CN217696608U - A position adjustment equipment for X ray radiography inspection - Google Patents

Abstract

The utility model discloses a position adjustment equipment for X line radiography inspection, include: the examination bed comprises an examination bed body, wherein the examination bed body comprises a bed plate, a supporting seat, a pedal and a foot fixing part, the bed plate is connected with the supporting seat, the bed plate is provided with a foot end, the pedal is connected with the foot end of the bed plate and is vertically arranged with the upper surface of the bed plate, and the foot fixing part is connected with the pedal; the adjusting component comprises a second rotation driving component, the second rotation driving component is connected with the bed board, the output end of the second rotation driving component extends along the length direction of the bed board, and the output end of the second rotation driving component is connected with the pedal so as to drive the pedal to rotate around the output end of the second rotation driving component; the inspection instrument is connected with the bed plate; the first controller, the inspection instrument and the second rotary driving part are respectively electrically connected with the first controller. The utility model discloses the position when can letting the examiner adjust the inspection by oneself need not the doctor and adjusts the position of examiner in person.

Description

A position adjustment equipment for X ray radiography inspection

Technical Field

The utility model relates to a medical imaging check out test set technical field, especially a position adjustment equipment for X-ray radiography inspection.

Background

During the radiography examination process, a doctor needs to communicate with an examiner for many times according to an examination flow, and instructs the examiner to adjust the body position of the examiner according to a certain body position sequence and shoot the body position. Since X-rays are harmful to the human body, physicians, as long workers, need to remotely manipulate machines to reduce X-ray damage to the body. However, in the actual examination process, a doctor remotely communicates with an examiner through a microphone at a remote place, the examiner cannot adjust the body position by himself/herself due to language obstruction or limited comprehension degree of the examiner, and in order to adjust the examiner to an ideal body position in the medical examination, the doctor has to physically enter an examination room to adjust the body position of the examiner, which requires much time and effort, and affects work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a position adjustment equipment for X ray radiography inspection.

The utility model provides a solution of its technical problem is:

a body position adjustment device for X-ray radiography examinations, comprising:

the examination bed comprises an examination bed body, a support seat, a pedal and a foot fixing part, wherein the examination bed body comprises a bed plate, the support seat, the pedal and the foot fixing part, the bed plate is movably connected with the support seat, the bed plate is provided with a foot end, the pedal is connected with the foot end of the bed plate and is arranged vertically to the upper surface of the bed plate, and the foot fixing part is connected with the pedal;

the adjusting component comprises a second rotation driving component, the second rotation driving component is connected with the bed board, the output end of the second rotation driving component extends along the length direction of the bed board, and the output end of the second rotation driving component is connected with the pedal so as to drive the pedal to rotate around the output end of the second rotation driving component;

the inspection instrument is positioned on the left side or the right side of the bed plate and is connected with the bed plate;

the inspection instrument and the second rotary driving part are respectively electrically connected with the first controller.

The utility model discloses following beneficial effect has at least: the body position of the examiner can be automatically adjusted by the guide of the foot fixing part so as to achieve an ideal examination effect, a doctor does not need to enter an examination room to adjust the body position of the examiner, the examination time is saved, and the working efficiency is improved; the inspection instrument is connected with the bed plate, the bed plate is movably connected with the supporting seat, and the bed plate can be adjusted to be in a horizontal state or a vertical state; when the bed board is in a vertical state, as the second rotary driving component is arranged, a doctor can control the second rotary driving component according to actual requirements so as to control the pedal to rotate, so that the foot fixing component rotates to guide the examiner to change the body position, and the aims of shooting the front and back position, the back and front position, the side position and the double inclined position can be fulfilled; in addition, for the active examiners such as children, the examiners cannot change the body positions at will in the examination process due to the fixation of the foot fixing parts, so that the whole examination process is smoother.

As a further improvement of the above technical solution, the adjusting component further includes a first rotation driving component, the supporting seat is provided with a rotation disc, the bed plate is connected with the rotation disc, an output end of the first rotation driving component is connected with the rotation disc to drive the rotation disc to rotate around an axis extending left and right, and the first rotation driving component is electrically connected with the first controller. The adjusting component is arranged, so that the bed plate and the examination instrument can rotate along with the rotating disk, and the gastrointestinal change of the human body from the vertical state to the horizontal state or from the horizontal state to the vertical state and the position of a barium meal can be shot in real time.

