CN210542156U - Handle for pushing transfer bed and for connecting infusion fluid container and transfer bed with handle - Google Patents

Abstract

According to the present invention, the object of the present invention is a handle for pushing a transfer bed and for connecting a container for infusion fluid, the handle comprising a guiding profile adapted at its first end to be connected to a height-adjustable upper frame of the bed, wherein the guiding profile carries a handle to be gripped by an operator, further comprising a telescopic profile, the first end of which is inserted into the guiding profile, wherein the guiding profile is provided at its other end with an opening for inserting the telescopic profile, and the telescopic profile is provided at its other end with an infusion holder, wherein the telescopic profile inserts at least half of its length into the guiding profile when in a retracted position, and extends at least half of its length from the guiding profile when in an extended position. In addition, the utility model also aims at providing a transfer bed with the handle. This arrangement enables many components such as handles, headboards, and poles attached to the bed or separate poles to be eliminated, as needed to provide convenient locations for grasping and pushing the transfer bed and for attaching infusion fluid containers. Furthermore, this solution provides more space for the operator during use, thus allowing good access to the patient.

Description

Handle for pushing transfer bed and for connecting infusion fluid container and transfer bed with handle

Technical Field

The technical scheme relates to a handle and a transfer bed with the handle, wherein the handle is used for pushing the transfer bed and is used for connecting an infusion fluid container for medical care on the bed for conveying a patient.

Background

In a hospital environment, it is often necessary to transport a patient on a bed. The first bed type used for this purpose is a universal bed equipped with wheels allowing transport, but it is mainly used for permanent occupancy of the patient. The second type of bed is a stretcher, which is a bed designed specifically for the transport of patients. For the purposes of this application, we designate both bed types as transport beds. In general terms, stretchers are referred to as devices for acute transport of patients, which are mainly used by rescue units for transporting patients in rescue service vehicles or helicopters. Stretchers are also widely used for transporting patients in hospital facilities due to their very simple design and easy handling. Still other stretchers are compatible for allowing the patient to stay on the bed from which he/she is sent throughout the examination, for example during an X-ray examination, thus avoiding the sometimes difficult handling of the patient for the examination. The need for compactness is also strong for these beds. Each centimeter of bed width or length reduction greatly increases maneuverability in often busy corridors of hospital facilities. A transfer bed usually comprises a lower frame to which wheels are attached and a height-adjustable upper frame on which a resting area for supporting a patient is located. The height adjustment is important for lowering the transfer bed to a safe position, i.e. the lowest position. This reduces the risk associated with the patient possibly falling from the bed. Most transport beds also allow the resting zone to be adjusted to a terenberg position, in which the head section of the resting zone is lower than the foot section of the resting zone, and to an inverted terenberg position (sometimes called inverted-terenburg), in which the head section of the resting zone is higher than the foot section of the resting zone. The handle used for pushing the transfer bed and the infusion support is other necessary parts of the transfer bed.

The infusion stand is used for placing intravenous infusion fluid dispensed into a patient. The infusion stand is preferably located in a corner of the head section of the resting area of the transfer bed. When pushing the bed, the medical staff is usually located in the head section of the resting area, where there is a best view of the status of the intravenous fluids and where they can be easily handled. The corner position may also provide space for the handling of the pole in the case of a bed head section facing the wall. This type of infusion support is for example the infusion support described in chinese utility model CN 203802712U. There are also infusion stands such as DE3331935a1, which are rotatably connected to the bed frame or the frame of a rescue stretcher, which enable folding of these. In addition, the transfer bed is provided with folding side rails, which extend vertically upwards on the two long sides of the rest area, mainly for preventing the patient from falling from the rest area, and in some cases headboards, which are located at the shorter sides of the rest area (i.e. the head and the feet). There must be convenient access to the patient, particularly in the head section, so the head section headboard is removably attached, or simply attached very low, or not used at all, to ensure optimal access to the patient's head. All these vertically protruding parts can grab and push the transfer bed.

