CN114170721B - Full-automatic digital X-ray inspection system based on door body - Google Patents

Abstract

The invention discloses a full-automatic digital X-ray inspection system based on a door body, and relates to the technical field of medical protection. The invention comprises an access control device; the door control device comprises a sliding rail, a left wall body, a right wall body and a door body, wherein the left wall body and the right wall body are connected to the two corresponding sides of the sliding rail; the door body is formed by assembling a plurality of door plates, and the door plates are connected with each other through T-shaped plates; the door plate is a U-shaped plate; the bottom of one side wall of the U-shaped plate is provided with an anti-unhooking hook; a limit column is arranged in the middle of the other side wall of the U-shaped plate; the T-shaped plate is fixed on the top wall of the U-shaped plate; the T-shaped plate is arranged in the front door plate in a sliding way; the front side of the door plate is hinged with a lead plate through a torsion spring; lead strips are arranged on one side of the lead plate. According to the intelligent imaging device, the door body formed by the plurality of door plates is pushed and pulled through the hydraulic rod, the information of the detector is confirmed by utilizing the double locking positions of the trigger switch and the sensing components, the computer room intellectualization of the intelligent imaging device is improved, and the labor intensity of medical staff is reduced.

Description

Full-automatic digital X-ray inspection system based on door body

Technical Field

The invention belongs to the technical field of medical protection, and particularly relates to a full-automatic digital X-ray inspection system based on a door body.

Background

At present, X-ray examination is widely applied to domestic clinic as a common medical diagnosis means. However, X-rays are "double edged swords" which have biological effects and, although useful for the discovery of disease, contain harmful radiation. When the body is irradiated by X-ray, a series of changes can be made to the tissue cell nuclear body fluid, cells in the tissue are inactivated by ionizing radiation, so that radioactive damage is caused, and the damage to human bodies, especially to hematopoietic stem cells and germ cells, is great. It can penetrate human cells, destroy DNA, and even induce certain cancer cells, wherein radiation can destroy the internal structure of human cells, and cause lifelong damage to genetic molecules that are difficult to repair. X-rays destroy erythrocytes and may induce hematopathy such as leukemia, and therefore, the X-ray shielding is of great importance.

In the existing X-ray inspection process, the inspection is carried out in a thick lead room, and an electric ray protection door is adopted by a lead room door and is used for protecting people waiting for the inspection in a queuing way; however, due to the lack of intelligent access control equipment, medical staff is required to carry out voice reminding for each examination, accidents that a plurality of persons enter an examination room for detection at the same time occur, the working intensity of the medical staff is increased, and medical accidents are easy to occur.

To above-mentioned problem, this application file combines automatic access control system and artificial intelligence image equipment, realizes intelligent image equipment's computer lab intellectuality.

Disclosure of Invention

The invention aims to provide a full-automatic digital X-ray inspection system based on a door body, wherein the door body consisting of a plurality of door plates is pushed and pulled by a hydraulic rod, and the information of a detector is confirmed by utilizing the double locking positions of a trigger switch and an induction element, so that the intelligent machine room of intelligent image equipment is realized, and the problems of insufficient intelligent degree of the traditional machine room and high working strength of medical staff are solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a full-automatic digital X-ray inspection system based on a door body, which comprises an access control device;

the door control device comprises a sliding rail, a left wall body, a right wall body and a door body, wherein the left wall body and the right wall body are connected to the left side and the right side of the sliding rail, and the door body is arranged on the sliding rail in a sliding manner;

the door body is formed by assembling a plurality of door plates, and the door plates are connected with each other through T-shaped plates; each door plate is a U-shaped plate; one end of one side wall of the U-shaped plate is provided with an anti-unhooking hook; a limit column is arranged on the inner side of the other side wall of the U-shaped plate; the T-shaped plate is fixed on the top wall of the U-shaped plate; the T-shaped plate is arranged in the front door plate in a sliding manner; the front side of each door plate is hinged with a lead plate through a torsion spring; and one side of the lead plate is provided with a lead strip.

