JP4315736B2 - Carrying bed - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a carrying bed for isolating and transporting an infectious disease patient such as Severe Acute Respiratory Syndrome, called New Pneumonia (SARS), and a patient suspected of having an infectious disease.
[0002]
[Prior art]
In recent years, globalization has progressed in all fields, and the number of overseas visitors and foreign visitors has increased rapidly. For this reason, there are concerns about large-scale infections of various infectious diseases due to an increase in the number of people who are suspected of illnesses and the increase in the number of people entering and leaving the country, and domestic climate change due to global warming. Therefore, in general, there has been proposed a patient transport device that isolates these patients and transports them to a medical institution or the like when an onset patient or a patient suspected of having an infection is discovered.
[0003]
That is, conventional patient transport devices are provided with ventilating means for forming a capsule-like sealed space by providing a semi-cylindrical hard vinyl on a portable bed, and for maintaining a negative pressure in the sealed space. A patient conveyance device is known (for example, refer to Patent Literature 1). That is, in this patient transport device, the patient is isolated from the sealed space by exhausting the sealed space by a ventilation means having a filtering member, capturing pathogenic bacteria of the infectious disease by the filtering member, and making negative pressure in the sealed space. I have to. Therefore, by examining and transporting the patient in a sealed space maintained at a negative pressure, the patient can be prevented from spreading outside, ensuring the safety of the therapist and other convenience. And to improve versatility.
[0004]
[Patent Document 1]
JP 2002-17784 A
[0005]
[Problems to be solved by the invention]
However, the above-described patient conveyance device has a problem that a large storage space is required when not in use. In other words, the patient transport device is configured to maintain its shape against the negative pressure inside due to the rigid strength of the hard vinyl itself. For this reason, since the shape of the magnitude | size which can accommodate a human body is maintained inside even when it is not in use, in order to store many patient conveyance apparatuses, there exists a problem that a large space space is required.
[0006]
On the other hand, in the patient transport device, as a result of securing rigid strength for pressure resistance by forming hard vinyl with a predetermined thickness or additionally providing a metal member that reinforces strength, the weight increases. For this reason, the handleability of a single patient transport device is reduced, and if the patient's weight is added to this, the transport workability by human power is also reduced.
[0007]
Accordingly, an object of the present invention is to provide a carrying bed that solves the conventional problems as described above, can save space in the storage area, and can be handled easily and lightly.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention of claim 1 includes a bed part capable of transporting the patient while lying on the side, an isolation part installed on the bed part and accommodating the patient in a predetermined three-dimensional space, A carrying bed for ventilating the interior of the space and maintaining a predetermined pressure difference, and isolating and transporting a patient, wherein the isolating portion is a transparent or translucent thin and airtight and flexible Lightweight sheet-like member This sheet-like member is expanded by air pressure, The three-dimensional shape is formed in a predetermined hollow, substantially rectangular shape having an internal volume sufficient to accommodate an adult male, and the other surface facing the upper surface from the lower surface of the one surface facing each other in the longitudinal direction. The open / close member installed until the end of the door can be divided and opened along the longitudinal direction. Almost rectangular The holding member has at least airtightness and flexibility. Composed of sheet-like members, Standing at the four corners in the isolation part in plan view, The inside is formed in the air passage and by air pressure Plural shapes that expand into a pillar shape First Expansion part When ,these First Of the inflatable part, facing in the longitudinal direction One Upper end of inflatable part And an upper end of the other inflating part, and the inside is formed in an air passage communicating with the air passage of the first inflating part, and is composed of a second inflating part that is inflated into a long shape by air pressure, By this second inflating part, First The upper side of the isolation part interposed between the upper ends of the expansion parts Sheet-like member It is characterized by supporting.
[0009]
Claim 2 The invention according to claim 1 is characterized in that the isolation part has a second holding member that is detachable from the bed part and surrounds and holds the periphery of the isolation part.
[0010]
Claim 3 The invention of claim 1 Or 2 The ventilation unit has a filter to purify the air to be ventilated, and has a built-in secondary power supply to enable independent operation, and reverses the air supply direction of the ventilation unit to negative pressure in the space. It is possible to switch to a state or a positive pressure state.
[0011]
Claim 4 The invention of claim 1 to claim 1 3 In any of the above, the ventilation unit is connected to the isolation part via a flexible hose as an air passage, and at least the location of the ventilation unit with respect to the bed part can be changed.
[0012]
Claim 5 The invention of claim 1 to claim 1 4 In any one of the above, the holding member has pressure supply means for supplying the air pressure.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described with reference to the accompanying drawings. FIG. 1 shows a carrying bed, (A) is a plan view, (B) is a front view, FIG. 2 shows an isolated portion of the carrying bed, (A) is a left side view, and (B) is a right side. FIG. 3 is a perspective view of the carrying bed.
[0017]
As shown in FIGS. 1 to 3, the carrying bed 1 includes a bed portion 2 that can be transported while lying on the patient, and a separating portion that accommodates the patient lying on the bed portion 2 in a predetermined three-dimensional space. 3 and a ventilation unit 4 that ventilates the space through a filter 4a that cleans air and maintains a predetermined pressure difference.
