JP2021000520A - Bed device - Google Patents

Abstract

To provide a rigid bed device where bending and looseness are suppressed.SOLUTION: A bed device includes a support base, one supporter, a bed frame, and a connection frame. The supporter is arranged on the support base and also at a nearly center part in a plane view. The bed frame is formed in a rectangular shape in a plane view. The connection frame is connected to the rectangular bed frame and the supporter in a plane view. The connection frame includes dampers and a horizontal frame material. The damper is extendably connected to the bed frame on a longitudinal direction side of the bed frame with respect to the supporter. The horizontal frame material is extended in a short side direction of the bed frame, and is rotatably connected to the bed frame on the same side of connection of the dampers with respect to the supporter. The bed frame is inclined by extension/contraction of the dampers.SELECTED DRAWING: Figure 2

Description

The present invention relates to a sleeper device.

As a pediatric bed, which is a conventional sleeper device for laying an infant, for example, the one shown in Patent Document 1 below is known. The pediatric bed is provided with a support pedestal and a bed that is supported on the support pedestal and on which the human body is placed. The support pedestal is provided with legs and wheels, and can be moved by being pushed by an operator as needed.

Japanese Unexamined Patent Publication No. 8-289830

By the way, in the conventional pediatric bed, it has been desired to adopt a support stand of a single support used for a newborn baby bed. When such a single-poster support pedestal is adopted, there is an advantage that a large space can be secured under the pediatric bed and access to this space is easy, so that it can be effectively used.
However, when supporting an infant who is heavier than a newborn baby, simply adopting a single-pillar support stand may cause the sleeper to become flexible and rattle, which may cause the sleeping baby to feel uncomfortable and unable to fall asleep. ..

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a robust sleeper device in which bending and rattling are suppressed.

The present invention employs the following means in order to solve the above problems and achieve the object.
(1) A support stand, a support, a sleeper frame, and a connecting mechanism including a telescopic damper are provided, and the sleeper frame and the connecting mechanism are rotatably connected, and the damper is connected to the sleeper frame. The support column and the sleeper frame are connected to each other so that the sleeper frame is tilted by the expansion and contraction of the damper.
According to the sleeper device described in (1) above, both the weight of the bed and the load applied to the bed are supported by a frame having high structural rigidity. Therefore, the weight and the load are supported only by the support stand. It is possible to suppress the bending and rattling of the bed compared to the case of receiving it directly at.

(2) In the bed device according to (1) above, when the damper is extended and the bed frame is horizontal, at least a part of the upper surface of the connecting mechanism and the lower surface of the short side of the bed frame are in contact with each other. You may.
In the case of (2) above, when the damper is extended and the sleeper frame is horizontal, at least a part of the upper surface of the connecting mechanism is in contact with the lower surface of the short side of the sleeper frame, so that the weight of the sleeper and the load applied to the sleeper Can be reliably supported.

(3) In the bed device according to the above (1) or (2), when the damper is contracted and the bed frame is tilted, at least a part of the upper surface of the connecting mechanism and the short lower surface of the sleeper frame. May be separated.

According to each of the above aspects of the present invention, it is possible to provide a robust sleeper device in which bending and rattling are suppressed.

It is a perspective view of the cot which is the sleeper device which concerns on one Embodiment of this invention. It is a perspective view for demonstrating the structure of the support stand and the connection mechanism of the pediatric bed. It is a perspective view of the lower frame which is a component of a sleeper in the pediatric bed. It is a perspective view of the connection mechanism of the pediatric bed. It is a figure which shows the tilting mechanism in the connection mechanism of the pediatric bed, and is the AA sectional view of FIG. It is a figure explaining the state which the local load applied to the bed of the pediatric bed is received by the frame body of the connecting mechanism, and is the outline which shows one half of the lower frame in the longitudinal direction, and the frame body. It is a plan view. It is the same view as FIG. 6, and is the schematic plan view which shows the case where the local load is applied to the center of the frame material of the lower frame. It is a figure explaining the state which the local load applied to the bed of the pediatric bed is received by the frame body of the connecting mechanism, and is the schematic which shows the other half in the longitudinal direction of the lower frame, and the frame body. It is a plan view. It is the same view as FIG. 8, and is the schematic plan view which shows the case where the local load is applied to the center of the frame material of the lower frame.

