CN219814603U - Medical examination bed with multidirectional adjusting structure - Google Patents

Abstract

The utility model provides a medical examination bed with a multidirectional adjusting structure, which comprises a bottom supporting component, a top supporting component, a lifting transmission component, a lifting driving component, a lower body supporting component, a lower body adjusting component, an upper body supporting component and an upper body adjusting component.

Description

Medical examination bed with multidirectional adjusting structure

Technical Field

The utility model relates to a medical examination bed, in particular to a medical examination bed with a multidirectional adjusting structure.

Background

Patent document CN212699539U discloses a medical examination bed, it includes the fixed bed body and the movable bed body, movable bed body rear end and fixed bed body front end rotatable fastening, movable bed body downside is fixed with the fixed block, the fixed block downside is equipped with elevating system, elevating system includes driving motor, the lead screw, lead screw nut and supporting shoe, the vertical setting of lead screw, lead screw nut screw-thread fit is on the lead screw and fixed with the supporting shoe, the supporting shoe upper end is equipped with the bracing piece that sets up along the left and right directions, a plurality of fixed blocks have the through-hole of running through about, the bracing piece cooperation is in the through-hole, the bracing piece both ends are equipped with the anticreep piece, the lead screw rotates under driving motor effect so that lead screw nut drives the supporting shoe and reciprocates. However, the lifting mechanism adopted by the medical examination bed has a complex structure, is difficult to adjust in time according to the actual requirement of the examination process, has a large limitation on the adjusting angle range, and is difficult to meet the continuously-changing examination requirement. Therefore, there is a need for structural optimization of such medical beds to overcome the above-described drawbacks.

Disclosure of Invention

The object of the present utility model is to provide a medical examination table with a multidirectional adjustment structure to promote flexibility of use thereof.

The utility model adopts the technical proposal for solving the technical problems that:

a medical examination table with a multidirectional adjustment structure, comprising:

a bottom support assembly having a load-bearing space therein and being movable on a floor;

a top support assembly above the bottom support assembly, the top support assembly having an installation space therein;

the lifting transmission assembly is arranged between the bottom support assembly and the top support assembly through a movable connection structure, and the top support assembly can be used for adjusting the height of the bottom support assembly through the lifting transmission assembly;

the lifting driving assembly is arranged on the bottom supporting assembly through a movable connecting structure, is matched with the lifting transmission assembly, is driven to operate by the lifting driving assembly, and is used for driving the top supporting assembly to adjust the height;

a lower body supporting member mounted to the top supporting member through a movable connection structure, the lower body supporting member being capable of performing an angle adjustment on the top supporting member, and supporting a lower portion of the body by the lower body supporting member;

the lower body adjusting assembly is arranged on the top supporting assembly through a movable connecting structure and is matched with the lower body supporting assembly, and the lower body adjusting assembly drives the lower body supporting assembly to adjust the angle;

an upper body supporting member mounted to the top supporting member through a movable connection structure, the upper body supporting member being capable of performing an angle adjustment on the top supporting member, and supporting an upper portion of a body by the upper body supporting member;

the upper body adjusting assembly is arranged on the lifting transmission assembly through the movable connecting mechanism and is matched with the upper body bearing assembly, and the upper body adjusting assembly drives the upper body bearing assembly to adjust the angle.

Specifically, the bottom support assembly includes:

the support chassis is formed by adopting square pipes in a joint mode and is arranged along the transverse direction;

the support wheel pair is arranged at the bottom of the support chassis, and the support chassis can move on the ground through the support wheel pair;

the support underframe is formed by adopting square pipes in a joint mode, is fixedly arranged at the top of the support chassis and extends to the upper side of the support chassis.

In one embodiment of the utility model, the supporting chassis and the supporting underframe are respectively formed by adopting square tubes in a joint mode.

In one embodiment of the utility model, a reinforcing bottom rod extending along an oblique direction is arranged between the supporting chassis and the supporting bottom frame, and the connecting part of the supporting bottom frame and the supporting chassis is structurally reinforced by the reinforcing bottom rod.