[0018]
The carrying bed 1 is placed on a carriage 5, and the carriage 5 improves convenience. That is, this carriage 5 has a horizontal frame-like pedestal frame 5A on which the carrying bed 1 is placed, and a support frame 5B with wheels 5b attached to the lower end, and the upper end of the support frame 5B is supported by the pedestal frame 5A. It is connected via a shaft and is configured to occupy two positions in a tilting manner. Therefore, the cart 5 has the carrying bed 1 secured at a position higher than the floor surface of the transport vehicle (not shown) and lifted to a height that facilitates various operations such as transport and treatment, as shown in FIG. It can be folded in a low position. In addition to this, when the carriage 5 on which the carrying bed 1 is placed is advanced to the hangar of the transport vehicle in the unfolded state, the support frame 5B of the carriage 5 comes into contact with a portion below the floor surface of the transport vehicle. The carriage 5 is moved up to a folded state, and in this state, the wheel 5a of the pedestal frame 5A in contact with the floor surface of the carrier vehicle and the wheels of the support frame 5B are used to form a predetermined inside of the carrier vehicle. It can be moved to the storage position. For this reason, the carrying operation of the carrying bed 1 in the transport vehicle can be performed quickly and easily.
[0019]
As shown in FIGS. 1 to 3 again, the bed 2 has a length and width that can be placed in a state where an adult male is lying on the side, and has a rectangular bed main body 2A and a lower portion of the bed main body 2A. A frame member 2B formed of a pipe-like member in a substantially rectangular shape supporting the periphery of the side, and a wheel is provided at a predetermined position on the lower side of the frame member 2B. At the center, there is provided a handle portion 2b of a type that rotates around an elongated rectangular frame member 2B protruding upward. That is, the handle portion 2b prevents the patient from dropping, and when the lower knob (not shown) is operated, the handle can be tilted downward from the illustrated posture. For this reason, when putting a patient on the bed part 2, the handle part 2b is made not to become an obstacle.
[0020]
The isolation portion 3 is a hollow, generally rectangular shape having an internal volume that can accommodate an adult male using a thin and light sheet-like member such as vinyl of a transparent or translucent material having airtightness and flexibility. Is formed. In addition, the isolation unit 3 is subjected to antistatic treatment so that it is not affected or given electrostatic influences from surrounding medical equipment. Further, each corner portion of the isolation portion 3 is rounded, and when the isolation portion 3 itself is moved, the chance of damage to each corner portion is reduced, and the internal and external pressure difference of the separation 1 separation portion 3 is applied to the corner portion. Prevents concentrated damage.
[0021]
The holding member 6 has four inflating portions 6A to 6D installed at four corners in the separating portion 3 in plan view, and these inflating portions 6A to 6D have an outer shape standing up and down, that is, The interior space is provided in a prismatic shape. That is, each of the inflating portions 6A to 6D is formed by partitioning a predetermined rectangular sheet-like member to the inner wall surface of the separating portion 3 by an adhesive or welding to form a prismatic space at each corner of the separating portion 3. is doing. Like the isolation part 3, the expansion parts 6A to 6D use thin and light sheet-like members such as vinyl of a transparent or translucent material having airtightness and flexibility, and are thicker than the isolation part 3. The strength which can resist the internal pressure of the air with which it is filled is ensured, such as thick.
[0022]
Moreover, in these expansion | swelling parts 6A-6D, the upper ends of expansion | swelling part 6A-6D which opposes a longitudinal direction among these expansion | swelling parts 6A-6D are transparent or semi-transparent with at least airtightness and flexibility. Air passages are secured and connected by second inflating portions 7A and 7B that expand into a long shape using a thin and light sheet-like member such as vinyl. That is, the second expansion portions 7A and 7B are formed so as to expand in a square tube shape, and the internal space is connected from the upper end of one expansion portion 6A and 6B to the upper end of the other expansion portion 6C and 6D. It becomes an air passage.
[0023]
In the place of the isolation part 3 corresponding to the lower side of the expansion parts 6A and 6B shown in FIG. 2B, there are plug-in fitting air injection connectors 8A and 8B reaching the internal spaces of the expansion parts 6A and 6B. , Each projecting outward. Accordingly, each of the connectors 8A and 8B is provided with a tip of an air supply tube from an air pressure supply means (not shown) such as an air pump capable of supplying air of a predetermined pressure, or from a single pressure supply means (not shown). The tip of the branched air supply tube can be attached and detached with a single touch while preventing air leakage. On the other hand, in the inflating portions 6C and 6D connected by the second inflating portions 7A and 7B shown in FIG. 2A, the inflating portion 6C is located at the position of the separating portion 3 corresponding to the lower side of the inflating portions 6C and 6D. , 6D are provided with valves 9C, 9D that can finely adjust the amount of air discharged from 6D.
