the abutment consists of a wheel. Fig. 4d shows a possible embodiment corresponding to 4b but where the abutment consists of a wheel. Fig. 5a shows a possible embodiment where the opposite end of the follower plane to the base module is adjusted in height by a link. The side module base plane is angled and the compression planes are in its upper position. Fig. 5b shows a possible embodiment where the opposite end of the follower plane to the base module is adjusted in height by a link. The side module base plane is in the lowered position and the compression planes are in its lower position. Fig. 6a shows a possible embodiment with a wire function. The side module base plane plane is lowered and the compression plane is in its lower position. Fig. 6b shows a possible embodiment with a wire function. The side module base plane is in an angled position and the compression planes are in its upper position. Fig. 7a shows a possible embodiment where the follower plane is adjusted in height by a link from the engine of the base module. The side module base plane is in an angled position and the compression planes are in its upper position. Fig. 7b shows a possible embodiment where the follower plane can be adjusted in height by the base module's motor via chain, gear, lifting device or other mediating function. The side module base plane is in an angled position and the compression planes are in its upper position. Fig. 8 shows possible configurations of a fixing member according to the present invention. 8a illustrates a hinge with Joints in a compressed position. 8b illustrates a hinge with Joints in the extended position. 8c illustrates a hinge with limited rotational movement due to abutment. 8d illustrates a fixing member on which abutted surface can slide along.

To simplify future reading, a reference designation list is provided below. 1 Basic module 2 Basplan 3 Compression plan 4 Side module Side module base plan 6 Sequence plan 7 First end section towards base module 8 Second end section 9 Distance between 2 and 3 The distance between 5 and 6 11 Fixing means 13 Motor for angling the side module 14 Motor for compaction Lifting gear 16 Led 17 Compressible elements 18 Horizontal plane of the compaction plane 19 Link Chain 21 Resistance 22 First gear 24 Stiff element or straightener Lifting gear 26 Adjustment drive 27 Final drive 28 Link bracket 29 Wheels Wire 31 Sleeve 33 Stop Lower pulley 36 Right pulley Detailed description of the invention This invention is based on existing constructions of beds with zones which have the property of adjusting the firmness of the bed springs. These zones have a compression plane that is controlled by a motor in height. A bed can have several compressible zones with separate motors. The bed springs are compressed between the compression plane and an abutment. The components of a bed can vary and be combined in different ways. An example of an embodiment can be a frame bed consisting of a frame with a set of springs. A mattress can be placed on the frame bed, which in turn can have a bed mattress on top.

Another existing construction is so-called motor beds which consist of bed sections which are assembled via joints. Usually a motor bed consists of an angular back section, a fixed horizontal middle section, and two sections for legs and feet. A motor bed has a separate motor that regulates the angle of the different sections.

These two existing solutions can together create user scenarios with four extremes: - maximum compression with lowered side module, - maximum compression with raised side module, - minimal compression with lowered side module, - minimal compression with raised side module.

The present invention aims to provide mechanisms which enable: to be able to extend a compressible zone over a joint between two bed sections. to be able to connect two independent compressible zones with an intermediate zone with a gradually changing degree of compression along the zone.

Fig. 1a shows a cross section of a possible embodiment of a bed with a base module 1 whose purpose is to be able to vary the preload on springs in an upper layer. The present technology aims to transfer this function to side module 4 without the need to supply any additional motor 14.

According to an aspect of the present art shown in Fig. 1a, a bed comprising at least two modules is provided, a base module 1 and an angular side module 4, the base module 1 comprising two planes, a base plane 2 and a compression plane 3 whose relative position can be changed to provide a change in the degree of compression of the base module. The side module 4 of the bed comprises two planes, a side module base plane 5 and a follow-up plane. Follow-up plane 6 comprises two end sections, a first end section 7 and a second end section 8 allows a rotation of the follower plane 6 relative to the compression plane 3 of the base module, and is also arranged to fix the first end section 7 of the follower plane 6 to the compression plane 3 of the base module 1 in such a way that a movement of the compression plane 3 causes corresponding movement of the first end section 7. 1 degree of compression, caused by a change in the relative position between base plane 2 and compression plane 3, entails a change in the degree of compression of the side module 4.