The top support assembly includes:

the supporting stand is positioned above the supporting bottom frame and is vertically arranged, and the height of the supporting stand is larger than that of the supporting bottom frame;

the supporting top frame is formed by adopting square pipes in a joint mode, is fixed at the top of the supporting vertical frame and is positioned above the supporting bottom frame;

the switching support is arranged at the top of the supporting top frame and protrudes above the supporting top frame.

In one embodiment of the present utility model, the support stand and the support top frame are respectively formed by square pipe joint.

In one embodiment of the utility model, a reinforcing ejector rod extending along an oblique direction is arranged between the supporting vertical frame and the supporting top frame, and the connecting part of the supporting top frame and the supporting vertical frame is structurally reinforced by the reinforcing ejector rod.

The lift transmission assembly includes:

the transmission underframe is positioned between the support underframe and the support vertical frame, one end of the transmission underframe is connected to the bottom of the support underframe through a rotating structure, and the other end of the transmission underframe is connected to the bottom of the support vertical frame through a rotating structure;

the transmission roof rack is positioned between the supporting underframe and the supporting vertical frame, one end of the transmission roof rack is connected to the top of the supporting underframe through a rotating structure, the other end of the transmission roof rack is connected to the middle of the supporting vertical frame through a rotating structure, and the transmission underframe and the transmission roof rack are mutually parallel.

In one embodiment of the utility model, the transmission bottom frame and the transmission top frame are respectively formed by adopting square tubes in a joint mode.

The lift drive assembly includes:

and one end of the lifting push rod is arranged on the supporting chassis through a hinge structure, the other end of the lifting push rod is connected to the middle part of the transmission top frame through a hinge structure, the lifting push rod drives the transmission top frame to deflect and drives the transmission bottom frame to deflect together, so that the supporting vertical frame and the supporting top frame ascend or descend.

In one embodiment of the utility model, the lifting push rod is an electric push rod.

The lower torso support assembly includes:

the lower body bracket is arranged on the supporting top frame, the rear end of the lower body bracket is connected with the switching support through a rotating shaft, the deflection angle can be adjusted on the supporting top frame, and the front end of the lower body bracket extends to the front of the supporting top frame;

and the lower body liner is arranged on the surface of the lower body bracket, can adjust the deflection angle along with the lower body bracket and supports the lower part of the body by the lower body liner.

In one embodiment of the utility model, the lower body bracket is provided with a pair of leg brackets, each leg bracket is respectively arranged at two sides of the lower body bracket through a movable connecting structure, and the legs can be supported.

In one embodiment of the utility model, the lower body bracket is provided with a pair of holding handles, and each holding handle is respectively arranged at two sides of the lower body bracket through a movable connecting structure and can be held by hands.

The lower body adjusting assembly includes:

the lower body push rod, this lower body push rod one end is installed in the support grudging post middle part through hinge structure, and its other end passes through hinge structure and connects in lower body bracket bottom, is adjusted the deflection angle of lower body bracket and lower body liner by the lower body push rod.

In one embodiment of the present utility model, the lower body putter is an electric putter.

The upper body support assembly comprises:

the upper body bracket is arranged on the supporting top frame, the front end of the upper body bracket is connected with the switching support through a rotating shaft, the deflection angle can be adjusted on the supporting top frame, and the rear end of the upper body bracket extends to the rear of the supporting top frame;

and the upper body liner is arranged on the surface of the upper body bracket, can adjust the deflection angle along with the upper body bracket and supports the upper part of the body by the upper body liner.

The upper body adjusting assembly includes:

the upper body push rod, this upper body push rod one end is installed on the transmission roof-rack through hinge structure, and its other end passes through hinge structure and connects in upper body bracket bottom, is adjusted the deflection angle of upper body bracket and upper body liner by the upper body push rod.

In one embodiment of the present utility model, the upper body push rod is an electric push rod.

In one embodiment of the utility model, a driving power supply is arranged on the supporting chassis, and the upper body push rod, the lower body push rod and the lifting push rod are respectively communicated with the driving power supply through driving circuits, and are powered by the driving power supply.

In one embodiment of the utility model, a control pedal is further arranged on the supporting chassis, the upper body push rod, the lower body push rod and the lifting push rod are respectively communicated with the control pedal through control circuits, and the operating states of the upper body push rod, the lower body push rod and the lifting push rod can be controlled through the control pedal, so that the heights and angles of the upper body liner and the lower body liner are adjusted.