[0024]
Therefore, when putting the isolated part 3 in the storage state into a use state, the tubes of the pressure feeding means are connected to the connectors 8A and 8B, and then the pressure feeding means is operated. Then, air of a predetermined pressure is supplied from the pressure feeding means into the inflating portions 6A and 6B via the tubes and the connectors 8A and 8B. The inflatable portions 6A and 6B and the inflatable portions 6C and 6D connected to the inflatable portions 6A and 6B by the second inflatable portions 7A and 7B are inflated in a columnar shape by the air pressure. For this reason, these expansion | swelling parts 6A-6D will be in the state standing up from the bed part 2, and can form and hold the isolation | separation part 3 in a substantially rectangular shape. Moreover, the upper side of the isolation | separation part 3 interposed between the upper ends of each expansion | swelling part 6A-6D can be supported by the pipe member which connected the upper end of each expansion | swelling part 6A-6D, ie, the rectangular-shaped isolation | separation part 3 It is possible to support the long side on the upper side of and to help maintain the shape of the isolation part 3. That is, the inflated portion is formed in a substantially rectangular shape by filling and inflating the internal space formed by the inflating portions 6A to 6D and the second inflating portions 7A and 7B with air of a predetermined air pressure. The side surface parallel to the longitudinal direction of the separating portion 3 is supported and held in a substantially U-shaped frame shape opened downward. Also, if air is injected into one of the expansion parts 6A to 6D among the expansion parts 6A to 6D connected by the second expansion parts 7A and 7B, the other two expansion parts 6C and 6D and the second expansion parts 7A and 7B. Therefore, the connectors 8A and 8B, which are two air inlets, are sufficient, the number of inlets is reduced, the structure can be simplified, the number of operations for connecting the connectors can be reduced, and the usability can be improved.
[0025]
The pressure feeding means is small and light and has a built-in secondary power supply and can operate independently. Air is constantly supplied so that the air pressure of the holding member 6 can be stably maintained at a constant level. That is, when the air is injected and expanded, and after the expansion, the inflow air amount supplied from the pressure feeding means to the expansion portions 6A and 6B is controlled by the valves 9C and 9D from the expansion portions 6C and 6D. By finely adjusting the air discharge amount, the air pressure in each of the inflating portions 6A to 6D and the second inflating portions 7A and 7B as the holding member 6 is adjusted, and these inflating portions 6A to 6D, 7A and 7B are adjusted. The shape of the isolation part 3 is maintained without applying extra stress. On the other hand, the shape of the isolation part 3 can be arbitrarily deformed by adjusting the air pressure in the expansion parts 6A to 6D, 7A, 7B by the valves 9C, 9D. That is, for example, by lowering the air pressure in the holding member 6, as shown in FIG. 5, the separating portion 3 can be made into a substantially rectangular shape with at least a reduced height. For this reason, the inspection sensor unit 10 such as an X-ray imaging camera is brought close to the inspection site of the patient via the isolation unit 3 without releasing the isolation state by the carrying bed 1 at the time of an X-ray imaging test. Can be located. On the other hand, cardiac massage of the patient and whole body massage by a large number of therapists can be performed without squeezing the isolation part 3 and releasing the isolation state. This makes these treatment tasks for the patient simple and easy.
[0026]
As shown in FIGS. 1 to 3 again, the isolation part 3 is a fastener as an opening / closing member that is installed from the lower part of one face facing the longitudinal direction to the other face facing the upper face through the upper face. It has the member 11, this fastener member 11 is opened, and the isolation | separation part 3 can be divided open / closed along a longitudinal direction. That is, the fastener member 11 starts from a position where the side surface of the side surface of the separating portion 3 contacts the bed portion 2, and the other side surface of the other side surface is the bed portion 2 via the side surface, the upper surface, and the other side surface. It is provided on a continuous line with the point of contact as the end point. The fastener member 11 is provided in parallel with the longitudinal direction at a location close to one long side on the upper surface of the isolation portion 3 in plan view, and the side surfaces facing each other in the longitudinal direction are directed to the other long side. Is provided up to a position where the side surface is in contact with the bed portion 2. Therefore, by opening the fastener member 11, the open state can be divided along the longitudinal direction, so that the bed portion 2 is largely released, and the operation of moving the patient on the bed portion 2 from lying down or from the bed portion 2 is performed. Easy and quick.
[0027]
In addition, three Ude frame members 17, 17, 17 are provided at equal intervals in a horizontal arrangement on the side surface of the isolation part 3, and an outside therapist uses an appropriate Ude frame member 17 from among them. The arm portion is inserted into the isolation portion 3 so that a therapeutic action or the like can be performed. In other words, a circular opening (not shown) is formed at a location where the Ude frame member of the isolation part 3 is arranged, and this opening is a circular lid shape in which a radial cut is formed from the center using a soft plastic material. A first Ude frame member (not shown) is fixed, and a circular lid-like second Ude frame member 17B in which a radial cut is formed from the center of the same pattern is rotatably fitted to the first Ude frame member. Has been. Therefore, when the second udder frame member 17B is rotated with respect to the first udder frame member and the cuts of the two are not matched, an isolated state equal to or less than a predetermined suction amount is maintained. On the other hand, when the second Ude frame member 17B is rotated and the cuts of both are made coincident, deformation along the cuts of the first and second Ude frame portions 17B becomes possible. The hand / arm portion that has been subjected to anti-infectious protection measures is inserted into the isolation portion 3 through the first and second Ude frame members 17B, so that the patient can be treated.
[0028]
The ventilation unit 4 is reduced in size and weight, and is configured to be able to perform a ventilation operation for a certain time independently without depending on an external power source. That is, in a case made of a light alloy such as aluminum and formed in a substantially long box shape, a HEPA filter 4a that is a high-performance filter capable of capturing pathogenic bacteria, a ventilation fan 4b that is rotationally driven by a motor (not shown), A secondary power supply 4c for supplying power to the ventilation fan motor and an electric circuit (not shown) for controlling the operation of the secondary power supply 4c and the motor are housed. An operation panel 4d electrically connected to an electric circuit is provided on the front side of the case, and an operation lamp indicating an operation state as the ventilation unit 4 and an operation switch for switching the operation of the motor are arranged. . In other words, an air flow path is formed in the case from the air vent opening in the front of the case to the connection port for the flexible hose 18 on the side surface, and the air vent side on the path of the air flow path is formed. Are provided with a ventilation fan 4b and a HEPA filter 4a on the connection port side.