An advantage of this embodiment is that you get a compliant varying firmness in the bed.

As can be seen from Fig. 1a, the base module 1 comprises a compression plane 3 and a base plane 2. These planes are arranged in the base module 1 so that they can move vertically relative to each other directly or indirectly influenced by a motor 14. Compression plane 3 also means devices which moves vertically from the base plane in connection with compression of element 17, for example lifting means.

One or more side modules 4 can be connected to the base module 1. Which also these comprise two planes, an angular plane 5, also referred to as a side module base plane 5, which can be angled in relation to the base module 1, and a follower plane 6. In Fig. 1a the left side module 4 is angled by means of a separate motor 13 arranged to angle the side module 4 relative to the base module 1.

Fig. 1b shows a detailed cross-section of a possible embodiment of the side module 4 and the base module 1. The figure shows when the side module base plane 5 is lowered and the compression plane 3 is in its upper position.

An object of the embodiment in Fig. 1a and Fig. 1b is that the compression plane 3 of the base module 1 in height should guide the end section 7 of the side module 4 of the side module 4 closest to the base plane 1.

The end section 7 of the follower plane 6 is connected to the compression plane 3 with fixing means 11 which allows an angle of the follower plane 6 relative to the compression plane 3. The follower plane 6 is placed in the side module 4 but is connected to and influenced by the base module 1.

In addition to providing support in the vertical plane, the fixing means 11 can also be arranged to provide fixed, free or limited movement horizontally through, for example, one or more articulated hinges, springs or mechanical stops. Since the distance between base module 1 and side module 4 can change depending on their mutual angle, one or more flex zones may be required. The fixing means 11 can constitute such a flex zone. Figs. 2a-b show a cross section of a possible embodiment of the base module 1 and side module 4 in an embodiment where the end section 7 of the follower plane connects to the compression plane 3 via fixing means 11 which can provide vertical support from compression plane 3 and enable rotation around fixing means 11. 6 height of the second end section 8 is controlled by the position of what it is attached to or inclined to. Fig. 2a shows when the first end section 7 of the side module follower plane is in an upper position corresponding to the compression plane 3 in the base module 1 by means of fixing means 11, and the second end section 8 slopes down towards the side module base plane 5. Fig. 2b shows when side module base plane 5 is angled and affects the guide plane 6 so that its end section 8 is raised above the fixing means 11.

The purpose of this embodiment is that the follower plane 6 can reflect the height of the compression plane 3 with a gradual stepping in the direction from the base module 1.

According to a possible embodiment of the proposed technique, a bed is provided which comprises means 33 which means restrict the movement of the second end section 8 of the follower plane 8 in vertical direction in such a way that the end section 8 is always substantially parallel to, or above, the horizontal position of the compression plane 3. 6 is only allowed to rotate in a direction which causes the end section 8 to end up over the compression plane 3.

Fig. 3a shows a cross section of such a possible embodiment where the side module's plane 6 is given some limitation regarding angle relative to the compression plane 3 in the base module 1. The purpose of this limitation is that the whole side module's plane cannot occupy a lower height than the fixing member 11, i.e. can only be angled up from a lowest horizontal position. This means that the follower plane 6 of the side module 1 is always substantially horizontal with the compression plane 3 of the base module 1 when the base module base plane is lowered in a horizontal position.

In this specific embodiment, the guide plane 6 in the side module 4 is allowed to rotate around the fixing means 11 in such a way that the opposite end 8 of the guide plane from the fixing means 11 can only occupy a height equal to or above the fixing means 11.

In a possible embodiment this restriction takes place in rotation by means of a stop 33 constituting an extension of the follower plane 6 by fixing means 11 which together with the compression plane of the base module physically prevents rotation below the horizontal plane. Another embodiment may be a reverse method where an extension of the compression plane 3 physically prevents the follower plane 6 from rotating below the horizontal plane.