As mentioned above, it is most common to push the bed from the head of the rest area. The handles are used for this purpose, which solves the problem of missing headboards and, when they are properly positioned as close as possible to the long sides of the resting area, they minimize the problem of difficult access to the patient from the head section side of the resting area. If the handle is foldable or removable, it can be ensured that the mentioned access to the head of the patient is completely unrestricted. Positioning the handle as close as possible to the long side of the rest area is also associated with the easiest handling of the transfer bed due to the maximum moment arm with respect to the pivot point. However, by placing the handle in this position, it may interfere with the placement of the pole, as shown, for example, in US 20030024048. Medical personnel often accidentally hit the pole if the handle is located very close to the pole, or their hands may be pinched between the handle and the pole as they operate the bed with the handle. The possibility of pinching the supply tube of a pulmonary ventilator, which is usually located in the head section, also presents a high risk. A pole located beside a handle that folds towards the other handle must be positioned outward from the longitudinal axis of the bed to the long side of the resting area. For this reason, the handle cannot be placed all the way into the corner, and the lever arm with respect to the pivot point is reduced. Alternatively, the handle may be placed in front of the pole or behind the pole in the longitudinal direction of the bed, but the overall length of the bed would have to be increased, which is undesirable as described above.

However, the medical practice during rapid transfer of patients on a transfer bed is that in a hurry the medical personnel will quickly utilize all possible options to grasp the bed for quick and simple operation. The pole attached to the bed is most often used as a repositioning of the handle, which allows the medical staff to grasp the bed at any height suitable for them. However, the overall structure of the stent is generally unsuitable for such operations and, in some cases, may even be dangerous, for the following reasons: the bracket attachments often break and the bracket swings, the hinge bracket swings at the joint and the bracket joint may break, and the bracket may actually break when a large force is applied. Another disadvantage of using a pole to maneuver the bed is its smooth surface. The operator's hands may slide over the surface, especially if the operator has sweaty or wet hands, which may lead to accidents and make it difficult to operate the bed if the stand slides out of the operator's hands due to the smooth surface of the stand.

In the prior art, there are many electrically driven systems for moving beds without the operator having to push it. These systems are typically operated by a handle located in the head section of the bed.

The utility model aims at designing a practical transportation bed handle, the bed is transported in its position and height will help the operation, provides the possibility as the infusion support simultaneously.

SUMMERY OF THE UTILITY MODEL

According to the invention, the above-mentioned disadvantages are eliminated by a handle for pushing a transfer bed and for connecting an infusion fluid container, comprising a guide profile which at its first end is adapted to be connected to a height-adjustable upper frame of the bed, wherein the guide profile carries a handle to be gripped by an operator, and further comprising a telescopic profile, the first end of which is retracted into the guide profile, wherein the guide profile is provided at its other end with an opening for retracting the telescopic profile, and the telescopic profile is provided at its other end with an infusion holder, wherein the telescopic profile retracts at least half of its length into the guide profile when in the retracted position, and extends at least half of its length from the guide profile when in the extended position. This arrangement enables many components such as handles, headboards, and poles attached to the bed or separate poles to be eliminated, as needed to provide convenient locations for grasping and pushing the transfer bed and for attaching infusion fluid containers. Furthermore, this solution provides more space for the operator during its use, thus allowing good access to the patient.

In an advantageous embodiment, the guide profile is rotatably connected to the height-adjustable upper frame of the bed, which allows the entire handle to be lowered into a storage position, in which it is always available, while remaining on the bed.

In another advantageous embodiment, the guide profile is detachably connected to the height-adjustable upper frame of the bed, which allows the entire handle to be completely removed from the bed, allowing optimal access to the patient. The handle can also be used on other beds adapted to its use, so that a smaller number of such accessories can be used on a larger number of beds, which means reduced costs.

Another advantage is that a locking mechanism preventing the telescopic profile from moving relative to the guide profile is connected to the guide profile or telescopic profile. This enables the telescopic profile to be fixed at a specific height suitable for the application of the infusion fluid.

The handle is preferably connected at least to the other end of the guide profile, which is an ergonomic position for most people and a position that is easy to manufacture, or at least to the other end of the telescopic profile, which is advantageous in that the height can be adjusted within the range of the telescopic profile. Thus, the position at the end is further away from the height adjustable upper frame of the bed.

Furthermore, the handle is preferably oriented substantially parallel to the axis of the guide profile or substantially perpendicular to it, which is particularly advantageous for ease of rotation, and is advantageous when pushing the bed straight or over long distances, since in this position the handle supports the weight of the hand well.

The infusion holder may be provided as a fixed hook, a folded hook or a hook adapted to be at least partially retracted into the telescopic profile or as a sleeve for holding an infusion fluid bottle.

According to other advantageous embodiments, the cross section of the at least one guide profile and of the at least one telescopic profile has the shape of a circle, a square, a rectangle, a convex polygon or a closed conical section.