[0029]
The HEPA filter 4a has a filter performance that can capture fine dust having a particle size of 0.3 μm or more contained in the air passing through the HEPA filter 4a with a dust collection rate of 99.99% or more. Therefore, the air taken into the ventilation unit 4 for ventilation is filtered by the HEPA filter 4a, and fine dust and infectious bacteria are removed and cleaned.
[0030]
The secondary power supply 4c has a predetermined storage capacity, and, for example, operates the ventilation unit 4 sufficiently for a predetermined continuous time required for, for example, 6 hours of transportation so that the isolated space can be exhausted or supplied with air. Yes. Moreover, since the secondary power supply 4c uses a replaceable battery or the like, it is possible to operate for a longer time by preparing a spare battery in advance.
[0031]
Therefore, according to the ventilation unit 4 configured as described above, the rotation direction of the ventilation fan 4b can be changed in the forward / reverse rotation direction by operating a predetermined switch of the operation panel 4d. The ventilation unit 4 is either exhausted or supplied to the isolation space in the isolation unit 3. For this reason, the isolation unit can be selected by changing to an arbitrary negative pressure or positive pressure state by the ventilation unit 4. In other words, the patient who owns or suspected of possessing a pathogen such as an infectious disease is housed in an isolation space, and this isolation space is made negative pressure to prevent the spread of the pathogen to the outside. The HEPA filter 4a can remove pathogens contained in the patient's breath and the like from the air exhausted from the isolation space, thereby blocking the infection route mediated by the air from the patient. On the other hand, when transporting patients with blood diseases such as leukemia, that is, patients with weakened immunity and vulnerable to infection, this patient is accommodated in an isolation space and the isolation space is made positive pressure to allow external pathogens. Intrusion pathogens can be prevented, and pathogens can be removed from the air supplied to the isolation space by the HEPA filter 4a, thereby blocking the air-borne infection route to the patient. As a result, it can be used for two purposes, and the multifunctionality as a medical substrate can be secured.
[0032]
The ventilation unit 4 is connected to the isolation space of the isolation part 3 via a flexible hose 18 as an air passage, so that the installation location of the ventilation unit 4 with respect to the bed part 2 can be changed. That is, on the back side of the ventilation unit 4, a mounting bracket (not shown) that can be attached to and detached from the frame member 2 </ b> B of the bed portion 2 is provided, and with this mounting bracket, while maintaining a vertical posture with respect to the bed portion 2, The ventilation unit 4 can be attached to an arbitrary portion of the frame member 2B. Therefore, as long as it is within the reach range defined by the length of the flexible hose 18, the attachment location of the ventilation unit 4 can be changed at any location of the frame member 2B of the bed portion 2. For example, the installation location of the ventilation unit 4 can be changed from the side portion having the long side to the side portion having the short side in the plan view of the illustrated bed portion 2. Therefore, in this case, since the lateral width of the carrying bed 1 is reduced by the ventilation unit 4, the carrying bed 1 can be passed through a narrow passage. On the other hand, the weight balance in the width direction of the carrying bed 1 can be improved, and it is possible to stably transport an elderly person or an elderly person with a light weight.
[0033]
In addition, if there is a place where the ventilation unit 4 can be placed in the place where the carrying bed 1 is placed, the ventilation unit 4 may be removed from the bed portion 2 and placed in another place. Therefore, in this case, since the ventilation unit 4 is separated from the bed part 2 and the flexible flexible hose 18 is interposed, the operating sound and slight vibration of the ventilation unit 4 are transmitted to the patient on the bed part 2. Therefore, the patient's psychological care can be sufficiently achieved. Further, since the ventilation unit 4 can be removed and stored in another place when the carrying bed 1 is unused and unnecessary, the performance as an electric device can be maintained. On the other hand, the ventilation unit 4 can be repaired. If necessary, it can be removed and replaced with another ventilation unit 4 as well, so that maintainability can be improved and the carrying bed 1 can be dealt with sufficiently.
[0034]
Note that 20A to 20C are ventilation holes provided at predetermined positions of the isolation part 2, two of which are used for air supply and exhaust, and the other one is an emergency hole. It is possible to select arbitrarily. That is, one end of the flexible hose 18 of the ventilation unit 4 is connected to the hole 20A selected for one ventilation, and the flow rate of air to be ventilated is adjusted to the hole 20B selected for the other ventilation. A sheet-like flow rate adjusting member 20a is detachably provided. The flow rate adjusting member 20a is provided with a plurality of holes having a predetermined diameter in which the total opening area is set according to the ventilation capacity of the ventilation unit 4, that is, the supply or exhaust air volume. Alternatively, the hole 20B is configured as the other inlet or outlet for the ventilation unit 4 while maintaining a positive pressure state. Therefore, since the two holes 20A and 20B that are separated from each other in the longitudinal direction with respect to the separating portion 3 are selected as the air supply / exhaust air holes, the inside of the separating portion 3 is moved in the longitudinal direction. An air flow flowing from one end to the other end is formed, and the entire area in the isolation part 3 can be efficiently ventilated.