Fig. 3b shows the embodiment according to Fig. 3a where the side module base plane 5 is folded up and compression plane 3 is in its lower position. The fixing means 11 allow the side module base plane 5 to act on the follower plane 6 to an angled position.

The object is that the entire follower plane 6 of the side module assumes a minimum horizontal height position corresponding to the height position of the compression plane 3 of the base module. A further embodiment of the present technique provides a bed the side module base plane 5 is also angled relative to the base module 1. Examples of means can be motors but manual angling is also possible.

A possible embodiment of an angular bed comprises lifting means 19, 24 which are arranged to lift the second end section 8 of the guide plane 6 to ensure that the distance between the guide plane 6 and the side module base plane 5 is substantially constant even when the side module 4 is angled relative to the base module.

Fig. 4a shows a possible embodiment where the plane of the side module is locked to a parallel mutual position. The side module base plane is lowered and the compression planes are in its upper position.

The purpose is to control the movement of the follower plane 6 so that it is substantially forced to move parallel to the side module base plane 5 with a mutual distance 10 which more or less corresponds to the distance 9 between the base plane 2 and the compression plane 3 in the base module 1.

In a special variant of this embodiment of a bed, the lifting means 19, 24 consist of a rigid element 24 fixedly arranged on the side of the guide plane 6 which is opposite the side module base plane 5, said rigid element 24 runs from the guide plane 6 through a cavity in the side module base plane 5 and terminates in a holder 21 fixedly arranged on the side of the side module base plane 5 which is not opposite the follower plane 6, said holder has a width dimension which is slightly larger than the width dimension of the rigid element, the rigid element 24 and the holder 21 cooperating at an angle of the side module 4 for to lift the follower plane 6 and ensure that the distance between the follower plane 6 and the side module base plane 5 is substantially constant. An example of a rigid element can be a bar, also called a guide bar. However, it is also possible to use a spring or the like.

In a possible embodiment, the guide bar 24 is a fixed angled projection from the guide plane 6, the guide bar 24 is restricted by abutment 21 which is fixed to the side module base plane 5. The restraint 21 allows the guide bar 24 to only move vertically towards the side module base plane which means that guide plane 6 can only take a parallel position in relation to the side module plane 5. Examples of abutment 21 are wheels 29, ball bearings, roller or other element that can withstand pressure in one direction but allow movement with a little friction in another. This embodiment is shown schematically in Figs. 4a and 4b.

According to a possible variant of the bed given above, holder 21 comprises at least one wheel 29 arranged so that said rigid element 24 runs along said wheel 29 on the side of said wheel which is furthest from the end section 8 of the guide plane 6.

Fig. 4b shows a possible embodiment where the plane of the side module is locked to a parallel mutual position. The side module base plane is in an angled position and the compression planes are in its lower position.

The embodiment shows how the side module plane 5 controls the follower plane 6 by means of a guide bar 24 and abutment 21. Fig. 4c shows a possible embodiment where the plane of the side module is locked to a parallel mutual position. The side module base plane is lowered and the compression planes are in its upper position. In this embodiment, the abutment 21 consists of a wheel below the side module base plane between the guide bar 24 and the base module 1. Fig. 4d shows embodiment 4c when the side module base plane is in an angled position and the compression planes are in its lower position.

According to a further embodiment of a bed, lifting means 19, 24 are constituted by an arrangement comprising a link 19, said link 19 having one end fixedly arranged in the base plane 2 and the other end fixedly arranged in the guide plane 6 at a position near the end section 8 of the guide plane 6. , said link 19 runs through a cavity in the compression plane 3, a relative change of the position of the compression plane 3 relative to the base plane 2 entails a relative stretching of the link relative to its attachment point in the follower plane 6 which causes a relative change of the position of the follower plane 6 relative to the side module base plane 5.

According to a variant of this embodiment of a bed, said link also comprises a wire 30 and a support sleeve 31, said wire 30 having one end fixedly arranged in the base plane 2 and the other end fixedly arranged in the guide plane 6 at a position near the end section of the guide plane 6. 8, said support sleeve 31 has a first end arranged in the compression plane 3 and a second end fixedly arranged in the side module 4 at a position which lies above the highest position of the follower plane 6. This embodiment is shown schematically in Figs. 5a and 5b.