The utility model has the advantages that:

the medical examination bed adopts the transmission underframe and the transmission roof frame to movably connect the support underframe and the support vertical frame, combines the lifting push rod matched with the transmission underframe to enable the support roof frame to be capable of adjusting the height above the support underframe, adopts the rotating structure to install the lower body bracket on the support roof frame, combines the lower body push rod matched with the lower body bracket to enable the lower body bracket and the lower body liner to be capable of adjusting the deflection angle on the support roof frame, adopts the rotating structure to install the upper body bracket on the support roof frame, combines the upper body push rod matched with the rotating structure to enable the upper body bracket and the upper body liner to be capable of adjusting the deflection angle on the support roof frame, and the upper body push rod, the lower body push rod and the lifting push rod are all controlled by adopting electric push rods, can be controlled by the corresponding control pedals respectively, and can adjust the state of the medical examination bed in multiple directions, so that the use flexibility of the medical examination bed is improved.

Drawings

FIG. 1 is a schematic illustration of a medical examination table with a multidirectional adjustment structure according to the present utility model;

FIG. 2 is a second schematic view of the structure of the medical examination bed.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 2, the medical examination bed with the multidirectional adjusting structure provided by the utility model comprises a bottom supporting component, a top supporting component, a lifting transmission component, a lifting driving component, a lower body bearing component, a lower body adjusting component, an upper body bearing component and an upper body adjusting component, wherein the bottom supporting component is provided with a bearing space and can move on the ground, the top supporting component is positioned above the bottom supporting component and internally provided with an installation space, the lifting transmission component is installed between the bottom supporting component and the top supporting component through a movable connecting structure, the top supporting component can be adjusted in height on the bottom supporting component through the lifting transmission component, the lifting driving component is installed on the bottom supporting component through the movable connecting structure and is matched with the lifting transmission component, the lifting driving component drives the lifting transmission component to operate, the lifting transmission component drives the top supporting component to adjust the height through the lifting transmission component, the lower body bearing component is installed on the top supporting component through the movable connecting structure and is matched with the upper body bearing component, the upper body bearing component is installed on the top supporting component through the movable connecting structure, the upper body adjusting component is matched with the upper body adjusting component through the movable connecting structure, and the upper body adjusting component is installed on the upper body supporting component through the movable connecting structure, and the upper body adjusting component is adjusted through the movable connecting structure.

In embodiment 1, the bottom support assembly includes a support chassis 110, a support wheel pair 120 and a support bottom frame 130, the support chassis is formed by square pipe joint and is arranged along the transverse direction, the support wheel pair is installed at the bottom of the support chassis, the support chassis can move on the ground through the support wheel pair, and the support bottom frame is formed by square pipe joint, is fixedly installed at the top of the support chassis and extends to the upper side of the support chassis.

The top support assembly comprises a support stand 210, a support top frame 220 and a transfer support 230, wherein the support stand is positioned above the support bottom frame and is vertically arranged, the support top frame is formed by adopting square pipes in a joint mode, is fixed at the top of the support stand and is positioned above the support bottom frame, and the transfer support is arranged at the top of the support top frame and protrudes above the support top frame.

The lifting transmission assembly comprises a transmission underframe 310 and a transmission top frame 320, wherein the transmission underframe is positioned between the support underframe and the support vertical frame, one end of the transmission underframe is connected to the bottom of the support underframe through a rotating structure, the other end of the transmission underframe is connected to the bottom of the support vertical frame through a rotating structure, the transmission top frame is positioned between the support underframe and the support vertical frame, one end of the transmission top frame is connected to the top of the support underframe through a rotating structure, the other end of the transmission underframe is connected to the middle of the support vertical frame through a rotating structure, and the transmission underframe and the transmission top frame are mutually parallel.

The lifting driving assembly comprises a lifting push rod 400, one end of the lifting push rod is arranged on the supporting chassis through a hinge structure, the other end of the lifting push rod is connected to the middle part of the transmission top frame through the hinge structure, the lifting push rod drives the transmission top frame to deflect, and the transmission bottom frame is driven to deflect together, so that the supporting vertical frame and the supporting top frame ascend or descend.