[0035]
Further, the hole 20C selected for emergency ventilation is releasably sealed with a sealing member 20b using an easily peelable adhesive sheet, Magic Fastener (registered trademark), or the like. For this reason, in a normal case, the sealing member 20b is attached to the opening peripheral edge of the hole 20C in a band shape, and stably seals the hole 20C. When ventilation becomes necessary, the sealing member 20a is peeled off so that the opening can be opened as the emergency ventilation hole 20C.
[0036]
Next, a procedure for using the carrying bed 1 of the first embodiment will be described. That is, when the carrying bed 1 is put into use, the folded isolation part 3 is placed on the bed part 2 and unfolded. Next, expansion air is supplied from the pressure feeding means to the separating portion 3 to form a three-dimensional shape. Moreover, when the ventilation unit 4 is attached to an appropriate place and the flexible hose 18 is connected in a predetermined manner and the setting is completed, the carrying bed 1 is used.
[0037]
And when isolating a patient with this carrying bed 1, the fastener member 11 of the isolation part 3 is opened, a patient is accommodated in the isolation part 3, and the fastener member 11 is closed. And the ventilation unit 4 is operated and the inside of the isolation | separation part 3 is made into a predetermined negative pressure or positive pressure state.
[0038]
On the other hand, when the carrying bed 1 is put in a storage state, first, the connection of the flexible hose 18 is released, then the connection of the air tube of the pressure feeding means is released, and the inflating portions 6A to 6D and the second inflating portions 7A and 7B. Remove air from the air. When the air is completely removed from these members 6A to 6D, 7A, 7B, the separating portion 3 becomes a flat oblong shape in which sheet-like members are overlapped, and further folded from the oblong shape, The area can be about 1/6 of a rectangular shape. Furthermore, if the ventilation unit 4 is removed, only the bed part 2 alone is left, and the other folded isolation part 3 and ventilation unit 4 can be stored in a different place from the bed part 2. Therefore, the folded isolator 3 and the ventilation unit 4 are mounted in another storage location of the transport vehicle while using the configuration including the bed portion 2 and the cart 5 for a normal patient transport application in a transport vehicle such as an ambulance. be able to. For this reason, a patient-specific transport vehicle that requires isolation can be eliminated, and a general transport vehicle can be used for a patient that requires isolation.
[0039]
As described above, according to the first embodiment, the isolation portion 3 that forms the isolation space on the bed portion 2 is formed by using a lightweight and thin sheet-like member made of an airtight and flexible material, and this isolation The inflating parts 6A to 6D and the second inflating parts 7A and 7B as the holding members 6 that hold the part 3 in a three-dimensional shape for forming an isolation space are made light and thin by using materials having airtightness and flexibility. Since the sheet-like member is used to inflate the structure into a column shape by air pressure, it is configured as a member responsible for the structural strength. Therefore, at least the isolation part 3 and the holding member 6 are thin and light, and the carrying bed 1 as a whole is formed. The weight can be reduced and the carrying bed 1 can be handled easily and lightly. On the other hand, since the isolation part 3 including the holding member 6 is folded, the space for storing the carrying bed 1 can be saved. For this reason, the carrying bed 1 can be mounted in advance in a narrow storage space such as a transport vehicle, or a large number of carrying beds 1 can be mounted.
[0040]
In particular, in the patient transport device corresponding to the conventional configuration of the carrying bed 1, the member corresponding to the isolation portion 3 of the carrying bed 1 needs to maintain its shape against its internal and external pressure differences with its own rigid strength. In contrast to being formed in a semi-cylindrical shape having a curved surface in order to receive a uniform surface pressure, this carrying bed 1 is a dedicated member responsible for the rigidity and strength for maintaining the shape of the isolation part 3 Since the holding member 6 is provided, the shape of the isolation part 3 can be a rectangular shape corresponding to the shape of the bed. That is, the space defined by the width, length, height, etc. of the bed can be efficiently used as an isolation space partitioned by the isolation unit 3 as it is. On the other hand, in the patient transport device, a large die, a sufficient shape accuracy, and a lot of materials are required to manufacture a member corresponding to the isolation part 3 into a predetermined shape. Since 3 and the holding member 6 can be deformed, the thickness and weight can be reduced, the amount of material can be reduced, and the cost can be reduced.
[0041]
In the first embodiment, the expansion portions 6A to 6D are provided at the four corners of the separation portion 3 formed in a rectangular parallelepiped shape. However, the configuration is not limited to this, and more expansion portions 6A are provided. ~ 6d may be provided. That is, as shown in FIG. 6, the Ude frame members 17 and 17 are avoided, and two inflating portions 6A and 6b and inflating portions 6C and 6d are additionally provided inside the side surfaces of the respective separating portions 3. The upper ends of the inflating parts 6A and 6b and the inflating parts 6C and 6d may be connected to the corresponding second inflating part 7A and second inflating part 7B, respectively. Furthermore, the 2nd expansion | swelling part 7C and 2nd expansion | swelling part 7D which arrange | positioned the lower end of expansion | swelling part 6A-6D and expansion | swelling part 6A-6d along the lower long side in the side surface of the isolation | separation part 3 formed in the rectangular parallelepiped shape. It is good also as a structure connected to. Therefore, according to this structure, it can avoid more that the intermediate part of the longitudinal direction of the isolation | separation part 3 sags with these expansion | swelling parts 6A and 6b and the expansion | swelling parts 6C and 6d. In addition, since the internal space formed by all these members is formed in a lattice shape, the strength as a surface can be imparted to the side surface of the isolation part 3. On the other hand, with respect to the patient accommodated in the isolation | separation part 3, it can anticipate that expansion | swelling part 6A-6d fulfill | performs the function as a cushioning material.