Figs. 5a-b show a cross section of a possible embodiment of an embodiment where the purpose is to control the movement of the follower plane 6 so that it moves parallel to the side module base plane 5 with a mutual distance 10 corresponding to the distance 9 between the planes in the base module 1, this regardless of whether the side module 4 is angled or not. The first end section of the follower plane 6 relates to the compression plane 3 via fixing means 11, the second end portion 8 of the follower plane 6 is connected to a link 19 which lifts the duct section 8 corresponding to the height of the compression plane 3 plus the height of the side module 5 at the end portion 8.

A possible embodiment of the link 19 is a wire 30, which at one end connects to the end section 8, and at the other end is connected to the base plane 2 or the compression plane 3. The wire is partially enclosed by a supporting flexible sleeve 31 which at one end is fixed to the side module 4 at a height above the side module base plane 5 at least corresponding to the maximum distance between the planes in the base module 1, the other end of the sleeve 31 is fixed to the plane in the plane of the base module 1 which does not fix the wire. The figures show the situation where the wire is connected to the base plane 2 and the sleeve is fixed to the other plane, the compression plane 3. Link 19 can be constituted by the wire with support sleeve, chain, link rods or other function that transfers tension or pressure. Fig. 5a shows a possible embodiment where the opposite end of the follower plane to the base module is adjusted in height by a link. The side module base plane is angled and the compression planes are in its upper position. Fig. 5b shows a possible embodiment where the opposite end of the follower plane to the base module is adjusted in height by a link. The side module base plane is in the lowered position and the compression planes are in its lower position.

The height of the second end section 8 of the follower plane is the sum of the height of the side module plane below the end section 8 and the distance between the planes in the base module 1.

According to a further embodiment of a bed, lifting means 19, 24 comprise an arrangement comprising a wire and at least one pulley 35, said wire having one end fixedly arranged to the compression plane 3 and the other end arranged to the guide plane 6, advantageously in connection with the end section 8 of the guide plane, the wire is arranged to run from the compression plane 3 through the pulley 35 arranged at a position below fixing means 11 on to the guide plane 6, a change of the position of the compression plane relative to the base plane 2 causing a relative stretching of the wire .

A variant of this embodiment provides a bed the wire is arranged to the guide plane via a further pulley 36, said pulley being fixedly arranged in the side module at a position which lies above the highest position of the guide plane 6. This embodiment is shown schematically in Fig. 6a and Fig. 6b.

Figs. 6a-b show a possible embodiment intended for the plane in the side module 4 to move parallel in relation to the corresponding plane in the base module 1, regardless of whether the side module 4 is angled or horizontal.

The first end section 7 of the side module 6 is fixed to the compression plane 3 via fixing means 11, the second end section 8 is actuated in height by a wire 30 which via a upper pulley 36 extends further via a lower pulley 35 to finally be attached to the compression plane 3 of the base plane 1.

In another embodiment, the wire can be replaced by a chain and gear or a corresponding function that can transmit power via traction. Fig. 6a shows a possible embodiment with a wire function. The side module base plane plane is lowered and the compression plane is in its lower position. Fig. 6b shows a possible embodiment with a wire function. The side module base plane is in an angled position and the compression planes are in its upper position. Fig. 7a shows a cross section of a possible embodiment where movement from existing motor 14, or lifting device 15 in the base module 1, or compression plane 3 is used directly or indirectly via link 28 to slave lifting device 25 in side module 4. Fig. 7b, shows a cross section of a possible embodiment where the rotational movement of the motor 14, or movement of lifting function 15, or movement of compression plane 3 is transmitted via gear 22 and chain 20 with any distance adjusting intermediate gear 26 to end gear 27 with lifting device 25 on side module 4. The lifting device 25 may be one or more link arms, or another function that pushes up the follower plane 6. In another embodiment, chain 20 and gears can be replaced with wires and pulleys. Mooring points for the different parts are adjusted to achieve the correct gear ratio and handle distance changes in connection with the angle of the module. Fig. 8 shows possible embodiments of fixing means 11. The purpose of showing fixing means 11, attachment points and mooring points may have a flex zone is to handle varied mutual distances between the functions they interconnect. An embodiment of such a flexible fixing member may be one or more interconnected hinges which are folded together during compression and extended in the extended condition. Another design can be a nested spring that allows expansion but withstands pressure.

