RU88545U1 - BED MULTIFUNCTIONAL "KINETRON" - Google Patents

Abstract

The utility model relates to medical equipment and can be used both for the treatment and care of sick and elderly people, including the prevention of complications, and for the recovery and motor rehabilitation of patients, both in stationary medical conditions (hospitals, sanatoriums) or specialized (houses disabled people for adults and children) institutions, and at home, as well as in the conditions of military medicine and disaster medicine. EFFECT: facilitating and simplifying manual control of bed mechanisms with minimal efforts, increasing the convenience of patient care without moving him from the bed, including replacing bedding, expanding bed functionality by changing the bed profile and the position of all sections in various combinations and the possibility of motor rehabilitation of the patient while he is on the bed, as well as improving the reliability, rigidity and integrity of the bed structure and decrease in its mass. To do this, in the proposed bed, the bed is made in the form of a closed spatial rigid frame containing movable head, pelvic, femoral and ankle sections with at least two degrees of freedom, made of hollow sealed tubular longitudinal elements connected in series, set to the width of the bed sheet , and rigidly interconnected from below using tubular elements in the form of curved arcs. Moreover, the ankle section is made of two parts, pivotally mounted on two parallel longitudinal tubular elements of the femoral section with the possibility of separate phase oscillations of the right and left parts, and the longitudinal elements of the pelvic section are made of sliding parts. In this case, the head, pelvic and femoral sections have one or more sections of the web between the longitudinal elements, tightly tensioned by means of spring or elastic elements, and the ankle section can sag. The head and femoral sections are connected to the bed base using hinges of vertical telescopic working devices with a hydraulic or mechanical drive located on the longitudinal tubular elements of the bed frame sections, and the pelvic section is equipped with an additional vertical telescopic working link pivotally connected to the bed base. The frame of the base of the bed is made of tubular elements on which vertical telescopic working devices are installed, interconnected in pairs in cross section by stability elements, while at least one pair is rigidly connected to the base of the bed from them. The drive of the bed frame sections is made in the form of two articulated-lever multi-links, kinematically connected to each other and connected to the base of the bed. Moreover, the segments of the longitudinal tubular elements of the head and femoral sections associated with the pelvic section and connected to the articulated-lever multi-links have a length of not more than 0.4 of the total length of their sections. The control levers of the sections are hollow, airtight, mounted on both sides of the bed frame and fixed in hinges of the longitudinal tubular elements of the sections, and are connected to each other by means of couplings. From above, the levers are interconnected by means of longitudinal connecting links and upper hinges, and form side rails in the raised fixed position of a given angle, and in the unlocked state, the levers are the drives of simultaneous oscillatory movements of the bed sections with different amplitudes and combinations of movements with the function of a manual drive. The drive mechanisms of the bed frame sections are equipped with an additional mechanical device, which is a foot drive. 1 main and 7 head. P. f-ly, 4 ill.

Description

The utility model relates to medical equipment, and more specifically to a multifunctional bed, and can be used both for the treatment and care of sick and elderly people, including the prevention of complications, and for the recovery and motor rehabilitation of patients, both in stationary medical conditions (hospitals , sanatoriums) or specialized (disabled people's homes for adults and children) institutions, as well as at home, as well as in the conditions of military medicine and disaster medicine.

Known functional bed, containing the base, the bed, made in the form of sections, one of which has a hole, lifting mechanisms and the mechanism for bringing the vessel. The bed contains a push-button remote control for the position of the patient’s body and the ship’s feed and is equipped with an audible alarm that indicates the excess load on the electromechanical devices in the mode of raising or lowering. The lifting mechanisms of the sections and the ship's feeds, represented by a system of levers and electromechanical devices in the form of linear drives, are pivotally fixed to the base and levers and working in tension during lifting. The bed is provided with discarded handrails in the form of arcs pivotally attached to its base, used as supports for a removable table. Moreover, the bed is made of one fixed and three movable sections, and the head back is movably connected to the movable head section; the linear dimensions of the bed exceed the linear dimensions of the base by 20-30%, and its lower part contains shelves for storing things, and the casing enclosing moving mechanisms acts as the walls of a mini-cabinet [1].

A disadvantage of the known medical bed is its bulkiness, the complexity of its transportation and the difficulty of disassembling the bed. In addition, the possibility of sanitary care of the patient with his stay on the bed is not provided, and there is no possibility of carrying out motor rehabilitation of the patient lying on the bed.