A cot, which is a sleeper device according to an embodiment of the present invention, will be described below with reference to the drawings. In FIGS. 1 to 3, the arrow H indicates the direction toward the head when the human body (infant) is placed, and the arrow F indicates the direction toward the leg when the human body is placed. In the following description, the arrow H side may be referred to as front, the arrow F side may be referred to as rear, and the horizontal direction orthogonal to the directions of arrows H and F may be referred to as left and right.
As shown in the perspective view of FIG. 1, the pediatric bed of the present embodiment includes a single support support pedestal 10 and a bed 20 supported on the support pedestal 10 and on which a human body (not shown) is placed. A connecting mechanism 30 for connecting the support pedestal 10 and the bed 20 is provided.

As shown in FIG. 2, the support pedestal 10 is provided on a pair of legs 11, an elevating table 12 which is a single support that stands while being sandwiched between the legs 11, and each tip of each leg 11. It includes casters 13 that are rotatably attached.
Each leg portion 11 has a straight portion 11a extending linearly along the horizontal direction, a curved portion 11b curved in a plan view from both ends of the straight portion 11a, and a straight line connected to the curved portion 11b. It is provided with a leg tip portion 11c extending in a symmetrical manner and a caster mounting portion 11d welded and fixed to the end of the leg tip portion 11c. When these pair of leg portions 11 are viewed in a plan view, the straight portions 11a are parallel to each other, the curved portions 11b are bent in a direction away from each other, and the leg tip portions 11c extend in a direction further separated from each other. There is.
Since each leg 11 has the above-mentioned shape, an empty space is formed in the regions C1 to C4 shown in the hatching of FIG. 2, and the legs and the like of the worker who handles the pediatric bed are formed. It is possible to prevent interference and arrange various medical devices (not shown) as needed. Since the pediatric bed of the present embodiment is provided with a support stand 10 having a single support, the structure is such that access to the space below the bed 20 is easy.

The straight portion 11a is not divided at the center position in the longitudinal direction, but a part of the center thereof is covered by the rubber cover 12c described later. Therefore, each leg portion 11 horizontally extends one long plate member from one leg tip portion 11c through the curved portion 11b, the straight portion 11a, and the other curved portion 11b to the other leg tip portion 11c. The main component is an integrated product obtained by bending at two points in the direction, and the caster mounting portions 11d are welded and fixed to both ends of the integrated product.
A rubber stopper 11d1 covering the opening is fitted at the upper end of each caster mounting portion 11d, and when the rubber stopper 11d1 is removed, a drip rod (not shown) is inserted into the opening to support the caster attachment portion 11d. It can be used as a tool.

As shown in FIG. 2, the lifting platform 12 has a square pipe-shaped pedestal portion 12a sandwiched between the pair of straight portions 11a and welded and fixed so as to extend in the vertical direction, and inside the pedestal portion 12a. An elevating part 12b inserted coaxially and vertically so as to be able to move up and down, a gas spring (not shown) provided between the pedestal part 12a and the elevating part 12b, and elevating and lowering the elevating part 12b are permitted and prohibited. It includes a lever (not shown. The elevating lever is attached to a frame body 40 described later) and a rubber cover 12c that covers a welded portion between the pedestal portion 12a and the pair of straight portions 11a.
The pedestal portion 12a is fixed so that its lower end projects downward from each lower edge of the pair of straight portions 11a. By lowering the height position of the pedestal portion 12a in this way, it is possible to lower the position of the center of gravity and further improve the stability.

The gas spring urges the elevating portion 12b with respect to the pedestal portion 12a in the vertically upward direction. The operation is locked. On the other hand, when the operator operates the elevating lever to release the lock, the elevating portion 12b gently rises vertically upward in response to the urging force of the gas spring. Further, when the operator pushes the sleeper 20 vertically downward while operating the elevating lever to release the lock, the elevating portion 12b gently descends vertically downward. In this way, the operator operates the elevating lever to move the sleeper 20 up and down in a state where the lock is released, and when the sleeper 20 reaches an appropriate height position, the operator operates the elevating lever to lock the sleeper 20. The sleeper can be set at a desired height position by applying. The elevating lever is provided on both the left and right sides with the frame body 40 in between, and can be operated from either the left or right side of the sleeper 20.