In particular, Fig. 8a shows a hinge with joints and flex function in a compressed position.

Fig. 8b shows a hinge with joints and flex function in extended position.

Fig. 8c shows hinges with limited rotational movement caused by an abutment.

Fig. 8d shows fixing means on which an abutted surface can slide along.

According to a further aspect of the present art, there is also provided a side module 4 which is to be combined with an existing base module 1 to form an angular and compressible bed.

Such a side module 4 comprises a follower plane 6 and a side module base plane 5, the follower plane 6 comprises a first end section 7 and a second end section 8. The first end section 7 comprises fixing means 11 for connecting to a compression plane 3 in said base module 1. Fixing means 11 are provided for to attach the follower plane 6 to the compression plane 3 in such a way that a rotation of the follower plane 6 relative to the compression plane 3 of the base module is made possible. The fixing means 11 is also arranged to fix the first end section 7 of the follower plane 6 to the compression plane 3 of the base module 1 in such a way that a movement of the compression plane 3 causes corresponding movement of the first end section 7, a change in the compression degree of the base module 1 the position between a base plane 2 in the base module and the compression plane 3, entails a change in the degree of compression of the side module 4.

A special embodiment of such a side module 4 comprises means 33 arranged to limit the movement of the second end section 8 of the follower plane 6 in vertical direction in such a way that the end section 8 is always substantially parallel to, or above, the compression plane 3 to ensure that the follower plane 6 is only allowed rotate in a direction which causes the end section 8 to end up over the compression plane 3.

A further embodiment of such a side module 4 comprises, or can be connected to, means arranged for angling the side module 4 relative to the base module 1, the side module base plane 5 also being angled relative to the base module 1. Examples of such means may be a motor. Yet another embodiment of such a side module 4 comprises lifting means 19, 24 arranged to lift the second end section 8 of the follower plane 6 at an angle of the side module 4 relative to the base module to ensure that the distance between the follower plane 6 and the side module base plane 5 is substantially constant even when the side module 4 is angled relative the base module.

A special variant of a side module 4 provides a side module where the lifting means 19, 24 consist of a rigid element 24 fixedly arranged on the side of the follower plane 6 which is opposite the side module base plane 5. The rigid element 24 runs from the follower plane 6 through a cavity in the side module base plane 5 and terminates in a holder 21 fixedly arranged on the side of the side module base plane 5 which is not opposite the follower plane 6. The holder 21 has a width dimension which is slightly larger than the width dimension of the rigid element, the rigid element 24 and the holder 21 cooperating when angling the side module 4 to lift the follower plane 6 and ensure that the distance between the follower plane 6 and the side module base plane 5 is substantially constant. The holder 21 may in one embodiment consist of at least one wheel 29 arranged so that said rigid element 24 runs along said wheel 29 on the side of said wheel which is furthest from the end section 8 of the guide plane 6. Other embodiments comprise one or more opposing wheel pairs 29 The gap between its pairs of wheels is traversed by the rigid element 24.

The present invention has been described by means of a number of specific embodiments. These embodiments are intended solely to simplify the understanding of the main concept and do not limit the scope of the invention, as defined by the appended claims.

One skilled in the art will, upon reading, realize that technically compatible combinations of the described embodiments are possible and that the embodiments thereby allow combinations not explicitly described.