As a preferable technical scheme, one side of the first door plate is provided with a positioning plate; a mounting plate is arranged on one side of the right wall body; the mounting plate is provided with a hydraulic rod; the output end of the hydraulic rod is fixed on the positioning plate.

As a preferable technical scheme, the cross section of the limiting column is semicircular; an arc-shaped groove matched with the limit column is formed in one side of the cross rod of the T-shaped plate.

As a preferable technical scheme, the lead strip is covered on the next T-shaped plate, and is arranged between two adjacent door plates; the cross section of the lead strip is waist-shaped.

As a preferable technical scheme, a clamping groove is formed in one side of the left wall body; the clamping groove corresponds to the first door plate of the door body; a T-shaped fixing plate is arranged on one side of the right wall body; the T-shaped fixing plate is arranged in the last door plate of the door body.

As a preferable technical scheme, the full-automatic digital X-ray inspection system further comprises an automatic access control switch module, a stop position sensing module, an in-place triggering module and a main control subsystem; the automatic access control switch module is used for controlling the opening and closing of the door body; the stop position sensing module is used for detecting the position of a person and generating a door body closing instruction to be sent to the master control subsystem together with the position information; the in-place triggering module is used for detecting the position of a person and generating a door body closing instruction to be sent to the master control subsystem together with the position information; the main control subsystem is used for processing the information uploaded by the stop position sensing module and the in-place triggering module, transmitting the sign information to the software signal control box and inputting the sign information into the artificial intelligent image system; the automatic access control switch module, the stop position sensing module and the in-place triggering module are respectively connected with the master control subsystem in a two-way communication manner; and the master control subsystem is in bidirectional communication connection with the software signal control box.

As a preferable technical scheme, the stop position sensing module is further connected with a first position sensor, a second position sensor, a fourth position sensor and a fifth position sensor; the first position sensor is a starting position sensor and is used for starting the door body after monitoring personnel in place; the second position sensor is a sign monitoring module and is used for collecting signs of a person to be detected; the fourth position sensor is a waiting detection position and is used for monitoring waiting personnel waiting in line; the fifth position sensor is an ending outgoing position sensor and is used for monitoring the departure of detected personnel.

As a preferable technical scheme, the automatic entrance guard switch module is connected with the first position sensor, the second position sensor, the third position sensor and the fifth position sensor; and the third position sensor is a door control switch and is used for controlling the automatic door control switch module.

As a preferred technical solution, the workflow of the fully automatic digital X-ray inspection system is as follows:

step S1: after the first position sensor detects that a person is in place, the in-place triggering module is triggered and communicated to the main control subsystem, and the door body starts to operate;

step S2: the detection personnel reach the second position and trigger the in-place triggering module, the stop-position sensing module is triggered at the same time, and two signals are sent to the main control subsystem;

step S3: the physical sign monitoring module collects physical sign information and transmits the information to the software signal control box through the master control subsystem, and the information is recorded in the artificial intelligent image system;

step S4: after the second position detection is finished, the third position starts an automatic entrance guard switch module to control entrance guard under the control of a main control subsystem;

step S5: the detection personnel enter a fourth position waiting position and trigger a stop position sensing module;

step S6: the total control subsystem is communicated, the full-automatic digital X-ray inspection system continues the next process, and after the final inspection is finished;

step S7: and the main control subsystem controls the fifth position sensor to enable the detection personnel to leave the field.

The invention has the following beneficial effects:

according to the intelligent imaging device, the door body formed by the plurality of door plates is pushed and pulled through the hydraulic rod, the information of the detector is confirmed by utilizing the double locking positions of the trigger switch and the sensing components, the computer room intellectualization of the intelligent imaging device is improved, and the labor intensity of medical staff is reduced.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an access control device;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic structural view of a door panel;

FIG. 4 is a schematic structural view of a first door panel;

FIG. 5 is a schematic view of the right wall;

FIG. 6 is a schematic view of the left wall;

FIG. 7 is a schematic diagram of the structure of a fully automatic digital X-ray inspection system;