The closest in technical essence to the proposed one is the well-known medical bed, selected as a prototype and containing in all its variants a base with self-orientating wheels mounted on uprights and placed on the base of a bed of movable sections with a drive. Moreover, the bed has at least three movable sections with lever drive supports and at least one fixed section. The base is made in the form of a truss in the form of a parallelepiped, the corners of the ribs of which are connected to the vertical posts by fixing pipes, and the drive is made in the form of mechanical, or pneumomechanical, or hydromechanical, or electric-power telescopic working elements with control levers located at the end of the bed for a standing person and with parallel connected control levers for a person lying on a bed, which are placed in accessible places, with the ends of at least one telescopic working element that is pivotally connected to the actuating lever supports, at least two movable sections and the ends of at least two telescopic working elements are connected by hinges to the base and supports the drive lever movable sections installed at the ends of the fixed section. The wheels are mounted on uprights [2].

A disadvantage of the known hospital bed is the complexity of the design and, as a consequence, increased metal consumption and weight gain. The implementation of the base in the form of a truss in the form of a parallelepiped leads to its bulkiness, and requires several drives to perform functions (bed), which creates additional control complexity, and the bulkiness of parallelogram mechanisms creates inconvenience in operation, limiting the scope of free access to the patient, and also leads to the inconvenience of its transportation and the complexity of the assembly-disassembly in place. The complexity of the configuration of the elements of its design increases the outer surface of the bed frame, which complicates its sanitization. In addition, the implementation of the fixed pelvic section leads to a limitation of the functions performed by the bed, in particular the fight against the formation of pressure sores.

The utility model is based on the task of improving the bed, in which, due to the introduction of new nodes and elements, as well as the other design of the bed frame, bed base and its drives, the manual control of bed mechanisms is facilitated and simplified with minimal effort, which is done both by the attendant staff and the patient lying on the bed, improving the convenience of patient care without moving him from the bed, including changing bedding, and expanding the bed’s functional capabilities by changing the bed profile and the position of all sections in various combinations and the possibility of carrying out motor rehabilitation of the patient while he is on the bed, as well as increasing the reliability, rigidity and tightness of the bed structure and reducing its weight, and due to this hygiene, compactness beds and its mobility, ease of assembly and disassembly, and an increase in the service life, a decrease in its cost, as well as an increase in the convenience and efficiency of operation it particularly favorable conditions for the treatment, prevention of complications, rehabilitation and restoration of working capacity of patients after illness and injury that results in general to a significant reduction in maintenance costs and patient care.

The problem is achieved in that in the multifunctional bed, containing a base in the form of a rectangular frame with a mechanism for moving the bed or its installation, and placed on the base of the bed of at least three movable sections, connected in series with each other using hinges, with its own drive mechanisms , with parallel connected control levers for a person who is lying on the bed, and medical staff, placed in accessible places, and which are hand-operated, and the ends of the vertical ones escopic working devices of the drive mechanisms are pivotally connected to the control levers of the sections and to the base with the possibility of smooth or discrete change of the fixation point of the hinges, and additional devices for holding and servicing and / or self-care of the patient, according to the utility model, the bed is made in the form of a closed spatial rigid frame, containing the head, pelvic, femoral and ankle sections made of hollow sealed tubular elements connected in series with each other, with the possibility of moving the sections in height and turning around the horizontal axes and changing the profile of the bed and its fixation in longitudinal and transverse sections, moreover, all sections are movable with at least two degrees of freedom, the head and femoral sections are connected to the base of the bed using hinges placed on longitudinal tubular elements of bed frame sections, and vertical telescopic working devices with hydraulic or mechanical drive, and the pelvic section is equipped with an additional vertical telescopic a flexible or working link connected to the bed base frame, while the head, pelvic and femoral sections of the bed frame contain at least one section frame consisting of two parallel longitudinal tubular elements installed on the width of the bed sheet, and connected to each other from below using tubular elements in the form of curved arches, the ankle section is made of two parts - left and right, mounted articulated on two parallel longitudinal tubular elements of the femoral section with the possibility of separate about the phase of oscillation of the right and left parts, and the longitudinal tubular elements of the pelvic section are made telescopic from the sliding parts with the possibility of changing the length of the section, the head, pelvic and femoral sections having one or more sections stretched between the longitudinal tubular elements from above with elastic or elastic elements the web equipped with a device for its tension, and the web of the ankle section has the ability to sag, the frame of the base of the bed is made of tubular elements on which These are vertical telescopic working devices, interconnected in pairs in cross section by stability elements having a connection between two parallel longitudinal tubular elements of the sections and the bed base, while at least one pair is rigidly connected to the bed base from them with the possibility of horizontal movement, and segments of the longitudinal tubular elements of the head and femoral sections, which are connected with the pelvic section and connected to vertical telescopic working devices using movable hinges, have a length of not more than 0.4 of the total length of their sections, the drive mechanisms of the bed frame sections are made in the form of two articulated-lever multi-link systems kinematically connected to each other by a telescopic controlled link, and connected to the bed base, which contain drive section control levers mounted on both sides of the bed frame, and made hollow, airtight, which are interconnected from above using upper hinges and tubular longitudinal connecting upper links with and on both sides of them by control panels, which as a whole forms side rails in a raised fixed position that are simultaneously a manual drive for changing the bed profile, and from below the drive control levers are connected to the longitudinal tubular elements of the sections through couplings located in hinges at the joints sections, as well as the connection of the parts of the longitudinal tubular elements with vertical telescopic working devices, and the control panels and couplings are interconnected using elements with ligatures placed inside the drive levers and tubular longitudinal connecting upper links, and vertical telescopic working devices with a fixed height of the pelvic section with an additional vertical telescopic working link, are duplicate elements of the manual drive for lifting and turning sections around horizontal axes, the drive mechanisms of the bed frame sections are equipped with an additional a mechanical device, which is a foot drive, made in the form of a pedal and / or lever, connected by rods to the top telescopic telescopic working devices located in the hollow elements of the bed base frame.