[0042]
Next, a second embodiment of the present invention will be described. As shown in FIG. 7, the carrying bed 25 of the second embodiment is provided with a frame member 12 that is a second holding member that can be attached to and detached from the bed portion 2. 3 is surrounded to protect the isolation part 3, and an appropriate portion of the upper peripheral edge of the isolation part 3 is lifted upward to assist in maintaining the shape of the isolation part 3. In addition, the same code | symbol is attached | subjected to the member of the same structure as above-described 1st Embodiment, and description is simplified or abbreviate | omitted.
[0043]
That is, the frame member 12 is formed in a wide U-shape that opens downward, and can be attached to and detached from the bed portion 2 with two bar support members 13A and 13B, and the upper sides of these bar support members 13A and 13B. And detachable straight tubular bar members 14A and 14B. The bar support members 13A and 13B and the bar members 14A and 14B are formed using hollow tubular pipe members, respectively, and frame members 2B of the bed portion 2 are respectively provided at the lower ends of the bar support members 13A and 13B. Attachment portions 15a and 15b are provided for fixing to the frame member 2B in a posture in which the bar support members 13A and 13B are erected upward. Further, these mounting portions 15a and 15b have a mechanism for locking the bar support members 13A and 13B in a standing position when the fixing bracket is positioned on the lower side in a state of being attached to the frame member 2B. The bar support members 13A and 13B are configured to fall down toward the frame member 2B when the lock is released by positioning the fixing bracket on the upper side.
[0044]
On the upper side of the bar support members 13A and 13B, there are provided substantially U-shaped mounting brackets 16a, 16a, 16b and 16b which are opened upward to support the bar members 14A and 14B. The bar members 14A and 14B have a length longer than the longitudinal length of the isolation portion 3, and a plurality of through holes 14a and 14b are provided at equal intervals in the middle. The bar members 14A and 14B may be of a telescopic type having a configuration in which a plurality of pipe members having different diameters are housed in the longitudinal direction. Because it can be shortened by shortening the length, it is compact and easy to handle.
[0045]
As shown in FIG. 8 (A), a cylindrical insertion portion 26 along the long side is attached to a portion corresponding to the upper long side of the separating portion 3 formed in a substantially rectangular shape. The insertion portion 26 is set to have an inner diameter larger than the outer diameter of the bar members 14A and 14B. Accordingly, by inserting the bar members 14A and 14B into the insertion portion 26 and spanning them to the mounting brackets 16a and 16b of the bar support members 13A and 13B, the long side portion on the upper side of the separating portion 3 can be continuously extended. Can be lifted upwards. Therefore, the long side portion can be maintained in a straight line shape corresponding to the shape of the bar support members 13A and 13B. A cap portion having an outer diameter larger than that of the insertion portion 26 is detachably provided at both ends of the bar members 14A and 14B. After insertion, the cap member removes the cap portion 26A from the insertion portion 26. The bar members 14A and 14B are prevented from coming off, and the end portions of the bar members 14A and 14B can be protected.
[0046]
Next, a procedure for using the carrying bed 25 of the second embodiment will be described. That is, when the carrying bed 25 is put into use, unlike the use procedure of the first embodiment, the bar support members 13A and 13B which are front and rear with respect to the longitudinal direction of the bed portion 2 are attached. The folded isolation part 3 is placed on the bed part 2 and unfolded. And the expansion | swelling air is supplied to the isolation | separation part 3 from a pumping means, and it is set as a three-dimensional shape. Next, the bar members 14A and 14B are inserted into the insertion portion 26, and hung on the mounting brackets 16a and 16b of the bar support members 13A and 13B. Moreover, the ventilation unit 4 is attached to an appropriate place, the flexible hose 18 is connected and set in a predetermined manner, and the carrying bed 25 is in use.
[0047]
And when isolating a patient with the carrying bed 25, the fastener member 11 of the isolation | separation part 3 is opened like the said 1st Embodiment, but the bar member 14A inserted in the insertion part 26 at this time , 14B can be used to quickly and easily open the separating portion 3 in a divided state. Moreover, after accommodating a patient in the isolation | separation part 3, the isolation | separation part 3 can be returned to the closed state quickly and easily by using bar member 14A, 14B similarly. And the ventilation unit 4 is operated and the inside of the isolation | separation part 3 is made into a predetermined negative pressure or positive pressure state.
[0048]
Therefore, according to the second embodiment, the frame member 12 surrounds the entire periphery of the three-dimensional isolation part 3 to protect the isolation part 3 and lift the upper peripheral edge of the isolation part 3 upward. The shape maintenance of the isolation part 3 can be assisted. That is, the upper long side of the isolation part 3 can be lifted upward, and the middle part of the long side is prevented from being slackened.