FIG. 8 is a flowchart of the operation of the X-ray inspection system;

in the drawings, the list of components represented by the various numbers is as follows:

the device comprises a 1-sliding rail, a 2-left wall, a 3-right wall, a 4-door plate, a 5-T-shaped plate, a 6-positioning plate, a 7-mounting plate, an 8-lead plate, a 201-clamping groove, a 301-T-shaped fixing plate, a 401-unhooking prevention device, a 402-limiting column, a 501-arc-shaped groove, a 701-hydraulic rod and a 801-lead strip.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

referring to fig. 1-6, the invention discloses a full-automatic digital X-ray inspection system based on a door body, which comprises an entrance guard device; the door control device comprises a sliding rail 1, a left wall body 2 and a right wall body 3 which are connected to the left side and the right side of the sliding rail 1, and a door body which is arranged on the sliding rail 1 in a sliding manner; the door body is formed by assembling a plurality of door plates 4, and the door plates 4 are connected with each other through T-shaped plates 5; each door panel 4 is a U-shaped plate; one end of one side wall of the U-shaped plate is provided with an anti-unhooking hook 401; a limit column 402 is arranged on the inner side of the other side wall of the U-shaped plate; the anti-unhooking hooks 401 and the limiting posts 402 are used for preventing separation between two adjacent door panels 4; the T-shaped plate 5 is fixed on the top wall of the U-shaped plate; the T-shaped plate 5 is arranged in the front door plate 4 in a sliding way; the front side of each door plate 4 is hinged with a lead plate 8 through a torsion spring; lead bars 801 are arranged on one side of the lead plate 8, and the door plate 4 is made of lead plate materials, so that the damage of X-rays to outdoor human bodies is prevented.

A positioning plate 6 is arranged on one side of the first door plate 4; one side of the right wall body 3 is provided with a mounting plate 7; a hydraulic rod 701 is arranged on the mounting plate 7; the output end of the hydraulic rod 701 is fixed on the positioning plate 6, and the expansion and contraction of the hydraulic rod 701 can drive the expansion and contraction of the door body, so that a user can conveniently enter and exit the radiation chamber. The cross section of the limiting post 402 is semicircular; an arc-shaped groove 501 matched with the limit column 402 is formed in one side of the cross rod of the T-shaped plate 5, and the arc-shaped groove 501 prevents the T-shaped plate 5 from being separated from the limit column 402. Lead 801 is covered on the next T-shaped plate 5, and lead 801 is arranged between two adjacent door plates 4; the cross section of the lead strip 801 is waist-shaped, and radians are arranged on two sides of the lead strip 801 in a waist shape, so that the lead strip 801 can conveniently move or move out to a groove formed between two door plates 4. A clamping groove 201 is formed in one side of the left wall body 2; the clamping groove 201 corresponds to the first door panel 4 of the door body; a T-shaped fixing plate 301 is arranged on one side of the right wall body 3; the T-shaped fixing plate 301 is placed inside the last door panel 4 of the door body.

Referring to fig. 7, the full-automatic digital X-ray inspection system further includes an automatic entrance guard switch module, a stop position sensing module, an in-place triggering module and a master control subsystem; the automatic access control switch module is used for controlling the opening and closing of the door body; the stop bit sensing module is used for detecting the position of a person and generating a door body closing instruction and sending the door body closing instruction and the position information to the main control subsystem; the in-place triggering module is used for detecting the position of a person and generating a door body closing instruction and sending the door body closing instruction to the main control subsystem together with the position information; the main control subsystem is used for processing the information uploaded by the stop position sensing module and the in-place triggering module, transmitting the sign information to the software signal control box and inputting the sign information into the artificial intelligent image system; the automatic access control switch module, the stop position sensing module and the in-place triggering module are respectively connected with the main control subsystem in a two-way communication manner; the master control subsystem is in bidirectional communication connection with the software signal control box. The stop position sensing module is also connected with a first position sensor, a second position sensor, a fourth position sensor and a fifth position sensor; the first position sensor is a starting position sensor and is used for starting the door body after monitoring personnel in place; the second position sensor is a sign monitoring module and is used for collecting signs of a person to be detected; the fourth position sensor is a waiting detection position and is used for monitoring waiting personnel waiting in line; the fifth position sensor is an ending outgoing position sensor and is used for off-site monitoring of detected personnel. The automatic entrance guard switch module is connected with a first position sensor, a second position sensor, a third position sensor and a fifth position sensor; the third position sensor is a door control switch and is used for controlling the automatic door control switch module.