The lower body supporting member comprises a lower body bracket 510 and a lower body cushion 520, the lower body bracket is disposed on the supporting top frame, the rear end of the lower body bracket is connected with the adapting support through a rotating shaft, the deflection angle can be adjusted on the supporting top frame, the front end of the lower body bracket extends to the front of the supporting top frame, the lower body cushion is mounted on the surface of the lower body bracket, the deflection angle can be adjusted along with the lower body bracket, and the lower body cushion supports the lower part of the body.

The lower body adjusting assembly comprises a lower body push rod 600, one end of the lower body push rod is arranged in the middle of the supporting vertical frame through a hinge structure, the other end of the lower body push rod is connected to the bottom of the lower body bracket through the hinge structure, and the deflection angles of the lower body bracket and the lower body liner are adjusted through the lower body push rod.

The upper body supporting member comprises an upper body bracket 710 and an upper body packing 720, the upper body bracket is disposed on the supporting top frame, the front end thereof is connected with the adapter support through a rotation shaft, the deflection angle can be adjusted on the supporting top frame, the rear end thereof extends to the rear of the supporting top frame, the upper body packing is mounted on the surface of the upper body bracket, the deflection angle can be adjusted along with the upper body bracket, and the upper body packing supports the upper part of the body.

The upper body adjusting assembly comprises an upper body push rod 800, one end of the upper body push rod is arranged on the transmission top frame through a hinge structure, the other end of the upper body push rod is connected to the bottom of the upper body bracket through a hinge structure, and the upper body push rod adjusts the deflection angle of the upper body bracket and the upper body liner.

In embodiment 2, the bottom support assembly includes a support chassis 110, a support wheel set 120 and a support bottom frame 130, the support chassis is formed by square pipe joint and is arranged along the transverse direction, the support wheel set is installed at the bottom of the support chassis, the support chassis can move on the ground through the support wheel set, and the support bottom frame is formed by square pipe joint, is fixedly installed at the top of the support chassis and extends to the upper side of the support chassis.

In this embodiment, the supporting chassis and the supporting bottom frame are respectively formed by joining square tubes.

In this embodiment, a reinforcing bottom rod 140 extending in an oblique direction is disposed between the supporting chassis and the supporting bottom frame, and the connecting portion between the supporting bottom frame and the supporting chassis is structurally reinforced by the reinforcing bottom rod.

The top support assembly comprises a support stand 210, a support top frame 220 and a transfer support 230, wherein the support stand is positioned above the support bottom frame and is vertically arranged, the support top frame is formed by adopting square pipes in a joint mode, is fixed at the top of the support stand and is positioned above the support bottom frame, and the transfer support is arranged at the top of the support top frame and protrudes above the support top frame.

In this embodiment, the supporting stand and the supporting top frame are respectively formed by joining square tubes.

In this embodiment, a reinforcing rod 240 extending in an oblique direction is provided between the support stand and the support top frame, and the connection portion between the support top frame and the support stand is structurally reinforced by the reinforcing rod.

The lifting transmission assembly comprises a transmission underframe 310 and a transmission top frame 320, wherein the transmission underframe is positioned between the support underframe and the support vertical frame, one end of the transmission underframe is connected to the bottom of the support underframe through a rotating structure, the other end of the transmission underframe is connected to the bottom of the support vertical frame through a rotating structure, the transmission top frame is positioned between the support underframe and the support vertical frame, one end of the transmission top frame is connected to the top of the support underframe through a rotating structure, the other end of the transmission underframe is connected to the middle of the support vertical frame through a rotating structure, and the transmission underframe and the transmission top frame are mutually parallel.

In this embodiment, the transmission bottom frame and the transmission top frame are respectively formed by square tube joint.

The lifting driving assembly comprises a lifting push rod 400, one end of the lifting push rod is arranged on the supporting chassis through a hinge structure, the other end of the lifting push rod is connected to the middle part of the transmission top frame through the hinge structure, the lifting push rod drives the transmission top frame to deflect, and the transmission bottom frame is driven to deflect together, so that the supporting vertical frame and the supporting top frame ascend or descend.