As a further improvement of the above technical solution, the adjusting component further includes a slider and a first linear driving component, the bed plate is provided with a moving track, an extending direction of the moving track is consistent with a length direction of the bed plate, the slider is slidably connected to the moving track, the inspection instrument is connected to the slider, an output end of the first linear driving component is connected to the slider to drive the slider and the inspection instrument to move along the extending direction of the moving track, and the first linear driving component is electrically connected to the first controller. By the arrangement, the relative position of the inspection tester and the bed plate can be adjusted according to the body type of the inspector, so that the inspection tester can accurately shoot the position to be inspected, the inspector is not required to move the body, the communication time with the inspector can be further saved, and the working efficiency is improved.

As a further improvement of the above technical solution, the adjusting component further includes a second linear driving component, the second linear driving component is connected to the bed plate, an output end of the second linear driving component is connected to the second rotation driving component to drive the second rotation driving component to move in a direction perpendicular to the upper surface of the bed plate, and the second linear driving component is electrically connected to the first controller.

So set up, when the bed board is in vertical state, the inspector stands on the footboard, the doctor can be according to inspector's size control second straight line drive parts, keep away from or be close to the bed board with control second rotary driving parts, make the inspector can separate or laminate with the bed board, the doctor controls second rotary driving parts according to actual demand again, rotate with the control footboard, can let the inspector who stands on the footboard rotate along with the rotation of footboard, thereby change inspector's position, can reach and shoot front and back position, back front position, the purpose of side position and double-inclined position, the time of communicating with the patient has been saved greatly, and the work efficiency is improved.

As a further improvement of the above technical solution, the foot fixing part includes two fixing blocks, the fixing blocks are connected with the pedal, and the fixing blocks are hollow to form a cavity facing away from the opening of the pedal. So set up, the inspector can stretch into the cavity with the foot, because the inner wall of cavity restricts in the face of inspector's foot, the inspector is difficult for taking place relative rotation at footboard pivoted in-process and footboard, and when doctor passed through controller control footboard and rotated, the inspector also can rotate thereupon to shoot a plurality of positions.

As a further improvement of the above technical solution, the foot fixing component further includes a fixing plate and a third linear driving component, the fixing plate has a first connecting end and a second connecting end, the fixing plate is provided with a first through hole and a second through hole, the first through hole and the second through hole are respectively located at two sides of the cavity, the first connecting end is movably connected with a hole wall of the first through hole, the second connecting end is movably connected with a hole wall of the second through hole, an output end of the third linear driving component is connected with the first connecting end to drive the fixing plate to move in a direction perpendicular to the pedal, and the third linear driving component is electrically connected with the first controller.

With the arrangement, the third linear driving component can control the first connecting end to move in the first through hole, if the bed board is in a vertical state, when the third linear driving component drives the first connecting end to move upwards, the second connecting end can be separated from the second through hole, so that a gap is formed between the fixing plate and the upper surface of the fixing block, the gap is communicated with the cavity, and an inspector can place feet into the cavity; when the third linear driving component drives the first connecting end to move downwards, the second connecting end is connected with the hole wall of the second through hole, and the inner wall surface of the cavity and the lower surface of the fixing plate form a fixing hole for accommodating the foot of the inspector together, so that the foot of the inspector is locked in the cavity, and the foot of the inspector is prevented from falling out of the cavity; in addition, through the drive of third linear driving part, can adjust the size of fixed orifices, be applicable to the examiner that the fat thin difference of foot.

As a further improvement of the above technical solution, the bed plate has a head end, the head end is provided with a headrest and a fourth linear driving component, an output end of the fourth linear driving component is connected with the headrest to drive the headrest to move along an extending direction of the bed plate, and the fourth linear driving component is electrically connected with the first controller. So set up, can further guide the inspector to lie on the bed board with correct orientation to through the regulation of fourth linear drive part, the headrest can be according to inspector's height adjustment position, lets the inspector relax the mood at the in-process of inspection, reaches better inspection effect.