Claims (10)

A bed comprising at least two modules, a base module (1) and an angular side module (4), the base module (1) comprising two planes, a base plane (2) and a compression plane (3) whose relative position can be changed to produce a change of the degree of compression of the base module, the bed is characterized in that the side module (4) comprises two planes, a side module base plane (5) and a follower plane (6), said follower plane (6) comprises two end sections, a first end section (7) and a second end section (8 ), the first end section (7) of the follower plane (6) is arranged to the compression plane (3) of the base module (1) via a fixing means (11), said fixing means (11) allowing a rotation of the follower plane (6) relative to the compression plane (3) of the base module, fixing means (11) is also arranged to fix the first end section (7) of the follower plane (6) to the compression plane (3) of the base module (1) in such a way that a movement of the compression plane (3) causes corresponding movement of the first end section (7)a change in the degree of compression of the base module (1), caused by a change in the relative position between the base plane (2) and the compression plane (3), causes a change in the degree of compression of the side module (4). Bed according to claim 1, characterized in that it comprises means (33) which limit the movement of the second end section (8) of the accompanying plane in the vertical direction in such a way that the end section (8) is always substantially parallel to, or above, the compression plane (3) horizontal position to ensure that the follower plane (6) is only allowed to rotate in a direction which causes the end section (8) to end up over the compression plane (3). Bed according to claim 1 or 2, characterized in that the side module (4) comprises, or can be connected to, means arranged for angling the side module (4) relative to the base module (1), the side module base plane (5) also being angled relative to the base module (1). Bed according to one of Claims 1 to 3, characterized in that it also comprises lifting means (19, 24) arranged to lift the second end section (8) of the guide plane (6) in order to ensure that the distance between the guide plane (6) and the side module base plane (5) ) is substantially constant even when the side module (4) is angled relative to the base module. Bed according to claim 4, characterized in that the lifting means (19, 24) consist of a rigid element (24) fixedly arranged on the side of the guide plane (6) which is opposite the side module base plane (5), said rigid element (24) extending from the guide plane (6) through a cavity in the side module base plane (5) and terminated in a holder (21) fixedly arranged on the side of the side module base plane (5) which is not opposite the guide plane (6), said holder having a width dimension slightly larger than the width dimension of the rigid element, the rigid element (24) and the holder (21) cooperating at an angle of the side module (4) to lift the guide plane (6) and ensure that the distance between the guide plane (6) and the side module base plane (5) is substantially constant. Bed according to claim 5, characterized in that said holder (21) comprises at least one wheel (29) arranged so that said rigid element (24) runs along said wheel (29) on the side of said wheel which is furthest from the end section (8) of the guide plane (6). Bed according to claim 4, characterized in that said lifting means (19, 24) consists of an arrangement comprising a link (19), said link (19) having one end fixedly arranged in the base plane (2) and the other end fixedly arranged in the guide plane (6) at a position near the end section (8) of the guide plane (6), said link (19) passing through a cavity in the compression plane (3), whereby a relative change of the position of the compression plane (3) relative to the base plane (2) results a relative stretch of the link relative to its point of attachment in the follower plane (6), which entails a relative change of the position of the follower plane (6) relative to the side module base plane (5). Bed according to claim 7, characterized in that said link also comprises a wire (30) and a support sleeve (31), said wire (30) having one end fixedly arranged in the base plane (2) and the other end fixedly arranged in the follower plane ( 6) at a position near the end section (8) of the guide plane (6), said support sleeve (31) has a first end arranged in the compression plane (3) and a second end fixedly arranged in the side module (4) at a position which lies above the guide plane (6) highest position. Bed according to claim 4, characterized in that said lifting means (19, 24) consists of an arrangement comprising a wire and at least one pulley (35), said wire having one end fixedly arranged to compression plane (3) and the other end arranged to the guide plane (6), advantageously in connection with the end section (8) of the guide plane, the wire is arranged to run from the compression plane (3) through the pulley (35) arranged at a position below fixing means (11) further to the guide plane (6), wherein a change of the position of the compression plane relative to the base plane (2) results in a relative stretching of the wire, which causes the position of the follower plane (6) relative to the side module base plane (5) to change. Bed according to claim 9, characterized in that the wire is arranged to the guide plane via a further pulley (36), said pulley is fixedly arranged in the side module at a position which lies above the highest position of the guide plane (6).