In addition, in some cases, the proposed multifunctional bed is characterized by the following features: -drive mechanisms of the head and pelvic sections, as well as the femoral and ankle sections made in the form of two articulated four-link; - the drive mechanisms of the sections of the frame of the bed are equipped with an electromechanical low-speed drive; - the drives are equipped with an automatic control system for specified programs, including remote; - the lower curved arches of the sections of the frame of the bed are made in the form of interconnected transverse arches of an L-shaped form, the ends of which are rigidly connected to the longitudinal tubular elements on one side, and connected to the ends of the U-shaped longitudinal arcs using movable hinges at an angle of 15-30 ° with respect to the transverse arches, while in each section the longitudinal tubular elements and longitudinal arcs are equipped with a web tension device containing tension limiters of the web sections and elastic elements, to torye the corners are connected to the ends of the arcs L-shaped; - all structural elements of the bed base are made planar and collapsible with the possibility of its transformation into a wheelchair; -the lower parts of the vertical telescopic working devices are located below the level of the base frame and are equipped with additional safety wheels with a diameter smaller than that of the running wheels of the bed; - the pelvic section is equipped with a device for sliding the sections of the canvas and lowering the sliding parts of the pelvic section with the possibility of their fixation with the vessel when caring for the patient.

As a result of the use of the claimed utility model, a technical result is obtained consisting in facilitating and simplifying the manual control of bed mechanisms with minimal effort, which is carried out both by the maintenance staff and the patient lying on the bed, and improving the patient’s sanitary care without moving it from the bed, including the replacement of bedding, and to expand the functionality of the bed by changing the profile of the bed and position Cex sections in various combinations, and the possibility of motor rehabilitation patient during his presence in the bed, and to improve reliability, the rigidity and tightness of the bed structure, and reduction of its weight.

Facilitation and simplification of manual control of bed mechanisms with minimal effort, both from the medical staff and the patient lying on the bed, is achieved due to the presence of movable hinges at the ends of the vertical telescopic working devices of the drive mechanisms, allowing to shift the axis of rotation of the sections and, thereby, reduce muscle load when running. Improving the convenience of sanitary care for a patient lying on a bed without moving from it, as well as the bed itself and bedding, is achieved due to the sectional design of the bed sheet and the mobility of all four of its sections. Due to the possibility of changing the profile of the bed and the provisions of all sections in various combinations, the functionality of the bed is expanded when not only treatment with the patient’s sanitary care is carried out while he is in bed, but also motor rehabilitation and prevention of complications in chronic patients and the elderly, including prevention and treatment of pressure sores and pulmonary complications, cerebral edema, burns. Improving the reliability, rigidity of the structure and reducing its weight, as well as its hygiene, is achieved through the use of the basic frame elements of the bed and the base of the bed from sealed tubular elements. The use of the drive sections of the frame of the bed in the form of two articulated-lever multi-link systems, allows to simplify management and facilitate the design. The mobility of the proposed design is achieved due to the possibility of simple dismantling with subsequent folding into a flat structure and its transportation in disassembled form, as well as the simple installation of the bed at the place of its operation.