In this embodiment, the lifting push rod is an electric push rod.

The lower body supporting member comprises a lower body bracket 510 and a lower body cushion 520, the lower body bracket is disposed on the supporting top frame, the rear end of the lower body bracket is connected with the adapting support through a rotating shaft, the deflection angle can be adjusted on the supporting top frame, the front end of the lower body bracket extends to the front of the supporting top frame, the lower body cushion is mounted on the surface of the lower body bracket, the deflection angle can be adjusted along with the lower body bracket, and the lower body cushion supports the lower part of the body.

In this embodiment, the lower body bracket is provided with a pair of leg brackets 530, each of which is mounted on both sides of the lower body bracket by a movable connection structure, and supports the legs.

In this embodiment, the lower body bracket is provided with a pair of holding handles 540, and each holding handle is respectively mounted on two sides of the lower body bracket through a movable connection structure for holding by the hands.

The lower body adjusting assembly comprises a lower body push rod 600, one end of the lower body push rod is arranged in the middle of the supporting vertical frame through a hinge structure, the other end of the lower body push rod is connected to the bottom of the lower body bracket through the hinge structure, and the deflection angles of the lower body bracket and the lower body liner are adjusted through the lower body push rod.

In this embodiment, the lower body push rod is an electric push rod.

The upper body supporting member comprises an upper body bracket 710 and an upper body packing 720, the upper body bracket is disposed on the supporting top frame, the front end thereof is connected with the adapter support through a rotation shaft, the deflection angle can be adjusted on the supporting top frame, the rear end thereof extends to the rear of the supporting top frame, the upper body packing is mounted on the surface of the upper body bracket, the deflection angle can be adjusted along with the upper body bracket, and the upper body packing supports the upper part of the body.

The upper body adjusting assembly comprises an upper body push rod 800, one end of the upper body push rod is arranged on the transmission top frame through a hinge structure, the other end of the upper body push rod is connected to the bottom of the upper body bracket through a hinge structure, and the upper body push rod adjusts the deflection angle of the upper body bracket and the upper body liner.

In this embodiment, the upper body push rod is an electric push rod.

In this embodiment, a driving power supply 150 is disposed on the supporting chassis, and the upper body push rod, the lower body push rod and the lifting push rod are respectively connected with the driving power supply through driving circuits, and are powered by the driving power supply.

In this embodiment, the supporting chassis is further provided with an operating pedal 160, and the upper body push rod, the lower body push rod and the lifting push rod are respectively communicated with the operating pedal through control circuits, so that the operating states of the upper body push rod, the lower body push rod and the lifting push rod can be controlled through the operating pedal, and the heights and angles of the upper body liner and the lower body liner can be adjusted.

The medical examination bed adopts the transmission underframe and the transmission roof frame to movably connect the support underframe and the support vertical frame, combines the lifting push rod matched with the transmission underframe to enable the support roof frame to be capable of adjusting the height above the support underframe, adopts the rotating structure to install the lower body bracket on the support roof frame, combines the lower body push rod matched with the lower body bracket to enable the lower body bracket and the lower body liner to be capable of adjusting the deflection angle on the support roof frame, adopts the rotating structure to install the upper body bracket on the support roof frame, combines the upper body push rod matched with the rotating structure to enable the upper body bracket and the upper body liner to be capable of adjusting the deflection angle on the support roof frame, and the upper body push rod, the lower body push rod and the lifting push rod are all controlled by adopting electric push rods, can be controlled by the corresponding control pedals respectively, and can adjust the state of the medical examination bed in multiple directions, so that the use flexibility of the medical examination bed is improved.

