CN118044830A - Mobile X-ray photographing system - Google Patents

Abstract

The invention discloses a mobile X-ray photographing system, which comprises a machine body, a flat panel detector and a flat panel box, wherein the flat panel detector is arranged in the flat panel box, the flat panel box is rotationally connected with the rear part of the machine body and can reciprocally rotate back and forth between a closed position and an open position, the flat panel detector is provided with a first charging contact, the machine body is correspondingly provided with a second charging contact, and in the closed position, the first charging contact is contacted with the second charging contact; in the open position, the first and second charging contacts are disengaged. The machine body is provided with a charging contact, and an external adapter is not needed, so that the function of charging the flat panel detector can be realized under the conditions of moving and outdoors.

Description

Mobile X-ray photographing system

The application is a divisional application, and the parent case name is: a flat tipping bucket type charging device for a mobile X-ray machine body has the application number of: 201510072685.5, the application date is: 02 month 11 2015.

Technical Field

The present application relates to a mobile radiography system, and more particularly to a mobile radiography system with a wireless flat panel detector.

Background

The mobile X-ray photographic system has a free movement function, is generally provided with a wireless flat panel detector (such as an amorphous silicon flat panel detector with a wireless function), can meet the shooting requirements of various indoor and outdoor occasions, and is flexible to apply. Wireless flat panel detectors are typically housed in a flat panel case with a rechargeable battery as a power source for operation. Because of the portability requirements of wireless flat panel detectors, rechargeable batteries are generally small in size and limited in capacity. The flat panel detector is depleted after several uses and requires a special charging plug to be plugged in for charging.

The existing charging scheme includes: a) Charging by an external adapter; b) The flat panel box is internally provided with a charging interface, and the flat panel detector is inserted into the flat panel box to be charged. For scheme a, when the flat panel detector is not powered, the flat panel detector can only be taken out of the flat panel box to be connected with the adapter for charging, and occasionally, the flat panel detector cannot be charged outdoors or outdoors. For the scheme b, the flat panel detector is charged when being inserted into the flat panel box, and the charging interface of the flat panel detector is inserted into the charging interface of the flat panel box at any time, so that the charging interface is large in abrasion and easy to damage; the flat panel detector can be taken out at any time in the charging process, and the flat panel detector can be damaged by live plug, and belongs to valuables; when the electric quantity of the flat panel detector is lower than the electric quantity required to be charged, the flat panel detector can be charged every time when the flat panel detector is put into the flat panel box, and if the flat panel detector is required to be taken and put more frequently at this time, the condition of intermittent charging can occur, so that the service life of the flat panel detector battery is influenced.

Disclosure of Invention

The present invention provides a new mobile radiography system.

The invention provides a mobile X-ray photographing system, which comprises a machine body, a flat panel detector and a flat panel box, wherein the flat panel detector is arranged in the flat panel box, the flat panel box is movably connected with the machine body and can reciprocate between a closed position and an open position, the flat panel detector is provided with a first charging contact, the machine body is correspondingly provided with a second charging contact, and in the closed position, the first charging contact is contacted with the second charging contact; in the open position, the first and second charging contacts are disengaged.

The flat box can be connected with the machine body in a sliding way, so that the flat box can reciprocate back and forth between a closed position and an open position relative to the machine body. The flat box can also be rotationally connected with the machine body, so that the flat box can reciprocally rotate back and forth between a closed position and an open position relative to the machine body. Of course, the flat box can also be rotatably connected to the body by a horizontally arranged circular arc-shaped track along which the flat box can be moved to reciprocate between the closed position and the open position.

The rear part of the machine body is provided with a storage bin, the storage bin is surrounded by a bin bottom and a bin wall, and in the closed position, a flat box provided with the flat panel detector is positioned in the storage bin; in the open position, the flat panel cassette housing the flat panel detector is moved away from the storage bin.

The bottom of the flat box is rotationally connected with the bottom of the bin wall, the first charging contact is arranged on the side surface or the bottom surface of the flat detector, and the second charging contact is correspondingly arranged on the bottom of the bin or the bottom of the bin wall.

The flat box is rotatably connected with the rear part of the machine body.

The first charging contact is arranged on the side face of the flat panel detector, the flat panel box is provided with a window, and in the closing position, the second charging contact passes through the window and then contacts with the first charging contact.

In the closed position, the flat panel detector is vertical; in the open position, the plate detects tilting.

The included angle between the closed position and the open position is limited by an angle limiting mechanism. The angle limiting mechanism is two connecting rods, two connecting ends of the two connecting rods are respectively hinged with the flat box and the machine body, and in the opening position, the two connecting rods are unfolded and blocked by the machine body.

The flat box is rotationally connected with the rear part of the machine body through a damping hinge or a damping rotating shaft.