According to the information available to the applicants, the set of essential features characterizing the essence of the claimed utility model is not known from the prior art, which allows us to conclude that it meets the criterion of “novelty”. The inventive utility model can be repeatedly implemented using known methods and means, and is applicable in medicine as a universal bed in resuscitation, surgical, therapeutic, neurosurgical and burn departments, as well as at home when caring for patients and elderly people, which allows us to conclude on its compliance with the criterion of “industrial applicability”. Thus, the claimed utility model meets all the conditions of its patentability.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a general view of the proposed multifunctional bed, side view, Fig. 2 is a general view of the bed, a top view, and Fig. 3 shows one of the possible positions of the patient bed, Fig. .4 - shows a cross section of the bed.

On the presented drawings are indicated: 1- bed base; 2 - the frame of the base is rectangular; 3 - bed; 4 - upper hinges; 5 - drive section control levers; 6 - vertical telescopic working devices (in the amount of four) with stability elements; 7 - head section; 8 - pelvic section; 9 - femoral section; 10 - ankle section containing the left 11 and right 12 parts; 13 - longitudinal tubular elements; 14 - tubular elements in the form of curved arcs, designed for rigid connection between each other from the bottom of two parallel longitudinal tubular elements 13 of the corresponding section; 15 - sections of the canvas on which bedding is laid; 16, 17 - sliding longitudinal tubular parts of the pelvic 8 sections, allowing you to change the distance between the hinges of the head 7 and femoral 9 sections with appropriate adjustment of the length of the pelvic 8 section depending on the growth and physique of the patient; 18 - elastic (for example, springs) or elastic elements for connecting the canvas with the frame of the bed 3; 19 is a device for tensioning the web; 20 - additional vertical telescopic working link; 21, 22 - articulated-lever multi-link, made, for example, four-link; 23 - telescopic controlled link; 24 - longitudinal connecting links connecting on top of the levers 5; 25 - control panels drive levers 5, allowing to include in the operation of the drive lifting and tilting sections in various combinations; 26 - side rails located on the right and left on the sides of the bed 3; 27 - couplings with connecting hinges; 28 - additional foot mechanical device (foot drive); 29 - electromechanical low-speed drive; 30 - transverse arcs of the L-shaped form; 31 - longitudinal arches of a U-shaped; 32 - elastic elements (for example, springs); 33 - limiters tension sections of the canvas; 34 - additional safety wheels; 35 - device sliding sections of the canvas 15.

The inventive functional bed "KINETRON" contains: base 1, which is made in the form of a rectangular frame 2 with a mechanism for moving the bed or its installation, for example, self-orientating wheels or legs (not shown in the drawing). On the base 1, a bed 3 of at least three movable sections is placed, with its own drive mechanisms [3], and with control levers 5 connected in parallel for the person who is lying on the bed, and the medical staff, who are placed in accessible places, and which are hand-operated . The ends of the vertical telescopic working devices 6 [4] of the drive mechanisms are pivotally connected to the control levers of 5 sections and to the base 1 with the possibility of a smooth or discrete change in the fixation point of the hinges. The bed may also have additional various known devices for holding and bedding necessary for the treatment and sanitary care and / or self-care of the patient (not shown).