The elevating portion 12b has a square pipe shape thinner than the pedestal portion 12a, and a receiving plate (not shown) for bolting the frame body described later is welded and fixed to the upper end portion thereof. It should be noted that the receiving plate may be omitted, and a plurality of bolt holes may be provided directly at the upper end portion of the elevating portion 12b. In any case, for example, when four bolt holes are provided, it is preferable that the bolt holes are arranged one by one in the front-rear and left-right directions to form a square.

The casters 13 include a rotating shaft (not shown) rotatably attached to each of the caster mounting portions 11d around the vertical axis, wheels 13a attached to the rotating shaft, and wheels 13a. It is provided with a stopper 13b that allows or locks rotation.

As shown in FIG. 1, the bed 20 surrounds the lower frame 21, the bed plate (not shown) supported and fixed on the lower frame 21, and the four sides of the sleep plate when viewed in a plan view, and the lower frame 21. It includes an upper frame fixed on the top (not shown), a side wall 24 mounted upright on each of the four sides of the upper frame, and a mattress (not shown) placed on the bed plate. ing.

As shown in FIG. 3, the lower frame 21 includes a frame material 21a which is a pair of square pipes extending in the front-rear direction, and a frame material 21b connecting the front ends of the frame material 21a. A frame material 21c that connects the rear ends of each frame material 21a, and a reinforcing frame material that is two square pipes that connect the frame materials 21a at two locations in the middle of the longitudinal direction of each frame material 21a. It has 21d and 21e.

The pair of frame members 21a and the frame members 21b and 21c form a rectangular frame that is long in the front-rear direction in a plan view. Then, the reinforcing frame members 21d and 21e are welded and fixed to the inside of the frame at two points in the middle of the longitudinal direction of the frame to reinforce the frame from the inside. Of the reinforcing frame materials 21d and 21e, one of the reinforcing frame materials 21d is arranged on the front side of the central position in the longitudinal direction of the frame when the frame is viewed in a plan view, and the other reinforcing frame. The material 21e is arranged on the rear side of the central position.
Of the components of the lower frame 21, the pair of frame materials 21a and the reinforcing frame materials 21d and 21e are made of square pipes, while the frame materials 21b and 21c are press-molded products obtained by bending a long plate material. Then, one end of each of the frame materials 21b and 21c and the reinforcing frame materials 21d and 21e is welded and fixed so as to be perpendicular to the side surface of the one frame material 21a, and the other end is welded and fixed. , It is welded and fixed so as to be perpendicular to the side surface of the other frame member 21a.
As shown in FIGS. 3 and 5, a bearing 21e1 for attaching a gas spring 54a, which will be described later, is welded and fixed to the side surface of the reinforcing frame member 21e at the center position in the longitudinal direction.

The bed plate is a thin resin plate that has been subjected to a large number of holes, and is fixed to the lower frame 21 by push rivets (not shown) in a state of being placed on the lower frame 21. That is, the sleeper plate is supported by a pair of frame materials 21a, frame materials 21b and 21c, and reinforcing frame materials 21d and 21e, and is fixed to each of the frame materials 21b and 21c by the push rivets. Has been done.
The mattress is a cushioning material that is placed on the upper surface of the bed plate, and has the same rectangular shape as the upper surface of the bed plate when viewed in a plan view, and has an internal material having appropriate softness, and an internal material of the internal material. It has a surface material that covers the surroundings and is easy to clean and hard to tear.

The upper frame has a square frame shape, and an accommodation space for accommodating and holding the mattress is formed in the frame. When the mattress is housed in the upper frame, the height of the upper surface of the upper frame is substantially the same as the height of the upper surface of the mattress. Further, the upper frame is provided with a grip portion for the operator to manually push the pediatric bed and a rotating portion capable of holding the side wall 24 in an upright state or a downwardly tilted state.
The side wall 24 is made of, for example, a transparent acrylic plate, and one side wall 24 is attached to each of the four sides of the upper frame so that it can be worn.