The beneficial effects of the invention are as follows:

When the flat panel cassette is in the closed position, the flat panel detector and the flat panel cassette are in the storage bin, and the flat panel detector cannot be taken.

Drawings

FIG. 1 is a schematic view of a structure in which a flat panel detector of the mobile X-ray radiography system of the present embodiment is housed in a flat panel cassette;

FIG. 2 is a schematic view of the structure of the present embodiment when the flat box is in the open position;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of the structure of the present embodiment when the flat panel cassette is in the closed position;

FIG. 5 is an enlarged view of a portion of FIG. 4;

Fig. 6 is a schematic structural view of a second embodiment of a mobile radiography system.

Detailed Description

The invention will be described in further detail below with reference to the drawings by means of specific embodiments.

As shown in fig. 1 to 5, a mobile radiography system includes a main body 1, a flat panel detector 2 with wireless function, and a flat panel cassette 3. The flat box 3 is connected with the rear part of the machine body 1 through a hinge 4, and the flat box 3 can rotate around the hinge 4, so that the recovery and opening functions of the flat box 3 are realized. The flat cassette 3 is capable of reciprocating back and forth rotation between a closed position and an open position. Initially, the flat box 3 is positioned in the closed position; when opened, the flat box 3 rotates backward from the closed position until finally positioned at the open position; upon recovery, the flat cassette 3 rotates forward from the open position until finally positioned in the closed position. The flat panel detector 2 is housed in a flat panel box 3. The flat panel detector 2 is provided with a first charging contact 6, and the body 1 is correspondingly provided with a second charging contact 5.

When the flat panel box 3 is positioned at the closed position, the flat panel box 3 is attached to the body 1, the flat panel detector 2 is vertical, and the first charging contact 6 of the flat panel detector 2 is contacted with the second charging contact 5 of the body 1, so that the detection of the electric quantity of the flat panel detector 2 is triggered, and the system can determine whether to charge the flat panel detector 2 according to the electric quantity condition. When the flat panel detector 2 needs to be taken out, the flat panel box 3 is rotated backwards until the flat panel detector 2 is positioned at the opening position, at this time, the flat panel detector 2 is inclined, the first charging contact 6 and the second charging contact 5 are separated, and the flat panel detector 2 is taken out from the flat panel box 3.

The flat panel detector 2 has a side 21 facing the body 1 and having a large surface area and a bottom surface at the bottom and having a small surface area. The first charging contact 6 is arranged on the side surface 21 of the flat panel detector 2, a window 31 is arranged at the position of the flat panel box 3 corresponding to the first charging contact 6, and the second charging contact 5 passes through the window 31 and then contacts with the first charging contact 6 when in the closed position.

As shown in fig. 6, which is a second embodiment of the mobile X-ray radiography system, this embodiment differs from the first embodiment mainly in that the first charging contact 6 is provided at the bottom surface of the flat panel detector 2.

As shown in fig. 1 to 6, a storage bin 11 is arranged at the rear part of the machine body 1, the storage bin 11 is surrounded by a bin bottom 12 and a bin wall 13, and the bottom of the flat box 3 is hinged with the bottom of the bin wall 13 through a hinge 4. In the closed position, the flat panel cassette 3 with the flat panel detector 2 mounted therein is positioned within the storage compartment 11, the flat panel detector 2 covers the mouth of the storage compartment 11, and the top of the flat panel detector 2 is adjacent to the top of the compartment wall 13. When rotated back to the open position, the flat panel cassette 3 with the flat panel detector 2 is moved away from the storage compartment 11.

When the first charging contact 6 is arranged on the side surface 21 of the flat panel detector, the second charging contact 5 can be correspondingly arranged on the bin bottom 12. When the first charging contact 6 is arranged on the bottom surface of the flat panel detector, the second charging contact 5 can be correspondingly arranged on the bottom of the bin wall 13.

As shown in fig. 1 to 6, the mobile X-ray radiography system may further include an X-ray tube assembly 7 and a column 8, the X-ray tube assembly 7 being provided to the column 8 and being capable of being lifted and lowered along the column 7, the column 8 being provided to the front of the main body 1.

As shown in fig. 3, in order to limit the rotation angle between the closed position and the open position of the flat cassette, an angle limiting mechanism may be provided between the flat cassette 3 and the body 1. The angle limiting mechanism is two connecting rods 9, two connecting ends of the two connecting rods 9 are respectively hinged with the machine body 1 and the flat box 3, and when in an open position, the two connecting rods 9 are unfolded and blocked by a limiting boss 14 of the machine body 1. The angle limiting mechanism can also be realized through a limiting rotating shaft.

In order to increase the rotational damping of the flat box 3, the flat box 3 may be rotatably connected to the body 1 by a damping mechanism, such as a damping hinge or a damping spindle.