As a further improvement of the above technical solution, the bed board is further provided with two handrails, and the two handrails are connected with the upper surface of the bed board and are respectively located on two sides of the bed board. The handrail is arranged, so that an inspector can be guided to place hands on the handrail, the hand of the inspector is prevented from influencing the position of the inspector, such as the abdomen, and the like, and the inspector can be prevented from rolling off the bed board.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

Fig. 1 is a schematic overall structure diagram of a posture adjustment device for X-ray radiography examination according to an embodiment of the present invention;

FIG. 2 is a left side view of a posture adjustment device for X-ray radiography according to an embodiment of the present invention;

fig. 3 is a left side view of the posture adjusting device for X-ray radiography examination according to another state of the present invention;

FIG. 4 is a rear view of a posture adjustment device for X-ray radiography according to an embodiment of the present invention;

FIG. 5 is a top view of a posture adjustment device for radiography according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a pedal according to an embodiment of the present invention.

Reference numerals: 100. a bed board; 110. a pedal; 111. a second rotation driving member; 112. a second linear drive member; 113. a fixed block; 114. a cavity; 115. a fixing plate; 116. a first connection end; 117. a second connection end; 118. a third linear drive member; 120. a headrest; 121. a fourth linear drive component; 130. a handrail; 140. a support plate; 200. a supporting seat; 210. rotating the disc; 300. an inspection instrument; 310. a slide block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments to be described below with reference to the accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, the directional descriptions, such as the directions or positional relationships indicated by upper, lower, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of meanings are one or more, a plurality of meanings are two or more, and the terms greater than, smaller than, exceeding, etc. are understood as excluding the number, and the terms greater than, lower than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. The utility model provides an each technical feature can the interactive combination under the prerequisite of conflict each other.

Referring to fig. 1 to 6, an embodiment of the present invention provides a posture adjusting apparatus for X-ray radiography, including a bed body, an examination apparatus 300, an adjusting member and a first controller.

The inspection bed comprises a bed plate 100 and a support seat 200, an inspection instrument 300 is positioned on the left side or the right side of the bed plate 100 and is fixedly connected with the bed plate 100, specifically, a fixed seat is arranged on the left side surface of the bed plate 100, the inspection instrument 300 is arranged on the fixed seat, the bed plate 100 is movably connected with the support seat 200, and the bed plate 100 can be adjusted to be in a horizontal state or a vertical state; the supporting seat 200 plays a role of supporting, so that the bed plate 100 and the inspection tester 300 can be stably placed.

The inspection apparatus 300 is electrically connected to the first controller, and under the control of the physician, the first controller can control the inspection apparatus 300 to perform the X-ray radiography inspection on the examinee. It can be understood that the first controller may be a single chip, a PLC first controller, etc., and may implement a simple function of controlling the operation of the inspection tester 300.

The adjusting component can adjust the physical state of the examiner and comprises a first rotary driving component, the supporting seat 200 is provided with a rotary disk 210, the rotary disk 210 is vertically arranged, the rotary disk 210 is connected with the output end of the first rotary driving component, and the rotary disk 210 can rotate on a vertical plane around an axis extending from left to right under the driving of the first rotary driving component. It can be understood that the rotating disc 210 is fixedly connected with the top board 100, and when the rotating disc 210 rotates, the top board 100 also rotates along with the rotation of the rotating disc 210, so that the included angle between the top board 100 and the horizontal plane can be changed, and finally the support base 200 and the top board 100 are movably connected. It is understood that the first rotation driving part is fixed on the supporting base 200 and electrically connected to a first controller, and the first controller can control the start and stop of the first rotation driving part.

In this embodiment, the first rotation driving part is a first motor, and it is understood that the first motor has a body and an output shaft, the body of the first motor is connected with the supporting base 200, and the output shaft of the first motor is connected with the rotating disc 210 through a gear transmission structure or the like.

It is understood that when X-ray examination is performed, especially abdominal examination, since the densities of various internal organs and tissues are substantially similar, a contrast medium (e.g., medical barium sulfate) harmless to the human body must be introduced to artificially improve the contrast of the display to achieve a desired examination effect. Before the examination, the examiner needs to take a contrast medium such as a barium meal, and the doctor controls the rotation of the rotating disk 210 to rotate the bed plate 100, the examination apparatus 300, and the human body lying on the bed plate 100, thereby enabling dynamic imaging to observe and image the gastrointestinal motility and the position of the barium meal of the examiner in real time, and accelerating the speed of the barium meal entering the intestines and stomach when the bed plate 100 is rotated to be upright.