As shown in FIG. 2, the connecting mechanism 30 includes a frame body 40 bolted to the receiving plate provided on the elevating portion 12b of the support frame 10, and the bed 20 to the frame body 40. A tilting mechanism 50 that connects and supports the tilting mechanism 50 is provided.
As shown in FIG. 4, the frame body 40 has a pair of vertical frame members 41 extending in the front-rear direction and a horizontal frame member 42 welded and fixed in a state of being sandwiched between the vertical frame members 41 on the front side. And a horizontal frame member 43 welded and fixed to the rear end portion of each vertical frame member 41.

The pair of vertical frame members 41 are rod-shaped parts formed by bending a metal plate so that the cross section perpendicular to the longitudinal direction thereof is U-shaped, and are parallel to each other and have a predetermined interval between them. In this state, the opening of the U-shaped cross section is arranged so as to face downward in the vertical direction.
Further, on the front upper surface of each vertical frame member 41, one cushioning material 41a that comes into contact with the lower surface of the sleeper 20 when the sleeper 20 is placed flat without being tilted is provided. These cushioning materials 41a function as a receiving material that the lower surface of the bed 20 directly contacts and supports the upper surface of the vertical frame material 41.

The horizontal frame member 42 is a plate component obtained by bending a pair of side edge portions of a quadrangular metal plate facing each other in the same direction, and is vertically upward from the bottom portion 42a and both front-rear and front-rear edges of the bottom portion 42a. It is provided with vertical portions 42b and 42c that stand up toward it.
The bottom portion 42a is formed with a plurality of bolt holes h for fixing bolts to the receiving plate of the elevating portion 12b. These bolt holes h are arranged in the same arrangement as the bolt holes provided on the receiving plate of the elevating portion 12b (for example, when four bolt holes are formed, the four bolt holes h are viewed in a plan view in the front-back and left-right directions). Arrange them one by one to form a square).

Further, on the bottom portion 42a, four bearing plates 42a1 are formed in which a part thereof is cut out and bent to stand up. Of these, the two bearing plates 42a1 on the right side of the bottom portion 42a in a plan view form a pair, and the two bearing plates 42a1 on the left side form a further pair, for a total of two pairs of bearings. Then, one of the elevating levers is rotatably attached to the pair of bearing plates 42a1 on the right side, and the other of the elevating levers is rotatably attached to the pair of bearing plates 42a1 on the left side. The elevating lever is passed through the notch formed in the lower part of the vertical frame member 41.

The right end portions of the vertical portions 42b and 42c are welded and fixed in a state of being abutted perpendicularly to the inner side surface of the vertical frame member 41 on the right side. Further, each of the left end portions of the vertical portions 42b and 42c are welded and fixed in a state of being abutted perpendicularly to the inner side surface of the vertical frame member 41 on the left side.
In addition, in order to increase the mechanical strength of the horizontal frame member 42 and further increase the rigidity of the frame body 40, a pair of reinforcing members 42x as shown in FIG. 4 may be welded and fixed. As the reinforcing member 42x, for example, a part obtained by bending a metal plate and having a U-shaped cross section and extending in the front-rear direction can be adopted. Further, it is more preferable that the reinforcing member 42x has the same height dimension as the vertical portions 42b and 42c. Further, when the reinforcing member 42x is welded and fixed, it is parallel to each of the vertical frame members 41 and is arranged at a position that does not cover the upper part of each of the bolt holes h, and then the inner side surfaces of the vertical portions 42b and 42c. And it is preferable to weld and fix it to the upper surface of the bottom portion 42a.

The horizontal frame member 43 is a square pipe extending in the left-right direction, and a tilt bearing 51, which will be described later, is welded and fixed to each end thereof, and the side at the center position in the longitudinal direction and facing the horizontal frame member 41. A support metal fitting 52, which will be described later, is welded and fixed to the side surface of the above.
The horizontal frame member 43 is welded and fixed in a state where the rear end side of the pair of vertical frame members 41 is abutted against two locations in the extending direction. As a result, the horizontal frame member 43 constitutes a square frame together with the pair of vertical frame members 41 and the horizontal frame member 41. Since this square frame has a predetermined height dimension, it is not only strong against an external pressure load along the in-plane direction of the square frame, but also against an external pressure load that twists the square frame in the thickness direction. Even if it does not deform, it has sufficient mechanical strength.
The horizontal frame member 43 connects the pair of frame members 21a via a pair of tilt bearings 51 (connecting members), and exhibits the same reinforcing effect as the reinforcing frame members 21d and 21e. That is, since the length of the horizontal frame member 43 is made longer so as to secure the extension portion 43c protruding from the square frame, the horizontal frame member 43 is used as a strength member of the square frame. It also serves as a strength member for increasing the rigidity of the lower frame 21.