Furthermore, for an ergonomic embodiment, it is advantageous that the body of the handle extends beyond the profile of the guide profile.

In order to achieve the widest possible extension range, or the greatest and smallest possible handle length, it is advantageous if the telescopic profile is retracted into the guide profile by at least three quarters of its length in the retracted position and is extended from the guide profile by at least three quarters of its length in the extended position.

The disadvantages of the solutions known from the prior art are eliminated by a transfer bed with a handle for pushing the transfer bed and for connecting infusion fluid containers, comprising a lower frame to which wheels are connected, a height-adjustable upper frame on which a rest area for supporting a patient is located, the rest area having two longer rest area sides, two shorter sides, a rest area head section and a rest area foot section, side rails projecting vertically upwards along the two long sides, wherein a guide profile of the handle carrying the handle of the handle is connected with its first end to the height-adjustable upper frame, and further comprising a telescopic profile which retracts its first end into the guide profile, wherein the guide profile is provided with an opening at its other end for retracting the telescopic profile, and the telescopic profile is provided with an infusion holder at its other end, wherein the telescopic profile in the retracted position retracts at least half of its length into the guide profile and in the extended position extends at least half of its length out of the guide profile.

The guide profile is preferably pivotable about an axis perpendicular to the normal of the resting area.

In another advantageous embodiment, the height-adjustable upper frame further comprises a pin adapted to rotatably connect the guide profile.

The guide profile is preferably adjustable to a first substantially vertical position for use by an operator and a second substantially horizontal position for placement along the head section of the resting area, such that the distance from the first end of the guide profile to the second end of the telescopic profile in the position in which the telescopic profile is retracted into the guide profile is less than or equal to the width of the bed at its widest point.

In an advantageous embodiment, the handle comprises a control of an electric drive of the bed. This can be used, for example, to adjust the height of the entire height adjustable upper frame using a motorized lift mechanism familiar to those skilled in the art. Another advantage is that these controllers can be used to control any drive system associated with some prior art beds, whether activating or setting direction, speed, braking or other functions.

Preferably, the two handles are connected to a height adjustable upper frame, which further comprises a first pin adapted to rotatably connect the guide profile of the first handle and a second pin adapted to rotatably connect the guide profile of the second handle, wherein the first pin is positioned higher than the second pin in order to place the handles on top of each other when the handles are in their second, substantially horizontal position for storage. This ensures that the two handles can be folded and stored without interference.

The guide profile is preferably positioned at the head section of the rest area near the corners of the rest area such that the guide profile is located outside the surface defined by the straight line passing the edge of the long side of the rest area, or such that the straight line passing any edge of the long side of the rest area passes the guide profile, or such that the guide profile is located between lines passing the edge of the long side of the rest area, at a distance of not more than 50 mm from the straight line passing any edge of the long side of the rest area.

According to an alternative embodiment, the guide profile is detachably connected to the height-adjustable upper frame, and the upper frame preferably comprises a hole adapted to retract the first end of the guide profile.

Drawings

Fig. 1 shows an isometric view of a transfer bed equipped with a handle having a telescopic profile provided with an infusion holder, wherein the handle is shown in a folded position as the telescopic profile is retracted and in a raised position as the telescopic profile is extended.

Fig. 2 shows an axonometric view with a handle shown in detail rotatably mounted in the corner of the height-adjustable upper frame, wherein on the right side of the bed there is a handle with a retracted telescopic profile, only for operating the transfer bed, and on the left side of the bed there is a handle with an extended telescopic profile, ready for connecting an infusion fluid container.

Fig. 3 shows a transverse view towards the head section showing the handle position, wherein the left handle is in a raised position and ready for connection of an infusion fluid container as the telescopic profile is extended, and the right handle is in a collapsed position as the telescopic profile is retracted.

Fig. 4 shows the same situation as fig. 3, but in an isometric view.

Fig. 5 shows a transverse view towards the head section showing the handle position, wherein the left handle is in a raised position as the telescopic profile is extended and ready for connection of an infusion fluid container, and the right handle is in a collapsed position as the telescopic profile is retracted.

Fig. 6 shows the same situation as fig. 5, but in an isometric view.