In some embodiments, the adjusting component further includes a slider 310 and a first linear driving component, the side of the top board 100 is provided with a moving track, the moving track extends along the length direction of the top board 100, that is, when the top board 100 is erected, the moving track extends along the up-down direction, the slider 310 is connected with the moving track and can move along the extending direction of the moving track on the moving track, the slider 310 is connected and fixed with the inspection instrument 300, and when the slider 310 moves, the inspection instrument 300 also moves along the extending direction of the moving track.

It can be understood that the first linear driving component is electrically connected to the first controller, the first linear driving component has an output end, the output end of the first linear driving component is connected to the sliding block 310, and the sliding block 310 drives the inspection instrument 300 to move along the extending direction of the moving track under the driving of the first linear driving component.

It will be appreciated that the first linear drive member may be an electric cylinder, a lead screw drive mechanism or the like. By arranging the first linear driving part and the sliding block 310, a doctor can adjust the relative position of the inspection instrument 300 and the bed plate 100 according to the body type of an inspector, so that the inspection instrument 300 can accurately shoot the position to be inspected, the inspector does not need to move the body, the communication time with the inspector can be further saved, and the working efficiency is improved.

In some embodiments, the bed plate 100 has a foot end and a head end, wherein the head end of the bed plate 100 is provided with a headrest 120 and a fourth linear driving member 121, and the headrest 120 may be slidably connected with the bed plate 100 through a sliding rail and slider structure, so that the headrest 120 can move along the extending direction of the bed plate 100. The fourth linear driving member 121 has an output end, and the output end of the fourth linear driving member 121 is connected to the headrest 120.

It is understood that the fourth linear driving part 121 may be an electric cylinder, an air cylinder, etc., and is not particularly limited thereto. The headrest 120 is movable in the longitudinal direction of the bed plate 100 by the fourth linear driving member 121, and the position of the headrest 120 on the bed plate 100 can be adjusted.

It can be understood that the fourth linear driving component 121 is electrically connected to the first controller, and by providing the headrest 120 and the fourth linear driving component 121, the examiner can be guided to lie on the bed board 100 in the correct direction, and the physician can adjust the position of the headrest 120 according to the height of the examiner, so that the examiner feels more comfortable during the examination process, and a better examination effect is achieved.

It should be noted that, in the present embodiment, the examining table body further includes a pedal 110 and a foot fixing component, and the foot fixing component is connected with the pedal 110 and has a fixing effect on the body (especially the foot) of the examiner.

It can be understood that, through the guide of foot fixing part, the position when can let the examiner adjust the inspection by oneself need not the doctor and gets into the inspection room and adjust the position of examiner in person, just can reach the inspection position of ideal, has saved check-out time, improves work efficiency. Moreover, for an active examiner such as a child, the examiner may roll or turn over on the bed plate 100 during the examination, and due to the fixation of the foot fixing parts, the examiner is not easy to change the posture at will during the examination, so that the whole examination process is smoother.

In the present embodiment, the pedal 110 is vertically disposed on the upper surface of the bed board 100. The footboard 110 is provided to guide the examiner to lie on the bed plate 100 correctly, or when the bed plate 100 is in an upright state, the footboard 110 can guide the examiner to stand at a correct position, and when the bed plate 100 rotates, the footboard 110 can provide a supporting force for the examiner's feet to prevent the examiner from sliding down on the bed plate 100.

It can be understood that before the X-ray examination, the examiner is generally required to stand to take the barium meal orally, if the examiner lies down to take the barium meal, the examiner is easy to choke, and after taking the barium meal, the barium meal needs to be tracked in time, so before the examination, the bed board 100 is in the vertical state, the pedal 110 is in the horizontal state, and the examiner can perform the examination only by standing on the pedal 110. When the rotating disc 210 rotates, the human body also rotates with the rotation of the top board 100, supported by the pedals 110. Thus, the movement of the examiner to lie on the bed board 100 is simplified, and the work efficiency is improved.