As shown in FIG. 5, the tilting mechanism 50 has a tilting bearing 51, which is a metal fitting that tiltably connects the sleeper 20 to the frame body 40, and an upper end thereof extending vertically downward to the frame body 40. The support metal fitting 52 fixed by welding, one end is rotatably connected to the lower end 52a of the support metal fitting 52, and the other end is rotatably connected to the bearing 21e1 of the lower frame 21, and the tilting bearing A damper 54 that expands and contracts in accordance with the tilt when the lower frame 21 of the sleeper 20 tilts around the 51, and a tilting operation unit 55 that permits and regulates the expansion and contraction of the damper 54 are provided.

The tilt bearing 51 is a metal plate, and one is fixed to each of both ends of the horizontal frame member 43. The tilt bearing 51 includes a fixing portion 51a welded and fixed to the end of the horizontal frame member 43, and a rotating shaft connecting portion 51b extending diagonally upward from the fixing portion 51a and having a bolt hole 51b1 formed therein. I have.
As shown in FIG. 5, the bolt holes 51b1 are positioned at positions shifted forward and upward in the vertical direction with respect to the horizontal frame member 43, and are bolt holes formed in the frame member 21a of the lower frame 21. It is formed at a position that overlaps with (not shown). Then, the bolt holes 51b1 and the bolt holes formed in the frame material 21a are overlapped with each other, and the bolts are fastened to both of them in the horizontal direction. Moreover, since the frame member 21a is rotatable with respect to the tilt bearing 51 with the bolt as a shaft body, the entire bed 20 including the lower frame 21 is attached to the support stand 10 via the connecting mechanism 30. On the other hand, it can be tilted. When the sleeper 20 is tilted from the flat position, the sleeper 20 is tilted in the direction in which the rear side is lowered and the front side is raised with the virtual straight line CL (see FIG. 1) connecting the pair of bolt holes 51b1 as the rotation axis. On the other hand, when the sleeper 20 is returned from the tilted state to the flat state, the reinforcing frame material 21d of the lower frame 21 comes into contact with the cushioning material 41a of the frame body 40 and stops the operation. It is forbidden for the front side to go down.

The support metal fitting 52 shown in FIG. 5 includes a pair of triangular plates 52x facing each other. Each of these triangular plates 52x is welded and fixed to the inner surface of the horizontal frame member 43 of the frame body 30. A gap through which a part of the damper 54 can be inserted is formed between the pair of triangular plates 52x. Each triangular plate 52x has a substantially inverted triangular shape, and is tapered from the upper end to the lower end. Further, a through hole 52y penetrating in the plate thickness direction is formed at the lower end of each triangular plate 52x, and the pair of through holes 52y are coaxial.

As shown in FIG. 5, the damper 54 includes a gas spring 54a, an upper connecting portion 54b that rotatably connects the upper end of the gas spring 54a to the bearing 21e1, and the lower end of the shaft of the gas spring 54a. It is provided with a lower connecting portion 54c that is rotatably connected to the through hole 52y of the support metal fitting 52.
Further, the damper 54 is integrally provided with the tilting operation unit 55. The tilting operation portion 55 includes a metal lever 55a rotatably provided on the side of the gas spring 54a, and a resin handle portion 55b fixed to the tip of the lever 55a. Since the lever 55a extends from the upper end of the gas spring 54a toward the rear side, the handle portion 55b is arranged near the rear end just below the sleeper 20. Therefore, since the access to the handle portion 55b becomes easy, the operator can easily operate the tilt operation portion 55.