Referring to fig. 8, the workflow of the fully automatic digital X-ray inspection system is as follows:

step S1: after the first position sensor detects that a person is in place, the in-place triggering module is triggered and communicated to the main control subsystem, and the door body starts to operate;

step S2: the detection personnel reach the second position and trigger the in-place triggering module, the stop-position sensing module is triggered at the same time, and two signals are sent to the main control subsystem;

step S3: the physical sign monitoring module collects physical sign information and transmits the information to the software signal control box through the master control subsystem, and the information is recorded in the artificial intelligent image system;

step S4: after the second position detection is finished, the third position starts an automatic entrance guard switch module to control entrance guard under the control of a main control subsystem;

step S5: the detection personnel enter a fourth position waiting position and trigger a stop position sensing module;

step S6: the total control subsystem is communicated, the full-automatic digital X-ray inspection system continues the next process, and after the final inspection is finished;

step S7: and the main control subsystem controls the fifth position sensor to enable the detection personnel to leave the field.

Embodiment two:

as shown in fig. 1-6, when the position sensor detects that a human body arrives, the automatic entrance guard switch module controls the hydraulic rod 701 to shrink, when the hydraulic rod 701 shrinks inwards, the output end of the hydraulic rod 701 drives the first door plate 4 to move inwards, and under the action of the sliding rail 1, each door plate 4 is gradually overlapped in the inwards moving process of the door plates 4 until the T-shaped plate 5 of each door plate 4 enters the interior of the previous door plate 4, so that the maximum shrinkage state is achieved; when the contraction distance is reached, the automatic access switch module controls the hydraulic rod 701 to stop working.

When a user finishes taking an X-ray film and needs to go out, when the user reaches a designated position, the automatic access control switch module controls the hydraulic rod 701 to stretch, when the hydraulic rod 701 stretches outwards, the output end of the hydraulic rod 701 can drive the first door plate 4 to move outwards, under the action of the sliding rail 1, each door plate 4 is gradually pulled open in the outwards moving process of the door plate 4, but under the action of the anti-unhooking hooks 401 and the limiting columns 402, until the T-shaped plate 5 of each door plate 4 reaches the maximum distance, meanwhile, the lead 801 moves a groove formed between the two door plates 4, so that the maximum stretching state is achieved, and meanwhile, the outermost door plate 4 enters the clamping groove 201 formed in the left wall 2, and the door body is closed.

Embodiment III:

as shown in fig. 7, after the first position detecting personnel is in place, the in-place system triggering device is triggered and communicated to the master control system, the artificial intelligent access control system formally starts to operate, the detecting personnel reaches the second position and triggers the in-place triggering device, the stop sensor receiving device is triggered at the same time, 2 signals are sent to the master control system, the sign information is transmitted to the software signal control box through the master control system, and is recorded into the artificial intelligent image system, and after the second position detection is finished, the third position gating switch starts the automatic access control system to control the access control under the control of the master control system. And the detection personnel enter a waiting position of the fourth position and trigger the stop position induction receiving device. And then the master control system is communicated, the full-automatic digital X-ray inspection system continues the next process, and after the final inspection is finished, the master control system controls the door control system at the fifth position to enable the inspection personnel to leave the field.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (5)