In the proposed bed design, the bed 3 is made in the form of a closed spatial rigid frame. Bed 3 contains the head 7, pelvic 8, femoral 9 and ankle 10 sections, which are movable with at least two degrees of freedom, with the possibility of moving the sections in height and rotation around the horizontal axes and changing the profile of the bed and fixing it in longitudinal and transverse sections. The sections are made of hollow sealed tubular elements 13 connected in series with each other by means of hinges 4. The head 7 and femoral 9 sections are connected to the base of the bed by hinges 4 placed on the longitudinal tubular elements of the bed frame sections, and vertical telescopic working devices 6 with hydraulic or mechanically driven. The pelvic section 8 is equipped with an additional vertical telescopic or flexible working link 20 connected to the frame of the base 1 of the bed with fixing its length. At the same time, the head 7, pelvic 8 and femoral 9 sections of the bed frame contain at least one sectional frame consisting of two parallel longitudinal tubular elements 13 installed on the width of the bed 15 of the bed 3, and connected to each other from below using tubular elements in the form of curved arcs 14. The lower curved arches 14 of the frame sections of the bed 3 can be made in the form of interconnected transverse arches of the L-shaped form 30, the ends of which are rigidly connected to the longitudinal tubular elements 13 on the one hand and, on the other hand, by means of movable hinges are connected with the ends of the longitudinal arches of the U-shaped form 31, installed at an angle of 15-30 ° with respect to the transverse arcs 30. Moreover, in each section the longitudinal tubular elements 13 and the longitudinal arcs 31 are equipped with a web tension device 19, containing limiters 33 tension of the web sections and elastic elements 32, which are angularly connected with the ends of the arches of the L-shaped form 30. The ankle section 10 is made of two parts - the left 11 and right 12, mounted articulated on two parallel longitudinal tubular elements 13 of the femoral section 9 with the possibility of separate phase oscillations of the right and left parts. The longitudinal tubular elements of the pelvic 8 section are made telescopic from the sliding parts 16, 17 with the possibility of changing the length of the section. The head 7, pelvic 8 and femoral 9 sections have on top tightly stretched between the longitudinal tubular elements 13 by means of elastic or elastic elements 18 one or more sections of the web 15 provided with a device for its tension 19, and the web 15 of the ankle section 10 has the ability to sag. The frame of the base 1 of the bed is made of tubular elements on which vertical telescopic working devices 6 [4] are installed, with hydraulic (for example, hydraulic cylinders) or mechanical devices placed inside them, which serve to raise and lower the sections of the bed. Moreover, the vertical telescopic working devices 6 are interconnected in pairs in cross section by stability elements, and are connected between two parallel longitudinal tubular elements 13 of the sections and the bed base 1, while at least one pair is rigidly connected to the bed base 1 of them with the possibility of horizontal movement. Moreover, the segments of the longitudinal tubular elements 13 of the head 7 and femoral 9 sections, which are connected to the pelvic 8 section and are connected to the vertical telescopic working devices 6 by means of movable joints, have a length of not more than 0.4 of the total length of their sections. The drive mechanisms of the bed frame sections 3 (head 7 and pelvic 8 sections, as well as femoral 9 and ankle 10 sections) are made in the form of two articulated-lever multi-link systems 21, 22, for example, in the form of articulated-lever four-link [3], kinematically connected between themselves a telescopic controlled link 23 and connected to the base of 1 bed. The articulated-lever multi-link systems 21, 22 contain drive levers 5 for controlling sections mounted on both sides of the frame of the bed 3 and made hollow, airtight. The drive levers 5 are interconnected from above by means of upper hinges 4 and tubular longitudinal connecting upper links 24 with control panels 25 placed on both sides of them, which generally forms side rails 26 in a raised fixed position, which are simultaneously a manual drive for changing the profile box. Side rails 26 perform the following functions: handrails; manual drive propulsion when changing the profile of the bed (tilt, rise-lowering in height and when the sections are rotated relative to the horizontal axis); for training various muscle groups of the patient during physical exertion and for the prevention and treatment of pressure sores and various complications, and also help the patient to perform various physical exercises during his rehabilitation period. Bottom drive control levers 5 are connected to the longitudinal tubular elements 13 of the sections through couplings 27 located in hinges at the junction of the sections, as well as the connection of the parts of the longitudinal tubular elements 13 with vertical telescopic working devices 6. Control panels 25 and couplings 27 are interconnected by communication elements located inside the hollow drive levers 5 and tubular longitudinal connecting upper links 24. Moreover, the vertical telescopic working devices 6 with a fixed height of the pelvis th section 8 further vertical telescopic working link 20 are redundant elements manual actuator for lifting and turning the sections about horizontal axes. The drive mechanisms of the sections of the bed frame 3 are equipped with an additional mechanical device 28, which is a foot drive made in the form of a pedal and / or lever, connected by rods with vertical telescopic working devices located in the hollow elements of the bed base frame.

In addition, in some cases, the implementation of the proposed bed, the drive mechanisms of the frame sections of the bed 3 can be equipped with the well-known electromechanical low-speed drive 29 [3] (for example, a gear motor), and an automatic control system for specified programs, including remote. All structural elements of the base 1 of the bed can be made planar and collapsible with the possibility of its transformation into a wheelchair. The lower parts of the vertical telescopic working devices 6 can be located below the level of the frame 2 of the base 1 and are equipped with additional safety wheels 34 with a diameter smaller than that of the running wheels of the bed. The pelvic section 8 can be equipped with a sliding device 35 sections of the canvas 15 and lowering the sliding parts 16, 17 of the pelvic section with the possibility of their fixation with the vessel when caring for the patient.