Fig. 7 shows a transverse view towards the head section showing the handle position, wherein the left handle is in a raised position with the telescopic profile extended, wherein the telescopic profile is also ready for connection to an infusate container, and the right handle is in a raised position with the telescopic profile extended, wherein the telescopic profile is also for connection to an infusate container, and wherein the right handle is shown with the telescopic profile extended less than the telescopic profile of the left handle.

Fig. 8 shows the same situation as fig. 7, but in an isometric view.

Fig. 9 shows a transverse view towards the head section showing the handle position, wherein the left handle is in the folded position and ready for connection of an infusion container as the telescopic profile is retracted, and the right handle is in the folded position as the telescopic profile is retracted.

Fig. 10 shows the same situation as fig. 9, but in an isometric view.

Fig. 11 shows a detailed illustration of the rotational connection of the handle on the height-adjustable upper frame in a lateral view towards the head section. This figure clearly shows the difference in height of the left and right handle connections.

Figure 12 shows a cross-sectional view of the handle folding mechanism from the perspective of the long side of the resting area.

Figure 13 shows a cross-sectional view of the folding mechanism of the handle in isometric view.

FIG. 14 illustrates one embodiment of a handle having a grip with a shape that includes a spherical segment.

Fig. 15 shows an embodiment of a handle with a handle which, in the folded position, is oriented substantially perpendicular to the axis of the guide profile.

Fig. 16 shows an embodiment of the handle with a grip which, in the folded position, is oriented substantially perpendicular to the axis of the guide profile.

List of reference numbers:

1-rest area

2-height-adjustable Upper frame

3-handle

4-guide profile

5-vertical handle

6-horizontal handle

Locking mechanism of 7-telescopic sectional material

8-telescopic section bar

9-infusion holder

10-transfusion holder joint

11-side rail

12-wheel

13-lower frame

14-folding mechanism

15-main body of folding mechanism

16-pin

17-rotating element

18-bar

19-locking pin

20-folding mechanism wall

21-holes in the walls of the folding mechanism

22-unlocking element.

Detailed Description

Fig. 1 shows an overall view of a transfer bed comprising a lower frame 13 to which wheels 12 are connected, a height-adjustable upper frame 2, a rest area 1 and side rails 11 in a folded position. The handle 3 is rotatably connected to the height-adjustable frame 2 in the folded position and the raised position.

