Bed and structure of flat bed-base for use particularly in hospitals

Description

[0001] This invention concerns a bed and the structure of a flat bed-base for use particularly in hospitals.

[0002] The invention is suited particularly, but not exclusively, for use in the technical equipment sector, and more specifically, for use in hospitals.

[0003] The current type of bed used in hospitals is the traditional one, that is, composed of a frame which is generally rectangular, on to which are attached a headboard and a footboard. At the base of the frame, feet can be fitted, either of the fixed type or of the type having castors. In addition, a device can be fitted below the spring-base which enables all or part of said base to be lifted. On the internal perimeter of the tubular bed-frame there is a metal mesh, which is generally made up of a 5 mm diameter iron filament. This is interwoven in such a way as to produce a series of square or rectangular links of around 5 cm x 5 cm. In this case the principal function of the metal mesh is to support the mattress and the weight of the body, which it does by adapting itself to the main shape of the body. This last feature however is rather irrelevant in terms of hospital beds, since most of these require a rigid spring-base. Indeed sometimes this is achieved by inserting ordinary pieces of wood between the spring-base and the mattress. In another type of hospital bed, found particularly in intensive therapy wards, reanimation departments and in operating theatres, the traditional metal spring-base is composed of a collection of two or more adjacent meshes all on the same plane and hinged in such a way as to allow certain parts of a patient's body to be raised while the others remain flat.

[0004] However, there are several problems with the above-cited types of spring-base. Above all there is the consideration that they are not really suited to the highly specialised wards such as intensive care, reanimation or the operating theatres in that they are not easily sterilised.

[0005] The traditional spring-base is in fact full of inaccessible places such as, for example, the inside of the outer frame which is in contact with the external environment due to the presence of the screw holes necessary for fixing onto the metal spring-base. Secondly, the structure itself of the spring-base is unhygienic in that it is made up of many components, the various joints of which constitute a real receptacle for dirt, and thus are potentially dangerous due to the possible development of bacteria therein, which are difficult to remove from such places. In such cases, in order to clean the beds properly, they must be completely dismantled and all their parts cleaned separately. These traditional beds also do not lend themselves to being sterilised, and can only be given a ordinary tunnel-wash using normal disinfectants, the result being an inferior degree of cleanliness. Further problems are caused by the fact that the spring-base is made of metal and thus easily subject to oxidation, and progressive rusting, due on the one hand to the frequent washing of the beds, and on the other to the various uses to which the beds are put. For example if a bed is used by a long-term patient, it can come into contact with liquids which are strongly acidic, such as urine. Also, in cases where the traditional flat spring-base is made rigid by the addition of pieces of wood, there is inadequate aeration, and this is indispensable for the mattress to be able to breathe, and thus for the well-being of the patient. Furthermore, traditional types of spring-bases do not even have any convenient method of containing the mattress, which is just held in place by the footboard and the headboard, leaving the possibility of the mattress sliding off at either side.

[0006] Finally, the sometimes elevated cost of production of the spring-bases can have a negative effect on the market for the complete bed.

[0007] In order to avoid some of these problems, which are principally concerned with the need to sterilise the various components of hospital technical equipment, such as trolleys, the same applicant, in another industrial patent, describing the construction and relative components for a trolley particularly suitable for carrying medicines and instruments, stated that baydur plastic should be used for pressing the solid components, namely : a part comprising a base, sides, a back and/or upper shelf; drawers with a cavity on the front forming the handle; sliding doors; as well as dividing panels.

[0008] The aim of the present invention is to avoid the above mentioned problems.

[0009] US-A3188660 (GUTTMAN) discloses a hospital bed mattress, supported by a mattress supporting structure, composed of four flat hinged panels, the two longer ones being at the head and foot of the bed and the two intermediate ones being shorter than these and of different lengths. This supporting structure is so made in order to be able to raise and lower certain areas of the body.
This mattress supporting structure is substantially a metallic spring (10) and for this reason it has the same drawbacks as previously described.

[0010] WO-A-9101099 (NORMA BOXMEER B.V.) describes a similar mattress supporting structure in four hinged panels, wherein each panel is made of foam material and includes a plurality of transverse slats supported by resilient members.
This solution has the drawback that it is difficult to clean and disinfect, due to its bulky construction and foam content.
Furthermore this solution has a mattress protecting underlay, which may become damaged and thus allow penetration of soiling materials.

[0011] Both these solutions have limited durability, US-A3188660 (GUTTMAN) due to the rusting propensity of metal and WO-A-9101099 (NORMA BOXMEER B.V.) due to the foam content of the structure.