The developed multifunctional KINETRON bed allows both manual and automatic operation: raising and lowering the bed as a whole, as well as its sections; tilt of the bed and each section individually, including cyclically all sections simultaneously or separately; changing the angle of inclination of the sections in the horizontal plane; oscillatory movements of the bed as a whole around the longitudinal axis (from side to side); pushing the sections of the canvas of the pelvic 8 sections. Therefore, the proposed bed can be used both in the treatment and in the care of sick, disabled and debilitated patients, as well as for their healing and motor rehabilitation (for example, training the muscular system in order to restore motor functions).

The bed is operated as follows. When using the bed, it is installed in the right place by transfer or movement. The bed structure is controlled by the control levers 5 and / or remotes 25 by the patient on the bed or by staff or an automatic control system. Pre-check and adjust the tension of the sections of the canvas 15 using the tension device 19. Bed 3 beds are set in a horizontal position at the required height. The length of the pelvic section 8 is also adjusted depending on the growth and constitution of the patient by expanding the longitudinal tubular parts 16 and 17 of the section. Using one of the remotes 25 set the control levers 5 to the neutral position. At the same time, in the couplings 27, their coupling with the vertical telescopic working devices 6 and the longitudinal tubular elements 13 is turned off. When moving the longitudinal connecting links 24 with the levers 5 of the guard 26, along the axis of the bed towards the femoral section 9, the guard 26 is moved to a horizontal position in the plane of the bed 3. Then the patient patient is put on the bed 3 beds (with a mattress and bedding previously laid on it). After that, the fence 26 is lifted up to its vertical position with its subsequent fixation with longitudinal tubular elements 13. Then, the profile of the bed 3 is changed by correspondingly tilting its sections depending on the desired program. In the proposed design of the bed, the geometry of the bed 3 of the bed is changed by a manual drive 26 or by means of an electromechanical drive 29 by the panels 25 using its drive mechanisms, i.e. articulated-lever multi-link systems 21, 22. Raising and lowering the bed 3 in a horizontal or inclined position is done by the remote control 25 manually with the oscillating movement of the foot drive 28. In this case, either simultaneous or pairwise movement of the rods of vertical telescopic working devices 6. The position of the sections of the bed 3 is achieved by moving the longitudinal connecting links 24 with the levers 5 of the fence 26 in opposite horizontal directions and can be performed by: controlling the articulated-lever multi-link system 21 remote control 25, located on the left guard 26, or control system 22, remote control 25, located on the right guard 26. This allows you to independently change the angle of inclination of the head and femoral sections both synchronously and in antiphase. In this case, when the tilt angle of the head 7 and femoral 9 sections in antiphase changes, the position of the pelvic section 8 is proportional to them: the angle of inclination relative to the longitudinal axis of the bed and lowering in height. It is also possible to lift the bed 3 by means of an electromechanical drive 29. To raise the head section 7 by moving the longitudinal connecting links 24 with the levers 5 of the guard 26 in the longitudinal direction towards the femoral section 9, the articulated-lever multi-link system 22 is blocked by its couplings 27. Then, with a telescopic the controlled link 23 detaches the articulated-lever multi-link system 21 and it is driven by the remote control 25. Moreover, in the couplings 27 there is a rigid coupling of its levers 5 with horizontal tr with the band elements 13 of the head section 7 and disengaging from engagement with the vertical telescopic working devices 6. After that, the