In this embodiment, the adjusting member further includes a second rotation driving member 111, the second rotation driving member 111 is connected to the top board 100, and an output end of the second rotation driving member 111 extends along a length direction of the top board 100, that is, when the top board 100 is in a horizontal state, a central axis of the output end of the second rotation driving member 111 extends along a front-rear direction. The output end of the second rotation driving component 111 is connected with the pedal 110, and can drive the pedal 110 to rotate so as to change the direction of the foot fixing component, thereby guiding the examiner to change the body position.

In some embodiments, the adjusting member further includes a second linear driving member 112, the second linear driving member 112 is connected to the bed plate 100, and an output end of the second linear driving member 112 is connected to the second rotation driving member 111.

It can be understood that the second rotary driving member 111 can be moved in a direction perpendicular to the upper surface of the bed plate 100 by the second linear driving member 112, that is, the second rotary driving member 111 can be moved in an up-and-down direction by the second linear driving member 112 when the bed plate 100 is in a horizontal state.

In addition, since the output end of the second rotation driving member 111 is connected to the pedal 110, the pedal 110 can be rotated by the driving of the second rotation driving member 111, thereby allowing the examiner standing on the pedal 110 to rotate. It can be understood that the second linear driving component 112 and the second rotational driving component 111 are respectively electrically connected to the first controller, and the physician can control the components according to actual requirements.

It is understood that the second linear driving part 112 may be a cylinder, an electric cylinder, etc., and is not particularly limited thereto. In this embodiment, the second rotary driving part 111 is a second motor having a body and an output shaft, the body of the second motor is connected to the output end of the second linear driving part 112, and the output shaft of the second motor can be connected to the pedal 110 through a shaft coupling, a gear transmission structure, and the like.

In the actual operation process, the bed plate 100 is in the upright state, the examiner stands on the pedals 110 and is in a body position leaning against the bed plate 100, if the examiner needs to rotate to other body positions, the doctor controls the second linear driving component 112 to enable the second rotary driving component 111 and the pedals 110 to move forwards, the body of the examiner is separated from the bed plate 100 firstly, then the second rotary driving component 111 is controlled to enable the pedals 110 and the examiner on the pedals 110 to rotate to a target body position, then the second linear driving component 112 is controlled to enable the second rotary driving component 111 and the pedals 110 to move backwards, the body of the examiner is attached to the bed plate 100, and then the first rotary driving component and the examination instrument 300 are controlled to carry out further examination.

During the period of adjusting the body position, due to the action of the second rotary driving component 111 and the second linear driving component 112, a doctor does not need to enter the examination room in person to adjust the body position of the examinee, the time for the doctor to get in and out of the examination room is reduced, and the working efficiency is improved.

In the present embodiment, the deck 100 is provided with a support plate 140, and the support plate 140 is used to support the second linear driving part 112 and the second rotational driving part 111.

As shown in fig. 3, when the bed board 100 is in a vertical state, if a human body stands on the pedal 110, the downward pressure on the output end of the second linear driving part 112 may damage the second linear driving part 112, a supporting plate 140 is provided, the output end of the second linear driving part 112 is provided with a connecting seat, the connecting seat is connected with the supporting plate 140 through a sliding rail and slider structure, and the second rotary driving part 111 is arranged on the connecting seat, so that the damage of the standing of the human body to the second linear driving part 112 can be reduced.

In some embodiments, the foot fixing component includes two fixing blocks 113, the two fixing blocks 113 are disposed on the footboard 110 and are connected and fixed with the footboard 110, in this embodiment, the fixing blocks 113 are hollow to form a cavity 114, the cavity 114 is opened back to the footboard 110, and when the bed board 100 is in the standing state, the opening of the cavity 114 faces upward.

It can be understood that, with such an arrangement, the examiner places both feet into the cavity 114 under the guidance of the fixing block 113, and the examiner is not easy to change the posture under the restriction of the inner wall surface of the cavity 114, and during the rotation of the pedal 110, the examiner will rotate along with the rotation of the pedal 110, and will not easily rotate relative to the pedal 110.

In this embodiment, the cavity 114 is configured to be foot-shaped, which can further guide the examiner to correctly insert the foot into the cavity 114.