Fig. 2 shows a part of the resting area 1 together with the height-adjustable frame 2 of the transfer bed, i.e. the head section of the transfer bed, on the right side of which there is a rotatably placed handle 3, the handle 3 comprising a guide profile 4, the guide profile 4 carrying a vertical handle 5 and/or a horizontal handle 6 and a locking mechanism of a telescopic profile 7, and the hook of a foldable infusion holder 9 being located at the end of the telescopic profile 7. The handle 3 has a telescopic profile 8, which telescopic profile 8 has at its end an open infusion holder 9 extending from its guide profile 4, the handle 3 being rotatably placed on the left side of the resting area 1 of the transfer bed. The telescopic profile 8 is defined by two positions with respect to the guide profile 4, one retracted and one extended. In the example in the figures, the telescopic profile 8 retracts approximately nine tenths of its length into the guide profile 4 in the retracted position, and the telescopic profile 8 extends approximately nine tenths of its length out of the guide profile 4 in the extended position. In alternative embodiments it may be different, but it is preferred that these values are as high as possible, i.e. the telescopic profile 8 in the retracted position retracts at least half of its length into the guide profile 4, and the telescopic profile 8 in the extended position extends at least half of its length out from the guide profile 4. The purpose of the locking mechanism 7 of the telescopic profile is to fix the telescopic profile 8 at the desired height. The locking mechanism 7 of the telescopic profile can be placed on the guide profile 4. In an exemplary embodiment, a bolt-tightening sleeve is used as the locking mechanism 7 on the telescopic profile. In an alternative embodiment, the sleeve may be secured with a quick coupling. Alternatively, other locking mechanisms may be used, such as a pin system fitting into a recess or hole in the profile, or a system utilizing internal friction between the telescopic profile and the guide profile. Alternatively, a mechanism with a plastically deformable, internally threaded portion and a fixed externally threaded portion with a conical shape can be used for locking, wherein the telescopic profile is clamped with the plastically deformable, threaded portion after the threaded connection is tightened. Those skilled in the art will appreciate that there are many alternative solutions to the locking mechanism of the telescopic profile 8 and that they do have to be located only on the guide profile 4, but could also be located on the telescopic profile 8. In the exemplary embodiment, the guide profile 4 and the telescopic profile 8 have at least one vertical handle 5 or horizontal handle 6. In an advantageous embodiment, the vertical grip 5 has a shape close to a cylinder and is positioned along an axis parallel to the axis of the handle 3. In an advantageous embodiment, the horizontal handle 6 also has a shape close to a cylinder and is positioned along an axis perpendicular to the axis of the handle 3. In another embodiment, the handle may be oriented along an axis that forms an angle of, for example, 20 degrees or 45 degrees with the axis of the handle 3, or another angle in an economically preferred position. In another embodiment, the shape of the vertical handle 5 and the horizontal handle 6 may be different from the shape of the cylinder. In an advantageous embodiment, the vertical handle 5 and the horizontal handle 6 can be carried anywhere on the guide profile 4 or the telescopic profile 8. Examples of various embodiments are shown in fig. 14, 15, and 16. The vertical handle 5 and the horizontal handle 6 may have their own locking mechanism for securing them at a selected height. One of the above-mentioned mechanisms for fixing the telescopic profile 8 can be selected as the locking mechanism. In the embodiments exemplified by the present invention, both the guide profile 4 and the telescopic profile 8 have a circular cross section, but may alternatively have the shape of a square, rectangle, convex polygon or closed conical section. The guide profile 4 must be hollow and have a larger diameter than the diameter of the telescopic profile 8 so that the telescopic profile 8 can be retracted into the guide profile 4. In an exemplary embodiment, infusion holder 9 comprises two arms with hooks at the ends, these hooks being attached by means of a joint 10 of infusion holder 9, which allows infusion holder 9 to fold when telescopic profile 8 is fully retracted into guide profile 4, and which allows infusion holder 9 to unfold when telescopic profile 8 is not fully retracted into guide profile 4. In another embodiment, the infusion holder 9 may comprise a plurality of arms with hooks at the ends and may be firmly connected to the telescopic profile 8 without the possibility of folding it, or the infusion holder 9 may be folded along the telescopic profile 8 or along the guide profile 4 if the telescopic profile 8 is in the fully retracted position. In another embodiment, the infusate holder 9 may be in the form of a sleeve for holding an infusate bottle. The infusion holder 9 is designed to hold an infusion fluid reservoir or an attached catheter or other medical aid, and for purposes of application we summarize all these options under the name "infusion container". In some embodiments, the vertical handle 5 or the horizontal handle 6 may contain an electrically driven control for the transfer bed.

In this embodiment, two handles 3 are connected in the head section of the transfer bed. In another embodiment, the handle 3 may be attached at other locations. The handle 3 can be used in a raised position. When the handles 3 are not in use, they can be stored in the folded position. In the raised position, the handle 3 can be used with the telescopic profile 8, the telescopic profile 8 being extended and ready for connection to an infusion fluid container. The handle 3 can be used in various combinations of raised and folded positions and in the raised position the telescopic profile 8 can be fixed at various heights. Different combinations of handles 3 that can be used are shown in figures 3 to 10.

In the exemplary embodiment, the handle 3 on the first end of the guide profile 4 is connected to the height-adjustable upper frame 2 of the transfer bed. In an exemplary embodiment, the guide profile 4 can be fixed to the height-adjustable upper frame 2 by a non-detachable rotatable connection or by a detachable translational connection. In both cases, the guide profile 4 is located in a corner section of the transfer bed.

For the placement of the guide profile 4, it is also possible to use a position which extends along the short side of the height-adjustable upper frame 2 of the transfer bed away from the axis, along the long side of the height-adjustable upper frame 2 of the transfer bed and outside the area defined by the axis of the side of the height-adjustable upper frame 2 of the transfer bed.

In an exemplary embodiment, the detachable translational connection is designed to retract the first end of the guide profile 4 into a corner section of the height-adjustable upper frame of the hole placement bed therein. The first end of the guide profile 4 may for example be adapted to be retracted into a hole in the corner section by the guide profile 4 having a size that forms an overlapping or temporary storage with the hole. The movement of the guide profile 4 in the axial direction can be limited in one direction by the end of the guide profile 4 contacting the hole bottom downwards. Another possible embodiment of the end of the guide profile 4 is to provide the end of the guide profile 4 with a bearing surface of a larger size than the hole, so that the bearing surface contacts the opening of the hole downwards, and the end portion of the guide profile 4 is narrower so that it inserts into the hole. For better insertion into the bore, the end of the guide profile 4 can be shaped as a spherical section, pyramid or cone.