head section 7 is manually set in a predetermined position, and, if necessary, is fixed or driven in oscillatory motion, and the femoral 9 and ankle sections 10 remain stationary . The pelvic section 8 due to the presence of the device 35 sliding sections of the canvas 15, located under it, has the ability to conveniently carry out sanitary care of the patient on the bed without moving it. With opposite movements of the longitudinal connecting links 24 with levers 5 of the right and left fences 26 in the longitudinal direction, the head 7 and femoral 9 sections are turned in the opposite direction, including at maximum angles. At the same time, the distance between the couplings 27 of the pelvic section automatically increases and its longitudinal tubular parts 16, 17 are moved apart, thereby expanding the sections of the canvas 15, forming a window for supplying the vessel. The rise of the femoral section 9 is performed similarly to the rise of the head 7 section. Simultaneous or sequential movement of the femoral 9 and head 7 sections can be performed by reducing the length of the telescopic controlled link 23 with its subsequent fixation. The distance between the upper hinges 4 of the side rails 26 of the systems 21 and 22 is reduced. After that, in clutches 27 all clutches are turned off, which leads to the fact that the whole system comes into a balanced state due to the proportional distribution of the action of the mass of the patient’s body parts to each section. In this case, the head 7 section is held in a raised position due to tensile forces in the link 23, which arose due to the action of the mass of the patient’s body parts located on the femoral 9 section. And, when additional effort arises from the abdominal or dorsal muscle groups or muscles of the limbs of the patient, a decrease in the angle of inclination of the head section 7 with a corresponding increase in the angle of inclination of the femoral 9 section and vice versa (the position of the “vanka-vstanka”, i.e. the implementation of cyclic multidirectional displacements of the head 7 and femoral 9 sections). Simultaneous or sequential movement of the femoral 9 and head 7 sections, as well as their rotation around the horizontal axes, can also be done by preliminary fixing the height of the pelvic 8 section with an additional vertical telescopic working link 20 and then turning on the pairs of vertical telescopic working devices 6. Turn on the lift or the oscillations of the left 11 and right 12 parts of the ankle 10 section, including a separate phase, is carried out using the remote control 25. In this case, the inclusion of couplings 27 and the engagement of the levers 5 with the longitudinal tubular elements 13 of the selected parts: 11 and / or 12, and disconnecting from the longitudinal tubular elements 13 of the femoral section 9. Active training of the muscular system in order to restore motor functions is performed using the patient’s own efforts by periodic changes the position of the limbs and torso when changing the position of the bed 3 and its sections. Passive training is carried out according to predetermined programs using an electromechanical low-speed drive 29 in automatic mode. The inclusion of the system in the work can be done by the patient himself, and the medical staff, and the automatic control system. Moreover, all types of movements of all sections of the bed 3 in various combinations can be performed using control panels 25 from one electromechanical low-speed drive 29, associated with all drive mechanisms. Thus, the claimed design of the multifunctional KINETRON bed when used allows you to create particularly comfortable conditions for treatment, including the prevention of complications (prevention and treatment of pressure sores, burns and pulmonary complications, cerebral edema), and caring for patients, disabled people and elderly patients, and also to restore their performance after illness and injury when they are on the bed, which generally increases the efficiency of its use in various fields of treatment and recovery of people.