[0012] With this invention, the afore-stated and other aims are achieved, as described in the annexed claims, by resolving the problems described above with a bed and bed-base structure which are particularly suitable for hospitals. The bed-base is formed from several solid, essentially flat components, all on the same plane and hinged together, and in particular there are two corresponding with the respective edges near to the head- and/or foot-board, and two smaller intermediate ones. These components are produced by injection-moulding and/or pressing "baydur" plastic; around the edges tubular supporting frames are embedded in the plastic, and there are devices for aerating and containing the mattress.

[0013] In this way, as a result of the significant creative contribution involved resulting in an immediate technical achievement, various advantages are to be gained. For example, and most importantly, the bed-base can be effectively sterilised to an extent never before reached, and essentially independently of the temperature, within normal values and times required, obtaining thereby a maximum degree of hygiene. Secondly, the absence of metal parts, and inaccessible areas such as cracks, lubricated joints, etc., means the elimination of those areas which can form a receptacle for dirt with the consequent growth of bacteria, and thus the level of hygiene is optimised. With regards the functionality of the base, it should be pointed out that the mattress is not placed directly on the bed base, thus allowing a perfect ventilation and aeration of the mattress, with obvious benefits and advantages for the patient. Last but not least, this base represents a structural simplification and entails a substantial reduction in weight of the entire structure.

[0014] These and other advantages shall be demonstrated in the subsequent detailed description of the preferred method for the bed-base's construction, with the help of the attached diagrams. The details shown therein are not to be considered restrictive, but just exemplary.

Figure 1 shows a plan view of the structure of the flat bed-base for use in hospitals.

Figure 2 gives a side view and a longitudinal section of the bed-base structure shown in Figure 1.

Figure 3 gives a cross section of the bed-base structure, along the axis B-B shown in Figure 1.

Figure 4 represents a frontal view of an end-piece of the flat bed-base, seen along axis A-A in Figure 2.

Figure 5 is a view of detail C as in Figure 2.

[0015] With reference to the Figures it will be seen that the bed and bed-base (A) for particular use in hospitals, is composed of a headboard and a corresponding footboard which are fixed perpendicularly to the said base (A) mounted on a lower frame (supported using the usual methods), by a series of small rotating wheels. The bed-base structure (A) is formed of tilting planes (1, 1', 1'', 1''') which are attached in the middle to the under-lying support frame. There are four components of the bed-base, which are essentially solid planes (1, 1', 1'', 1''') as they are each made from one piece of material, that is, they are each moulded from "baydur" plastic. These components are fixed together and thus each has at least one pair of hinges (2, 2') which are attached to the side of the component which is facing the adjoining component. The arrangement of the solid components (1, 1', 1'', 1''') of the bed-base (A) is such that the first two (1, 1''') which are in an end position, are larger than the other two in the middle position (1', 1''). It will also be noted that these two middle position components (1', 1'') are of different sizes. Each component of baydur plastic (1, 1', 1'', 1'''), has a tubular frame (3) embedded within its structure around the perimeter, which serves to support and strengthen it. The structure of each component (1, 1', 1'', 1''') has a particular form, in that each has a series of openings or holes, formed by extracting material. These openings are like round-ended triangles (4), which extend transversally and face in opposite directions. The function of said openings (4) is in practice to allow a better aeration of the mattress which is placed on the surface of the bed-base (A). Furthermore, the components have transversal ribs (5) which allow the mattress to be slightly raised above the surface of the bed-base, thus leaving a space below the mattress which also aids ventilation. Finally, near the exterior edge of each component (1, 1', 1'', 1''') of the bed-base (A), a boundary (6) which in practice is nothing more than a border to each component, and is slightly raised in comparison to the rest of the component, delimits the position in which to place the mattress. On at least one of the ends of the bed-base (A) there is an edge for restraining the mattress (7), which is essentially an upturned "U" structure partially incorporated into component (1) and/or (1''').

Claims

1. A mattress supporting structure, realized in four flat hinged panels, the two longer ones (1,1''') being at the head and foot of the bed and the two intermediate smaller ones (1',1'') being shorter and of different lengths, characterized in that said panels (1,1',1'',1''') have a tubular metallic frame around the perimeter (3), said tubular metallic frame being incorporated within an injection-moulding plastic mattress supporting structure which has a plurality of areation openings (4).