In the description of the present utility model, it should be noted that, when terms such as "upper", "lower", "inner", "outer", "left", "right", and the like indicate orientations or positional relationships, are to be understood as being based on the orientations or positional relationships shown in the drawings, or the orientations or positional relationships conventionally put in use of the inventive product, or the orientations or positional relationships conventionally understood by those skilled in the art, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, when used herein, are used merely for distinguishing between descriptions and not for indicating or implying a relative importance. In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, terms such as "mounted," "configured," and "connected" are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Claims (9)

1. A medical examination table having a multidirectional adjustment structure, comprising:

a bottom support assembly having a load-bearing space therein and being movable on a floor;

a top support assembly above the bottom support assembly, the top support assembly having an installation space therein;

the lifting transmission assembly is arranged between the bottom support assembly and the top support assembly through a movable connection structure;

the lifting driving assembly is arranged on the bottom supporting assembly through a movable connecting structure and is matched with the lifting transmission assembly;

a lower torso support assembly mounted to the top support assembly by a articulating mechanism, the lower torso support assembly being angularly adjustable on the top support assembly;

the lower body adjusting assembly is arranged on the top supporting assembly through a movable connecting structure and is matched with the lower body bearing assembly;

an upper body support assembly mounted to the top support assembly by a flexible connection structure, the upper body support assembly being angularly adjustable on the top support assembly;

and the upper body adjusting assembly is arranged on the lifting transmission assembly through a movable connecting mechanism and is matched with the upper body bearing assembly.

2. The medical examination couch with multi-way adjustment structure of claim 1, wherein the bottom support assembly comprises:

the support chassis is formed by adopting square pipes in a joint mode and is arranged along the transverse direction;

the support wheel pair is arranged at the bottom of the support chassis;

the support underframe is formed by adopting square pipes in a joint mode, is fixedly arranged at the top of the support chassis and extends to the upper side of the support chassis.

3. The medical examination couch with multi-way adjustment structure of claim 2, wherein the top support assembly comprises:

the supporting stand is positioned above the supporting bottom frame and is vertically arranged, and the height of the supporting stand is larger than that of the supporting bottom frame;

the supporting top frame is formed by adopting square pipes in a joint mode, is fixed at the top of the supporting vertical frame and is positioned above the supporting bottom frame;

the switching support is arranged at the top of the supporting top frame and protrudes above the supporting top frame.

4. A medical examination bed with a multidirectional adjustment structure according to claim 3, wherein the elevation drive assembly includes:

the transmission underframe is positioned between the support underframe and the support vertical frame, one end of the transmission underframe is connected to the bottom of the support underframe through a rotating structure, and the other end of the transmission underframe is connected to the bottom of the support vertical frame through a rotating structure;

the transmission roof rack is positioned between the supporting underframe and the supporting vertical frame, one end of the transmission roof rack is connected to the top of the supporting underframe through a rotating structure, the other end of the transmission roof rack is connected to the middle of the supporting vertical frame through a rotating structure, and the transmission underframe and the transmission roof rack are mutually parallel.

5. The medical examination couch with the multi-directional adjustment structure as set forth in claim 4, wherein the elevation drive assembly comprises:

and one end of the lifting push rod is arranged on the supporting chassis through a hinge structure, and the other end of the lifting push rod is connected to the middle part of the transmission top frame through a hinge structure.

6. A medical examination bed with multidirectional adjustment structure according to claim 3, wherein the lower body support assembly comprises:

the lower body bracket is arranged on the supporting top frame, the rear end of the lower body bracket is connected with the switching support through a rotating shaft, and the front end of the lower body bracket extends to the front of the supporting top frame;

the lower body pad is arranged on the surface of the lower body bracket and can adjust the deflection angle along with the lower body bracket.

7. The medical examination couch with the multi-directional adjustment structure of claim 6, wherein the lower body adjustment assembly comprises:

one end of the lower body push rod is arranged in the middle of the supporting vertical frame through a hinge structure, and the other end of the lower body push rod is connected to the bottom of the lower body bracket through a hinge structure.

8. A medical examination bed with multidirectional adjustment structure according to claim 4, wherein the upper body support assembly comprises:

the upper body bracket is arranged on the supporting top frame, the front end of the upper body bracket is connected with the switching support through a rotating shaft, and the rear end of the upper body bracket extends to the rear of the supporting top frame;

an upper body cushion mounted on the upper body bracket surface and capable of adjusting a deflection angle along with the upper body bracket.

9. The medical examination bed with multi-directional adjustment structure according to claim 8, wherein the upper body adjustment assembly comprises:

one end of the upper body push rod is arranged on the transmission top frame through a hinge structure, and the other end of the upper body push rod is connected to the bottom of the upper body bracket through a hinge structure.