According to this utility model, a prototype bed was made, the weight of which does not exceed 50 kg, which passed tests that confirmed its operability and obtain the expected technical result and positive effect.

The proposed multifunctional bed “KINETRON” can be used as beds used for resuscitation patients, immobilized, chronically ill and elderly people and as a simulator for debilitated patients, people with disabilities, as well as healthy people used in various medical institutions, in the Ministry of Emergency Situations (conditions military medicine and disaster medicine), as well as at home.

Information sources.

1. Patent RU No. 2221534 C2, A61G 7/02, decl. 2002.07.29, publ. 2004.01.20.

2. Patent RU No. 2293547 C2, A61G 7/015, decl. 2005.03.21, publ. 2007.02.20 (prototype).

3. I.I. Artobolevsky. Mechanisms in modern technology. Volume 1. Elements of mechanisms, simple lever and articulated lever mechanisms. M., "Science", Main editorship of the phys. literature 1979, p. 295, No. 580.

4. I.I. Artobolevsky. Mechanisms in modern technology. Volume 1. Elements of mechanisms, simple lever and articulated lever mechanisms. M., "Science", Main editorship of the phys. literature 1979, p.231, No. 463.

Claims (8)

1. The bed is multifunctional, containing a base in the form of a rectangular frame with a mechanism for moving the bed or its installation, and placed on the base of the bed of at least three movable sections connected in series with each other using hinges, with its own drive mechanisms, with levers connected in parallel controls for the person who lies on the bed, and medical personnel, placed in accessible places, and which are manual drive, and the ends of the vertical telescopic working devices are driven x mechanisms are pivotally connected to the control levers of the sections and to the base with the possibility of smooth or discrete change of the fixation point of the hinges, and additional devices for holding and servicing and / or self-care of the patient, characterized in that the bed is made in the form of a closed spatial rigid frame containing the head, the pelvic, femoral and ankle sections made of hollow sealed tubular elements connected in series with each other, with the possibility of moving the sections in height and turning around horizontal axes and changing the profile of the bed and its fixation in longitudinal and transverse sections, with all sections movable with at least two degrees of freedom, the head and femoral sections are connected to the bed base using hinges placed on the longitudinal tubular elements of the bed frame sections, and vertical telescopic working devices with a hydraulic or mechanical drive, and the pelvic section is equipped with an additional vertical telescopic or flexible working link connected frame of the bed base, while the head, pelvic and femoral sections of the bed frame contain at least one sectional frame, consisting of two parallel longitudinal tubular elements installed on the width of the bed sheet, and interconnected from below using tubular elements in the form of curved arches, ankle the section is made of two parts - the left and right, pivotally mounted on two parallel longitudinal tubular elements of the femoral section with the possibility of separate phase oscillations of the right and left parts, and The lamellar tubular elements of the pelvic section are made telescopic from the sliding parts with the possibility of changing the length of the section, the head, pelvic and femoral sections having one or more sections of the web equipped with a device for tensioning it stretched between longitudinal tubular elements with elastic or elastic elements, and the web the ankle section has the ability to sag, the frame of the bed base is made of tubular elements on which vertical telescopic working devices are installed The properties are interconnected in pairs in cross section by stability elements having a connection between two parallel longitudinal tubular elements of the sections and the bed base, while at least one pair is rigidly connected to the bed base from them with the ability to move horizontally, and pieces of longitudinal tubular elements head and femoral sections, which are connected with the pelvic section and connected to vertical telescopic working devices using movable joints, have a length of not more than 0.4 common the length of their sections, the drive mechanisms of the sections of the bed frame are made in the form of two articulated-lever multi-link systems kinematically connected to each other by a telescopic controlled link, and connected to the bed base, which contain the drive section control levers mounted on both sides of the bed frame hollow, tight, which are interconnected from above with the help of upper hinges and tubular longitudinal connecting upper links with control panels placed on them on both sides, h о as a whole, forms in a raised fixed position side rails that are simultaneously a manual drive for changing the bed profile, and from below the drive control levers are connected to the longitudinal tubular elements of the sections through couplings located in hinges at the junction of the sections, as well as the connection of parts of the longitudinal tubular elements with vertical telescopic working devices, and the control panels and couplings are interconnected using communication elements located inside the drive levers and ribbed longitudinal connecting upper links, and vertical telescopic working devices with a fixed height of the pelvic section, additional vertical telescopic working link are duplicate elements of the manual drive for lifting and turning sections around horizontal axes, the drive mechanisms of the bed frame sections are equipped with an additional mechanical device, which is a foot drive made in the form of a pedal and / or lever connected by rods to vertical telescopic working devices twigs located in the hollow elements of the bed base frame. 2. The multifunctional bed according to claim 1, characterized in that the drive mechanisms of the head and pelvic sections, as well as the femoral and ankle sections, are made in the form of two articulated four-link arms. 3. The multifunctional bed according to claim 1, characterized in that the drive mechanisms of the sections of the bed frame are equipped with an electromechanical low-speed drive. 4. The multifunctional bed according to claim 1, characterized in that the drives are equipped with an automatic control system for specified programs, including remote. 5. The multifunctional bed according to claim 1, characterized in that the lower curved arches of the sections of the bed frame are made in the form of interconnected transverse arches of an L-shaped shape, the ends of which are rigidly connected to the longitudinal tubular elements on one side, and on the other hand using movable hinges connected with the ends of the longitudinal arches of a U-shaped, mounted at an angle of 15-30 ° with respect to the transverse arches, while in each section the longitudinal tubular elements and longitudinal arcs are equipped with a web tension device containing ogre nichiteli web tension sections and elastic members that are connected at the corners of the ends of arcs T-shaped. 6. The multifunctional bed according to claim 1, characterized in that all the structural elements of the bed base are made planar and collapsible with the possibility of its transformation into a wheelchair. 7. The multifunctional bed according to claim 1, characterized in that the lower parts of the vertical telescopic working devices are located below the level of the base frame and are equipped with additional safety wheels with a diameter smaller than that of the running wheels of the bed. 8. The multifunctional bed according to claim 1, characterized in that the pelvic section is equipped with a device for extending the sections of the canvas and lowering the sliding parts of the pelvic section with the possibility of their fixation with the vessel when caring for the patient.