In order to prevent the guide profile 4 from moving axially out of the hole, the hole and the guide profile 4 may be equipped with e.g. threaded grooves or guide grooves allowing axial displacement relative to the frame 2 of the transfer bed in only one rotational position of the guide profile using system ratchets or the like. The person skilled in the art will understand that there are a large number of alternative solutions for the mechanisms and systems for connecting the guide profile 4 in the upper frame of the bed.

Another exemplary embodiment is a non-detachable rotatable connection of the handle 3 to the height adjustable upper frame 2 of the bed, shown in fig. 12 and 13. The handle 3 may be folded about an axis substantially parallel to the longitudinal axis of the bed. The longitudinal axis of the bed is the axis which lies in the plane of the rest area 1 and is perpendicular to the section formed by the position of the guide profile 4. The folding mechanism 14 comprises, for example, a body 15 of the folding mechanism, the body 15 comprising a formed metal plate in which the pins 16 are placed. A swivel element 17 is connected with the lock 16, the swivel element 17 having a first end of the guide profile 4 connected therewith and a lever 18 with a stored locking pin 19. The locking pin 9 is provided with a pressing element which pushes it against the wall of the body 15 of the folding mechanism. The swivel arrangement allows the handle 3 to be moved between a folded position when the handle is in a generally horizontal position and a raised position when the handle 3 is in a generally vertical position.

In the exemplary embodiment, the handle 3 is positioned in a raised position to fit the locking pin 19 into the first hole 21 in the main body 15 of the folding mechanism. The locking pin 19 then further locks the rotation of the handle 3 about the pin 16. To unlock the rotation of the handle 3, the locking pin 19 is pushed out of the hole 21 in the body 15 of the folding mechanism by means of an unlocking element 22, and the handle 3 is rotated in the desired direction. Once the handle 3 is set in the folded position, the locking pin 19 stays in its position pushing the wall 20 of the folding mechanism body 15. The handle 3 is not locked in the folded position. In an alternative embodiment, the handle 3 can also be locked in the folded position using the same principle as when locked in the raised position, i.e. by retracting the locking pin 19 into the second hole in the folding mechanism wall 15. Those skilled in the art will appreciate that many variations of the folding mechanism and locking mechanism may be used.

In an exemplary embodiment, the axes of rotation of the handle 3 are at different heights (as shown in fig. 11) to prevent possible bumping of the handle 3 in the folded position. In the exemplary embodiment, the rotation axis of the right handle 3 is positioned lower than the rotation axis of the left handle 3. Further, it is apparent that the right handle 3 is shorter than the left handle 3 to prevent the right handle 3 from colliding with the left handle 3 or the folding mechanism of the left handle 3. Alternatively, the axis of the rotary member of the left handle 3 may be placed lower and the rotary shaft of the right handle 3 may be placed higher. Another solution for the collision of the handles 3 in the folded position may be to arrange the axes of rotation of the handles 3 parallel to each other so that they form an angle with the length of the bed in the arc interval (1: 1.45).

Claims (22)

1. Handle for pushing a transfer bed and for connecting infusion fluid containers, comprising a guide profile (4), which at its first end is adapted to be connected to a height-adjustable upper frame of the transfer bed, wherein the guide profile (4) carries a handle to be gripped by an operator, characterized in that the handle has a locking mechanism for fixing the handle at a selected height along the guide profile (4), the handle further comprising a telescopic profile (8), the first end of which telescopic profile (8) is retracted into the guide profile (4), wherein the guide profile (4) is provided at its other end with an opening for inserting the telescopic profile (8), and the telescopic profile (8) is provided at its other end with an infusion holder (9), wherein the telescopic profile (8) inserts at least half of its length into the guide profile when in the retracted position (4) And the telescopic profile (8) in the extended position extends at least half of its length from the guide profile (4).

2. Handle according to claim 1, characterized in that the guide profile (4) is rotatably connected to the height-adjustable upper frame (2) of the bed.

3. The handle according to claim 2, characterized in that the guide profile (4) is removably connected to the height-adjustable upper frame (2) of the bed.

4. Handle according to claim 1, characterized in that a locking mechanism (7) preventing the movement of the telescopic profile (8) in relation to the guide profile (4) is connected to the guide profile (4) or to the telescopic profile (8).