According to the pediatric bed of the present embodiment having the above-described configuration, both the weight of the bed 20 and the weight of the baby placed on the bed 20 are supported by the structurally highly rigid frame 40. The bending and rattling of the bed 20 can be suppressed as compared with the case where the weight and the weight are directly received by, for example, only the lifting table 12. Moreover, even if the skeletal structure of the sleeper 20 itself is a conventional structure, it can be applied. Therefore, according to the present embodiment, it is possible to provide a robust pediatric bed with suppressed bending and rattling.

The above effects will be described in more detail with reference to FIGS. 6 to 9. 6 to 9 are partial plan views showing a flat state in which the lower frame 21 is not tilted, and FIGS. 6 to 9 are shown in FIGS.
Shows the rear side of the lower frame 21, and FIGS. 8 and 9 show the front side of the lower frame 21. Further, in FIGS. 6 to 9, the black arrow indicates the point of action of the local load, while the white arrow indicates the reaction force at the point where the load is mainly received.

For example, as shown in FIG. 6, when a downward load is applied to the rear left corner of the lower frame 21 from above (see the black arrow), this load is mainly applied to the lower left corner of the frame 40. It is supported by the corners and the damper 54 (see white arrow). Since the damper 54 is supported by the horizontal frame member 43 of the frame body 40 via the support metal fitting 52, the frame body 40 eventually receives all the loads. As described above, the frame body 40 has high rigidity and hardly deforms, so that the load can be reliably received. Therefore, since the frame members 21a and 21c, the reinforcing frame members 21e, the damper 54, and the support metal fittings 52 are configured so that the load propagates toward the frame body 40 having high rigidity and hardly deforming, the lower frame 21 It is possible to suppress bending and rattling.

Subsequently, for example, as shown in FIG. 7, when a downward load is applied to the center position of the frame 21c from above (see the black arrow), this load is mainly applied to the left and right corners of the paper surface of the frame body 40. It is supported by the portion and the damper 54 (see the white arrow). Then, since the load received by the damper 54 is supported by the horizontal frame member 43 as described above, the frame body 40 having high rigidity eventually receives all the load. Therefore, it is possible to suppress the bending and rattling of the lower frame 21.

Subsequently, for example, as shown in FIG. 8, when a downward load is applied to the front side corner portion of the lower frame 21 from above (see the black arrow), this load is applied to the four corners of the frame body 40. Supported by the part (see white arrow). More specifically, in the upper left corner of the paper, a first reaction force is generated vertically upward, and in the upper right corner of the paper, a second reaction force smaller than the first reaction force but also vertically upward is generated. Reaction force is generated. Further, a third reaction force downward vertically is generated at the lower right corner of the paper, and a fourth reaction force smaller than the third reaction force is generated vertically downward at the lower left corner of the paper. To do.
In this way, all the load applied to the front side corner of the lower frame 21 is transmitted to the frame body 40, but since the frame body 40 has high rigidity as described above and hardly deforms, the load is surely applied. I can take it. Therefore, since the frame materials 21a and 21b and the reinforcing frame material 21d are configured so that the load propagates toward the frame body 40 which has high rigidity and hardly deforms, the bending and rattling of the lower frame 21 are suppressed. It is possible to do.

Further, for example, as shown in FIG. 9, when a downward load is applied to the front central portion of the lower frame 21 from above (see the black arrow), this load is also applied to the four corner portions of the frame body 40. Supported by (see white arrow). More specifically, a reaction force is generated vertically upward at the upper left corner of the paper and the upper right corner of the paper, and a reaction force is generated vertically downward at the lower left corner of the paper and the lower right corner of the paper. ..
In this way, since the frame materials 21a and 21b and the reinforcing frame material 21d are configured so as to propagate and support the load applied to the lower frame 21 to the frame body 40, the lower frame 21 is bent. It is possible to suppress sticking.

As described above, according to the pediatric bed of the present embodiment, it is possible to suppress the bending and rattling of the lower frame 21 regardless of where a local load is applied to the bed 20. .. Therefore, even if the load acting portion on the sleeper 20 moves due to the baby lying on the sleeper 20 turning over, the sleeper 20 does not bend or rattle, and the baby can sleep comfortably.