[0049]
As shown in FIG. 8 (B), a plurality of ring-shaped suspension ring members are connected to a predetermined location on the upper side of the separating portion 3, and the suspension ring member 27 is connected to the bar member 14A, It is good also as a structure inserted in 14B. Therefore, according to this configuration, in addition to the above-described effects, the ring-shaped suspension ring member 27 can be provided at an arbitrary position on the upper side of the isolation portion 3 and can be lifted by the bar members 14A and 14B. For this reason, for example, only the central part of the upper long side of the isolation part 3 can be lifted, or the part away from the long side can be lifted. As a result, the selection range of the part to be lifted on the isolation part 3 side can be widened, and the degree of freedom in design can be improved.
[0050]
Further, as shown in FIG. 9, the distance between the upper peripheral edge of the separator 3 and the bar members 14A and 14B is set to a predetermined value by adopting a configuration in which the cross section of the separator 3 is formed in a trapezoidal shape with a narrow upper side. To secure the distance for the interposing member that requires a long gap distance, such as adjustment of the tension from the bar members 14A and 14B, and a hanging ring member having a larger diameter. Also good. On the other hand, since the lifting direction is oblique, the shape of the isolation part 3 can be maintained even when an external force is applied to the isolation part 3 from an oblique direction. In other words, for example, even when a crosswind is received due to a gust of wind or the like in outdoor activities, the stable shape of the isolation part 3 can be maintained.
[0051]
Furthermore, in said 1st, 2nd embodiment, the holding member 6 is provided inside the isolation | separation part 3, and this holding member 6 supports the isolation | separation part 3 from an inner side, and hold | maintains the isolation | separation part 3 in three-dimensional shape. Although the structure of the inner skeleton is used, the structure is not limited to this, and the structure of the exoskeleton provided outside the isolation portion 3 may be used. Further, both of these structures may be appropriately combined. Further, the holding member 6 is formed in a prismatic shape. However, the present invention is not limited to this, and the vertical side of the isolating portion 3 can be used as long as the strength as a support by air pressure can be ensured, such as a circular columnar shape or a polygonal columnar shape. As long as the shape of the column is continuous along the top and bottom. Furthermore, although the holding member 6 is integrally provided by being joined to the separating portion 3, it may be provided as a separate member, and at least the upper end and the lower end of the holding member of the separate member are respectively connected to the ceiling of the corresponding separating portion 3. It is good also as a structure which can be attached or detached to the side and a floor side.
[0052]
【The invention's effect】
The present invention is as described above, and according to the invention of claim 1, the isolation part is a transparent or translucent thin and light sheet-like member having airtightness and flexibility. This sheet-like member is expanded by air pressure, The three-dimensional shape is formed in a predetermined hollow, substantially rectangular shape having an internal volume sufficient to accommodate an adult male, and the other surface facing the upper surface from the lower surface of the one surface facing each other in the longitudinal direction. Since the opening and closing member installed until it reaches the end, it can be opened and closed separately along the longitudinal direction, so at least these isolation parts and holding members are thin and light, making it a carrying bed that can be handled easily and lightly it can. On the other hand, since the isolation part can be folded, the space for storing the carrying bed can be saved. For this reason, a carrying bed can be mounted in advance in a narrow storage space such as a transport vehicle, or a large number of carrying beds can be mounted. Also, The isolation part Almost rectangular The holding member has at least airtightness and flexibility. Composed of sheet-like members, Standing at the four corners in the isolation part in plan view, The inside is formed in the air passage and by air pressure Plural shapes that expand into a pillar shape First Expansion part When ,these First Of the inflatable part, facing in the longitudinal direction One Upper end of inflatable part And an upper end of the other inflating part, and the inside is formed in an air passage communicating with the air passage of the first inflating part, and is composed of a second inflating part that is inflated into a long shape by air pressure, By this second inflating part, First The upper side of the isolation part interposed between the upper ends of the expansion parts Sheet-like member Therefore, it is possible to maintain the three-dimensional shape of the isolation part against the difference between the internal and external air pressures. Furthermore, the space on the bed can be used effectively as an isolation space. That is, the space defined by the width, length, height, etc. of the bed can be efficiently used as an isolation space partitioned by the isolation part as it is. For this reason, giving a psychological pressure to the patient accommodated in the isolation space can be reduced. Furthermore, since the isolation part can be opened in the longitudinal direction by the opening and closing member, the bed is greatly released, and the operation of moving the patient on the bed or from the bed is facilitated and speeded up. The On the other hand, during these operations, it is not necessary to place a burden such as forcing the patient to take an unreasonable posture. In addition, since the isolation part and the holding member are made of a flexible material so as to be deformable, even if the isolation part and the holding member come into contact with the patient, the clothes of the patient are caught or the patient is damaged. You do n’t have to. For this reason, the convenience and functionality as medical equipment can be improved.
[0053]
In particular, a patient placed in isolation on the bed is surrounded by a flexible isolation and a flexible, pneumatically inflated retaining member, so that for some reason the bed and patient Even if the patient moves relative to each other and the patient's body comes into contact with the isolation part or the holding member, the possibility that the patient will be damaged can be minimized. For this reason, high safety can be ensured when a patient is transported using the carrying bed.
[0057]
Claim 2 According to the invention, since the second holding member that can be attached to and detached from the bed portion and surrounds and holds the periphery of the separating portion is provided, the second holding member can assist in maintaining the shape of the separating portion, The isolation part can be protected. In addition, the second holding member can be used as a fixed portion of an instrument necessary for treating a patient, and convenience can be improved.