1. A full-automatic digital X-ray inspection system based on a door body is characterized by comprising an access control device;

the door control device comprises a sliding rail (1), a left wall body (2) and a right wall body (3) which are connected to the left side and the right side of the sliding rail (1), and a door body which is arranged on the sliding rail (1) in a sliding manner;

the door body is formed by assembling a plurality of door plates (4), and the door plates (4) are connected with each other through T-shaped plates (5); each door plate (4) is a U-shaped plate; one end of one side wall of the U-shaped plate is provided with an anti-falling hook (401); a limit column (402) is arranged on the inner side of the other side wall of the U-shaped plate; the T-shaped plate (5) is fixed on the top wall of the U-shaped plate; the T-shaped plate (5) is arranged in the front door plate (4) in a sliding manner; the front side of each door plate (4) is hinged with a lead plate (8) through a torsion spring; a lead strip (801) is arranged on one side of the lead plate (8);

one side of the first door plate (4) is provided with a positioning plate (6); one side of the right wall body (3) is provided with a mounting plate (7); the mounting plate (7) is provided with a hydraulic rod (701); the output end of the hydraulic rod (701) is fixed on the positioning plate (6);

the cross section of the limiting column (402) is semicircular; an arc-shaped groove (501) which is matched with the limit column (402) is formed in one side of the cross rod of the T-shaped plate (5);

the lead strip (801) is covered on the next T-shaped plate (5), and the lead strip (801) is arranged between two adjacent door plates (4); the cross section of the lead strip (801) is waist-shaped;

a clamping groove (201) is formed in one side of the left wall body (2); the clamping groove (201) corresponds to the first door plate (4) of the door body; one side of the right wall body (3) is provided with a T-shaped fixing plate (301); the T-shaped fixing plate (301) is arranged in the last door plate (4) of the door body.

2. The full-automatic digital X-ray inspection system based on the door body according to claim 1, wherein the full-automatic digital X-ray inspection system further comprises an automatic door control switch module, a stop position sensing module, an in-place triggering module and a main control subsystem; the automatic access control switch module is used for controlling the opening and closing of the door body; the stop position sensing module is used for detecting the position of a person and generating a door body closing instruction to be sent to the master control subsystem together with the position information; the in-place triggering module is used for detecting the position of a person and generating a door body closing instruction to be sent to the master control subsystem together with the position information; the main control subsystem is used for processing the information uploaded by the stop position sensing module and the in-place triggering module, transmitting the sign information to the software signal control box and inputting the sign information into the artificial intelligent image system; the automatic access control switch module, the stop position sensing module and the in-place triggering module are respectively connected with the master control subsystem in a two-way communication manner; and the master control subsystem is in bidirectional communication connection with the software signal control box.

3. The full-automatic digital X-ray inspection system based on the door body according to claim 2, wherein the stop position sensing module is further connected with a first position sensor, a second position sensor, a fourth position sensor and a fifth position sensor; the first position sensor is a starting position sensor and is used for starting the door body after monitoring personnel in place; the second position sensor is a sign monitoring module and is used for collecting signs of a person to be detected; the fourth position sensor is a waiting detection position and is used for monitoring waiting personnel waiting in line; the fifth position sensor is an ending outgoing position sensor and is used for monitoring the departure of detected personnel.

4. The door-based full-automatic digital X-ray inspection system according to claim 3, wherein the automatic entrance guard switch module is connected with the first position sensor, the second position sensor, the third position sensor and the fifth position sensor; and the third position sensor is a door control switch and is used for controlling the automatic door control switch module.

5. The door-based full-automatic digital X-ray inspection system according to claim 2, wherein the workflow of the full-automatic digital X-ray inspection system is as follows:

step S1: after the first position sensor detects that a person is in place, the in-place triggering module is triggered and communicated to the main control subsystem, and the door body starts to operate;

step S2: detecting a second position of a person, triggering a in-place triggering module, triggering a stop-position sensing module at the same time, and sending two signals to a main control subsystem;

step S3: the physical sign monitoring module collects physical sign information and transmits the information to the software signal control box through the master control subsystem, and the information is recorded in the artificial intelligent image system;

step S4: after the second position detection is finished, the third position starts an automatic entrance guard switch module to control entrance guard under the control of a main control subsystem;

step S5: the detection personnel enter a fourth position waiting position and trigger a stop position sensing module;

step S6: the total control subsystem is communicated, the full-automatic digital X-ray inspection system continues the next process, and after the final inspection is finished;

step S7: and the main control subsystem controls the fifth position sensor to enable the detection personnel to leave the field.