Further, according to the present embodiment, it is possible to obtain the following effects.
That is, in the present embodiment, the tilting mechanism 50 is fixed to the tilting bearing 51 that tiltably connects the sleeper 20 to the frame body 40 and the upper end so as to extend vertically downward to the frame body 40. One end of the support metal fitting 52 is rotatably connected to the lower end of the support metal fitting 52, and the other end is rotatably connected to the bed 20 so that the bed 20 tilts around the axis of the tilt bearing 51. It is provided with a damper 54 that expands and contracts in accordance with the tilt, and a tilting operation unit 55 that permits and regulates the expansion and contraction of the damper 54.
According to this configuration, since one end of the damper 54 is connected to the lower end of the support metal fitting 52 extending vertically downward from the high frame 40, the mounting angle of the damper 54 with respect to the lower surface of the bed 20 (angle in FIG. 5). It is possible to secure a large α). Therefore, the damper 54 can reliably support the sleeper 20 from its lower surface.

Further, in the present embodiment, the horizontal frame member 43, which is a part of the frame body 40, extends toward the outside of the frame and also serves as a part of the lower frame 21 forming the skeleton of the sleeper 20. According to this configuration, the skeleton of the sleeper 20 can be reinforced by a part of the frame 40 having high rigidity, so that the rigidity of the sleeper 20 can be further increased.

Further, in the present embodiment, the sleeper 20 is (1) in the flat state, the weight of the sleeper 20 is reduced by a part of the upper surface of the frame body 40, the tilt bearing 51, the damper 54, and the support metal fitting 52. It is imparted to the body 40, and (2) in the tilted state, the weight of the sleeper 20 is imparted to the frame 40 by the tilting bearing 51, the damper 54, and the support metal fitting 52. According to this configuration, the frame 40 can receive the weight of the sleeper 20 and the load applied to the sleeper 20 in both the flat state and the inclined state.
Further, when the reinforcing member 42x is provided in the frame body 40, the rigidity of the frame body 40 can be further increased, so that the bending and rattling of the sleeper 20 supported by the frame body 40 can be more reliably performed. It becomes possible to suppress it.

The technical scope of the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, although a rectangular shape in a plan view is adopted as the shape of the frame body 40, a rectangular shape long in the front-rear direction or the left-right direction may be adopted. Further, other shapes such as a circular view in a plan view, an ellipse in a plan view, a triangle in a plan view, and a polygon in a plan view may be adopted as long as they have a closed frame shape in a plan view.
Further, the arrangement location and the number of the reinforcing frame materials 21d and 21e can be appropriately changed as needed.
Further, in the above embodiment, the support pedestal 10 is provided with casters 13 so that the vehicle can travel. However, the present invention can be adopted not only in this configuration but also in a configuration in which the casters 13 are not provided and are installed on the floor surface.

10 Support stand 20 Sleeper 30 Connecting mechanism 40 Frame body 42 x Reinforcing member 43 Horizontal frame material (part of frame body)
50 Tilt mechanism 51 Tilt bearing (connecting member)
52 Support bracket 54 Damper 55 Tilt operation unit

Claims (4)

Support stand and
One support column provided on the support frame and substantially in the center in a plan view,
A rectangular bed frame in a plan view,
A connecting frame that connects the sleeper frame and the support column,
In the sleeper device equipped with
The connecting frame
The sleeper frame and a damper that is stretchably connected to the support column on the longitudinal side of the sleeper frame.
A horizontal frame member that extends along the lateral direction of the sleeper frame and rotatably connects to the sleeper frame on the same side as the connection of the damper to the support column.
With
The sleeper frame is tilted due to the expansion and contraction of the damper.
A sleeper device that features that. The connecting frame further comprises a vertical frame member extending along the longitudinal direction of the sleeper frame and in contact with the lower surface of at least a part of the sleeper frame.
The vertical member is connected to the horizontal frame member.
The sleeper device according to claim 1. The damper is connected on the leg side of the sleeper frame,
When the damper is extended and at least a part of the upper surface of the vertical frame member is in contact with the lower surface of at least a part of the sleeper frame.
The sleeper frame is almost horizontal,
The bed device according to claim 1 or 2. The damper is connected on the leg side of the sleeper frame,
When the damper contracts and the upper surface of the vertical frame material and the lower surface of the reinforcing frame material of the sleeper frame are separated from each other.
The sleeper frame is tilted,
The bed device according to any one of claims 1 to 3, wherein the bed device is characterized by the above.

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