In some embodiments, the foot securing element further comprises a securing plate 115 and a third linear drive element 118, the third linear drive element 118 being electrically connected to the first controller.

Specifically, the fixing plate 115 is provided with a first connecting end 116 and a second connecting end 117, the fixing block 113 is provided with a first through hole and a second through hole, the extending directions of the first through hole and the second through hole are perpendicular to the pedal 110, the first through hole and the second through hole are respectively arranged on two sides of the cavity 114, the first connecting end 116 is movably connected with the hole wall of the first through hole, and the second connecting end 117 is movably connected with the hole wall of the second through hole.

In addition, the third linear driving member 118 has an output end, the output end of the third linear driving member 118 is connected to the first connection end 116, and the first connection end 116 moves in the extending direction of the first through hole by the driving of the third linear driving member 118.

In this embodiment, the length of the first connection end 116 is greater than that of the second connection end 117, and when the bed board 100 is in the erected state, that is, the pedal 110 is in the horizontal state, the third linear driving member 118 drives the first connection end 116 to move upward, so that the second connection end 117 can be separated from the second through hole, and thus a gap is formed between the fixing plate 115 and the upper surface of the fixing block 113, and the gap is communicated with the cavity 114, so that an inspector can place feet into the cavity 114 more conveniently.

When the third linear driving member 118 drives the first connecting end 116 to move downward, the second connecting end 117 is connected to the hole wall of the second through hole, and the inner wall surface of the cavity 114 and the lower surface of the fixing plate 115 together form a fixing hole for accommodating the foot of the examiner, so that the foot of the examiner is locked in the cavity 114, and the foot of the examiner is prevented from being pulled out from the cavity 114.

It can be understood that the size of the fixing hole can be adjusted by the driving of the third linear driving component 118, and the fixing hole is suitable for examiners with different fat and thin feet.

In some embodiments, the lower surface of the fixing plate 115 is a cambered surface, which can increase the contact area with the foot of the examiner, and reduce the pressure of the fixing plate 115 on the foot, thereby reducing the oppressive feeling of the fixing plate 115 on the foot.

In other embodiments, a bungee cord is used in place of the stationary plate 115 and the third linear drive member 118.

In some embodiments, the table board 100 is further provided with a handrail 130, which can guide the examiner to place the hand on the handrail 130, so as to prevent the hand of the examiner from affecting the examination apparatus 300 to examine the abdomen and other positions. In this embodiment, two armrests 130 are provided, and the two armrests 130 are respectively located at the left and right sides of the bed plate 100 and are fixedly connected to the upper surface of the bed plate 100.

It will be appreciated that the provision of the armrests 130 also prevents an inspector (particularly a child) from rolling off the left or right side of the deck 100 and being injured.

In some embodiments, the body position adjusting device for X-ray radiography examination further includes a control component, the first controller is provided with a first signal connection end, the control component is provided with a second signal connection end, and the first signal connection end is connected with the second signal connection end. According to the arrangement, the examining table body, the examining instrument 300, the first controller and other components can be arranged in the examining chamber, the control component is arranged in the control chamber separated from the examining chamber, the first signal connecting end can receive the signal transmitted by the second signal connecting end, the second signal connecting end can also receive the signal transmitted by the first signal connecting end, and a doctor can control the examining table body and the examining instrument 300 in the control chamber to reduce the radiation of X rays to the doctor.

The control component comprises a second controller, an operation panel and a display screen, and the operation panel, the display screen and the second signal connecting end are respectively electrically connected with the second controller. In the actual use process, a doctor controls the operation room through the operation panel, the second signal connection end sends a signal to the first signal connection end, the first signal connection end transmits a control signal to the first controller, and the first controller further controls the first rotary driving part, the second rotary driving part 111, the first linear driving part, the second linear driving part 112, the third linear driving part 118, the fourth linear driving part 121 and the inspection instrument 300, so that the purpose of remote control is achieved. When the inspection instrument 300 is used for inspection, the first controller transmits the acquired image signals to the second signal connecting end through the first signal connecting end, and the second controller displays the image information through the display screen, so that real-time monitoring is realized.