2. A structure according to claim 1. characterised by the fact that it is attached in the middle to the under-lying support frame, and it is composed of four essentially solid planes (1, 1', 1'', 1''') which are all fixed together and thus each has at least one pair of hinges (2, 2') which are attached to the side of the component which is facing the adjoining component.

3. A structure according to the previous claims, characterised by the fact that said areation openings are shaped like round-ended triangles (4) which extend transversally and face in opposite directions.,

4. A structure according to the previous claims, characterised by the fact that on the upper surface of each of said panels (1, 1', 1'', 1''') there are transverse ribs (5) on which the mattress is placed.

5. A structure according to the previous claims, characterised by the fact that on the exterior edge of each of said panel (1, 1', 1'', 1'''), there is a boundary (6) which comprises a border to each component, and which is slightly raised in comparison to the rest of the respective panel and delimits the position in which to place the mattress.

Ansprüche

1. Stützstruktur für Matratze, bestehend aus vier flachen eingehängten Brettern, deren beiden längere (1, 1''') sieh an Kopf- und Fußend des Bettes befinden, während die beiden mittleren, kleineren (1', 1'') kürzer und verschieden lang sind, gekennzeichnet dadurch, daß die Bretter (1, 1', 1'', 1''') entlang ihres Umfangs einen rohrförmigen Metallrahmen (3) aufweisen, der in eine Spritzguß-Kunststoffmatratzenstützstruktur eingebettet ist, die über eine Vielzahl von Lüftungsöffnungen (4) verfügt.

2. Struktur wie nach Anspruch 1, gekennzeichnet dadurch, daß sie in der Mitte mit dem darunterliegenden Stützrahmen verbunden ist und aus vier im wesentlichen soliden Flächen (1, 1', 1'', 1''') besteht, die alle miteinander verbunden sind, so daß jede zumindest ein Scharnierpaar (2, 2') aufweist, das an derjenigen Seite des Elements befestigt ist, die der des danebenliegenden Elements gegenüberliegt.

3. Struktur wie nach den vorangegangenen Ansprüchen, gekennzeichnet dadurch, daß die besagten Lüftungsöffnungen die Form von abgerundeten Dreiecken haben (4), die sich quer erstrecken, mit der Vorderseite in entgegengeseztzte Richtungen.

4. Struktur wie nach den vorangegangenen Ansprüchen, gekennzeichnet dadurch, daß sich auf der Oberseite jedes der Bretter (1, 1', 1'', 1''') Querrippen (5) befinden, auf die die Matratze zu liegen kommt.

5. Struktur wie nach den vorangegangenen Ansprüchen, gekennzeichnet dadurch, daß sich am Außenrand jedes der Bretter (1, 1', 1'', 1''') eine Abgrenzung (6) befindet, die eine Abgrenzung zu jedem Element umfaßt und leicht angehoben ist gegenüber dem restlichen Brett, und die die Position für die Matratze angibt.

Revendications

1. Une structure de support de matelas, réalisée avec quatre panneaux plats pivotants, les deux les plus longs (1,1''') étant à la tête et au pied du lit et les deux intermédiaires les plus petits (1',1'') étant plus courts et de différentes longueurs, caractérisée par le fait que dits panneaux (1,1',1'',1''') ont un cadre métallique tubulaire autour du périmètre (3), dit cadre métallique tubulaire étant incorporé dans une structure de support de matelas en plastique façonnante à injection qui a une pluralité d'ouvertures d'aération (4).

2. Une structure selon la revendication 1. caractérisée par le fait qu'elle est attachée au milieu au cadre de support sous-gisant, et elle est formée de quatre planches essentiellement solides (1, 1', 1'', 1''') qui sont toutes fixées ensemble et donc chacune a au moins une paire de charnières (2, 2') qui sont attachées sur le côté du constituant qui est en face du constituant adjacent.

3. Une structure selon les revendications précédentes, caractérisée par le fait que dites ouvertures d'aération ont la forme de triangles arrondis à leur extrémité (4) qui s'étendent transversalement et sont orientées vers la directions opposées.

4. Une structure selon les revendications précédentes, caractérisée par le fait que sur la surface supérieure de chacun des dits panneaux (1, 1', 1'', 1''') il y a des nervures transversales (5) sur qui est placé le matelas.

5. Une structure selon les revendications précédentes, caractérisée par le fait que sur le bord extérieur de chacun des dits panneaux (1, 1', 1'', 1'''), il y a une limite (6) qui inclut un bord de chaque constituant, et qui est légèrement soulevée par rapport au reste du respectif panneau, et délimite la position où doit être placé le matelas.

Drawing