5. Handle according to claim 2, characterized in that the handle is connected at least to the other end of the guide profile (4) or at least to the other end of the telescopic profile (8), i.e. the other end of the height adjustable upper frame (2) remote from the bed.

6. Handle according to claim 1, characterized in that the grip is oriented substantially parallel or substantially perpendicular with respect to the axis of the guide profile (4).

7. Handle according to claim 1, characterized in that the infusion holder (9) is designed as a fixing hook, a folding hook or a hook adapted to be at least partially retracted into the telescopic profile (8).

8. The handle according to claim 1, wherein the infusion holder (9) is designed for attachment of a sleeve of an infusion fluid bottle.

9. Handle according to claim 1, characterized in that the section of at least one of the guide profiles (4) and the section of one of the telescopic profiles (8) has the shape of a circle, square, rectangle, convex polygon or closed conical section.

10. Handle according to claim 9, characterized in that the body of the grip extends beyond the profile of the guide profile (4).

11. Handle according to claim 1, characterized in that the telescopic profile (8) in the retracted position retracts at least three quarters of its length into the guide profile (4) and the telescopic profile (8) in the extended position extends at least three quarters of its length out of the guide profile (4).

12. A transfer bed with handles for pushing the transfer bed and for connecting containers for infusion fluids, comprising a lower frame (13) to which wheels (12) are connected, a height-adjustable upper frame (2), on which upper frame (2) a resting area (1) for supporting a patient is located, which resting area has two longer resting area (1) sides, two shorter sides, a resting area (1) head section and a resting area (1) foot section, along which two long sides side rails (11) project vertically upwards, wherein a guide profile (4) of the handle carrying the handle of the handle is connected with its first end to the height-adjustable upper frame (2), and characterized in that it further comprises a telescopic profile (8), which telescopic profile (8) retracts its first end into the guide profile (4), wherein the guide profile (4) is provided at its other end with an opening for retracting the telescopic profile (8), and the telescopic profile (8) is provided at its other end with an infusion holder (9), wherein the telescopic profile (8) retracts at least half of its length into the guide profile (4) in the retracted position, and the telescopic profile (8) extends at least half of its length out of the guide profile (4) in the extended position.

13. Transfer bed according to claim 12, wherein the transfer bed comprises a handle according to any of claims 4-11.

14. Transfer bed according to claim 12, characterized in that the guide profile (4) is pivotable about an axis perpendicular to the normal of the rest area (1).

15. Transfer bed according to claim 12, characterized in that the height-adjustable upper frame (2) further comprises a pin (16) adapted to rotatably connect the guide profile.

16. Transfer bed according to claim 12, characterized in that the guide profile (4) is adjustable to a first substantially vertical position for use by an operator and to a second substantially horizontal position for placement along the head section of the rest area (1) such that the distance from the first end of the guide profile (4) to the second end of the telescopic profile (8) in the position in which the telescopic profile (8) is retracted into the guide profile (4) is less than or equal to the width of the transfer bed at its widest point.

17. The transfer bed of claim 12, wherein the handle comprises a control of an electric drive of the transfer bed.

18. Transfer bed according to claim 12, characterized in that two of the handles are connected to the height-adjustable upper frame (2).

19. Transfer bed according to claim 18, characterized in that the height adjustable upper frame (2) further comprises a first pin (16) and a second pin (16), the first pin (16) being adapted to be rotatably connected with the guide profile of a first handle, the second pin (16) being adapted to be rotatably connected with a guide profile of a second handle, wherein the first pin (16) is positioned higher than the second pin (16) in order to place the handles on top of each other when the first and second handles are in their substantially horizontal second position for storage.

20. Transfer bed according to claim 12, characterized in that the guide profile (4) is positioned close to the head section of the rest area (1) near a corner of the rest area (1) such that the guide profile (4) is located outside the surface defined by a straight line passing through the edges of the long sides of the rest area (1), or such that a straight line passing through any of the edges of the long sides of the rest area (1) passes through the guide profile (4), or such that the guide profile (4) is located between the straight lines passing through the edges of the long sides of the rest area (1) at a distance of not more than 50 mm from the straight line passing through any of the edges of the long sides of the rest area (1).

21. Transfer bed according to claim 12, characterized in that the guide profile (4) is detachably connected to the height-adjustable upper frame (2) of the transfer bed.

22. Transfer bed according to claim 12, characterized in that the height-adjustable upper frame (2) comprises a hole adapted to receive the first end of the guide profile (4).

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