The first signal connecting end and the second signal connecting end can be wired connecting ends or wireless connecting ends. In this embodiment, the first signal connection terminal and the second signal connection terminal are wireless connection terminals, wherein the first signal connection terminal is provided with a first receiver and a first transmitter, and the second signal connection terminal is provided with a second receiver and a second transmitter. The first receiver and the second receiver may be infrared receivers or bluetooth receivers, the first transmitter and the second transmitter may be infrared transmitters or bluetooth transmitters, and the first receiver and the second transmitter are wirelessly connected in communication, which is not limited herein.

The embodiment can control the opening, closing and mode of the checking instrument 300 through wireless communication, and also can control the rotation and movement of the bed board 100, and the checking image acquired by the checking instrument 300 can be transmitted to the control component through wireless communication, the image information is displayed on the display screen, remote control is realized, and a doctor can also check the image information in real time.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are to be included within the scope of the present invention defined by the claims.

Claims (8)

1. A body position adjustment device for X-ray radiography examinations, comprising:

the examination bed comprises an examination bed body, a support seat, a pedal and a foot fixing part, wherein the examination bed body comprises a bed plate, the support seat, the pedal and the foot fixing part, the bed plate is movably connected with the support seat, the bed plate is provided with a foot end, the pedal is connected with the foot end of the bed plate and is arranged vertically to the upper surface of the bed plate, and the foot fixing part is connected with the pedal;

the adjusting component comprises a second rotation driving component, the second rotation driving component is connected with the bed board, the output end of the second rotation driving component extends along the length direction of the bed board, and the output end of the second rotation driving component is connected with the pedal so as to drive the pedal to rotate around the output end of the second rotation driving component;

the inspection instrument is positioned on the left side or the right side of the bed plate and is connected with the bed plate;

the inspection instrument and the second rotary driving part are respectively electrically connected with the first controller.

2. The posture adjusting apparatus for X-ray radiography examination as claimed in claim 1, wherein the adjusting member further comprises a first rotary driving member, the supporting base is provided with a rotating disk, the bed plate is connected with the rotating disk, an output end of the first rotary driving member is connected with the rotating disk to drive the rotating disk to rotate around an axis extending from left to right, and the first rotary driving member is electrically connected with the first controller.

3. The posture adjusting apparatus for X-ray radiography examination as claimed in claim 2, wherein the adjusting member further comprises a slide block and a first linear driving member, the bed plate is provided with a moving track, the extending direction of the moving track is consistent with the length direction of the bed plate, the slide block is slidably connected with the moving track, the examination instrument is connected with the slide block, the output end of the first linear driving member is connected with the slide block to drive the slide block and the examination instrument to move along the extending direction of the moving track, and the first linear driving member is electrically connected with the first controller.

4. The apparatus of claim 2, wherein the adjusting member further comprises a second linear driving member, the second linear driving member is connected to the table, an output end of the second linear driving member is connected to the second rotary driving member to drive the second rotary driving member to move in a direction perpendicular to an upper surface of the table, and the second linear driving member is electrically connected to the first controller.

5. A body position adjustment device for X-ray radiographic examinations according to claim 4 characterized in that the foot fixation means comprises two fixation blocks connected with the footplate, the fixation blocks being hollow forming a cavity opening away from the footplate.

6. The position adjusting apparatus for X-ray radiography examination according to claim 5, wherein the foot fixing component further comprises a fixing plate and a third linear driving component, the fixing plate has a first connecting end and a second connecting end, the fixing plate is provided with a first through hole and a second through hole, the first through hole and the second through hole are respectively located at two sides of the cavity, the first connecting end is movably connected with a hole wall of the first through hole, the second connecting end is movably connected with a hole wall of the second through hole, an output end of the third linear driving component is connected with the first connecting end to drive the fixing plate to move in a direction perpendicular to the pedal, and the third linear driving component is electrically connected with the first controller.

7. A posture adjustment apparatus for X-ray radiography according to claim 1, wherein the bed plate has a head end, the head end is provided with a headrest and a fourth linear driving member, an output end of the fourth linear driving member is connected with the headrest to drive the headrest to move along an extending direction of the bed plate, and the fourth linear driving member is electrically connected with the first controller.

8. A posture adjustment device for X-ray radiography examination as claimed in claim 1, wherein the bed plate is further provided with two handrails, and the two handrails are connected with the upper surface of the bed plate and respectively located at two sides of the bed plate.

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