[0058]
Claim 3 According to the present invention, the ventilation unit reverses the air supply direction so that the space formed by the isolation part can be switched to negative pressure or positive pressure, so that an infectious disease that requires negative pressure in the isolation space. And the use for dealing with immunodeficiencies such as leukemia requiring a positive pressure or a patient with reduced immunity can be combined. For this reason, multifunctionalization can be achieved and versatility as medical equipment can be enhanced.
[0059]
Claim 4 According to the invention, the ventilation unit is connected to the isolation part via a flexible hose as an air passage, and at least the installation location of the ventilation unit with respect to the bed part can be changed. To optimize the weight balance.
[0060]
Claim 5 According to this invention, since the pressure feeding means for supplying the air pressure to the holding member is provided, it is possible to arbitrarily adjust the air pressure of the holding member.
[Brief description of the drawings]
1A and 1B show a first embodiment of the present invention, in which FIG. 1A is a plan view of a carrying bed, and FIG. 1B is a front view showing an overall configuration of the carrying bed.
FIGS. 2A and 2B show a first embodiment of the present invention, in which FIG. 2A is a right side view of a separating part of a carrying bed, and FIG. 2B is a left side view.
FIG. 3 is a perspective view showing the carrying bed in a state where the cart is unfolded according to the first embodiment.
FIG. 4 is a perspective view showing the carrying bed in a state in which the cart is folded, showing the first embodiment.
FIG. 5 is a schematic diagram showing the carrying bed in a state in which the isolation portion is reduced at the time of an examination such as an X-ray showing the first embodiment.
FIG. 6 is a schematic view showing another configuration example of the holding member according to the first embodiment.
FIG. 7 is a perspective view showing an overall configuration of a carrying bed having a frame member according to a second embodiment of the present invention.
FIGS. 8A and 8B show a second embodiment of the present invention, wherein FIG. 8A is a partially enlarged perspective view illustrating details of a lifting configuration, and FIG. 8B is a partially enlarged perspective view of another configuration.
FIG. 9 is a schematic diagram showing a configuration in which the outer shape in the cross section of the isolation portion is formed in a trapezoidal shape and suspended, showing the second embodiment.
[Explanation of symbols]
1,25 Carrying bed 2 beds
3 Isolation unit 4 Ventilation unit
4a HEPA filter 4b Ventilation fan
4c Secondary power supply 4d Operation panel
5 Cart 6 Holding member
6A-6D expansion part 7A, 7B 2nd expansion part
8A, 8B Air injection connector 9C, 9D Valve
11 Fastener member (opening / closing member) 12 Frame member (second holding member)
13A, 13B Bar support member 14A, 14B Bar member
15a, 15b Mounting portion for fixing the bar support member to the bed portion
16a, 16b Bar support member mounting bracket
18 Flexible hose
20A to 20C Ventilation hole 20a Flow rate adjusting member
20b Sealing member 26 Insertion part
27 Suspension ring member

Claims (5)

A bed part (2) capable of transporting while lying on the patient, an isolation part (3) installed on the bed part for accommodating the patient in a space of a predetermined three-dimensional shape, and a predetermined amount by ventilating the space A carrying bed (1) comprising a ventilation unit (4) for maintaining a pressure difference of
The isolation part (3) is composed of a transparent or translucent thin and light sheet-like member having airtightness and flexibility, and the three-dimensional shape accommodates an adult male by expanding the sheet-like member by air pressure. An opening / closing member that is formed in a predetermined hollow, substantially rectangular shape having an internal volume as much as possible, and that is installed from the lower portion of one surface facing each other in the longitudinal direction to the other surface facing the upper surface through the upper surface According to (11), it can be split open and closed along the longitudinal direction,
It has a holding member (6) for holding the isolation part in a substantially rectangular shape , and this holding member is composed of a sheet-like member having at least airtightness and flexibility ,
A plurality of first inflating portions (6A to 6D) which are erected at the four corners in the separating portion (3) in plan view, the inside of which is formed in an air passage and inflated into a support column shape by air pressure , and these first inflating portions of one of the expansion portion which faces in the longitudinal direction (6A, 6B) upper end and the other expansion portion (6C, 6D) connecting the upper end of the air passage inside communicates with the air passage of the first expansion portion It consists of a second expansion part (7A, 7B) that is formed and expands into a long shape by air pressure,
The sheet-like member on the upper side of the separating portion (3) interposed between the upper ends of the first inflating portions (6A and 6C, 6B and 6D) is supported by the second inflating portions (7A and 7B). Carrying bed featuring.   The carrying bed according to claim 1, wherein the isolation part (3) is detachable from the bed part (2) and has a second holding member (12) that surrounds and holds the periphery of the isolation part.   The ventilation unit (4) has a filter (4a) to purify the air to be ventilated and incorporates a secondary power source (4c) to enable independent operation. The carrying bed according to claim 1 or 2, wherein the space can be reversed to be switched to a negative pressure state or a positive pressure state in the space.   The ventilation unit (4) is connected to the isolation part (3) via a flexible hose (18) as an air passage, and at least the installation location of the ventilation unit with respect to the bed part can be changed. Carrying bed according to any of the above.   The carrying bed according to any one of claims 1 to 4, further comprising pressure feeding means for supplying the air pressure to the holding member (6).

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