For a mobile radiography system, the first and second charging contacts may be in the form of cylindrical charging contacts, spring plates, springs, or other structures capable of transmitting electrical energy when in contact. The flat plate box is of a tipping bucket structure, after the flat plate detector is placed in the flat plate box, the flat plate detector can be folded and recovered, and after the flat plate detector is recovered in place, the first charging contact of the flat plate detector is contacted with the second charging contact of the machine body, so that electric quantity detection and charging can be realized. When the flat panel box is not folded, the first charging contact and the second charging contact are not contacted, and at the moment, even if the flat panel detector is still in the flat panel box, the flat panel detector cannot be charged. The body may be provided with existing locking means which are capable of locking the flat cassette in the closed position and, after unlocking, the flat cassette may be rotated backwards to the open position.

For a mobile X-ray photography system, the flat panel box does not need to be provided with a charging interface, so that excessive abrasion of a charging contact of the flat panel detector is avoided. The flat panel detector is placed in the flat panel box and can not trigger charging immediately, and charging can only be carried out when the flat panel box is folded and recovered, so that even if the flat panel detector is required to be taken and placed more frequently, the condition of intermittent charging can not occur, and further the service life of a battery of the flat panel detector can not be influenced. When the flat panel detector is charged, the flat panel box is in a folded recovery state, at the moment, the flat panel detector cannot be taken, and when a flat panel is required to be taken, the locking of the flat panel box can be released, so that the system can know the intention of a doctor for taking the flat panel detector in advance, and the flat panel detector can be prevented from being damaged by live plug. The photographing system can realize the function of charging the flat panel detector in the field and in the moving process.

The mobile radiography system may also include a normally closed self-locking mechanism including an inductive switch and an electromagnetic lock having a locking tongue. The self-locking mechanism is a normally closed self-locking mechanism and has a locking state and an unlocking state, and in a normal state, the self-locking mechanism is in the locking state; when the inductive switch is triggered, the self-locking mechanism is switched to an unlocking state. Under the condition that the mobile X-ray machine is not electrified, the self-locking mechanism is in a locking state, the flat panel detector is positioned in the storage bin 11 of the machine body 1, the flat panel box 3 is locked by the electromagnetic lock, and the flat panel box 3 is positioned and kept at a closed position, at the moment, the flat panel detector 2 cannot be taken out, so that the effects of preventing the flat panel detector 2 from being stolen and theft are achieved. In addition, because the flat plate box 3 is positioned in the storage bin 11 of the machine body 1 when in the closed position, the length of the rear part of the machine body 1 can be greatly shortened, and the movement of the X-ray machine is more flexible.

When the doctor needs to take out the flat panel detector 2 after the mobile X-ray machine is electrified, the doctor enters the induction area of the induction switch by hand to trigger the self-locking mechanism to unlock, at the moment, the system controls the electromagnetic lock to be opened, so that the lock tongue rotates forwards by a certain angle to separate from the lock pin of the flat panel box 3, and after the hand is separated from the induction area, the electromagnetic lock is still kept to be opened for a plurality of seconds, the flat panel box 3 can rotate backwards freely around the hinge 2, and the flat panel box 3 is opened backwards by hand holding at the top of the flat panel detector 2. When the flat panel cassette 3 is rotated to the open position, the flat panel detector 2 is exposed to the storage compartment 11 of the main body 1, and the flat panel detector 2 can be taken out from the flat panel cassette 3.

When the flat panel detector 2 is used, the operation steps are opposite to the above steps: the flat panel detector 2 is placed into the flat panel box 3, the top of the flat panel detector 2 is pushed forward by hand to close the flat panel box 3, when the flat panel box 3 reaches the closing position, the lock pin is clamped into the lock tongue of the electromagnetic lock again, the self-locking mechanism is reset to the locking state, and the flat panel detector 2 is locked in the storage bin 11 and cannot be taken out.

The trigger may be an inductive switch, such as an infrared switch or an ultrasonic switch; the trigger may be a manual switch requiring manual pressing operation. The actuator can comprise an electromagnet with a lock tongue, the flat box is provided with a lock pin or a lock groove corresponding to the lock tongue, the lock of the flat box is realized through the snap fit of the lock tongue and the lock pin or the plug fit of the lock tongue and the lock groove, and the lock tongue can be reset automatically or reset manually. The executor also can include the electro-magnet, and corresponding, dull and stereotyped box can be equipped with magnetic element, through the magnetic force absorption of electro-magnet and magnetic element, realizes the locking to dull and stereotyped box. The actuator may also include a cylinder, hydraulic cylinder, motor, or the like. For example, the actuator may include a cylinder, hydraulic cylinder, or motor, etc. having a locking tongue that may be driven by the cylinder, hydraulic cylinder, or motor to interact with a locking pin or slot on the flat panel cassette. The electromagnet, the air cylinder, the hydraulic cylinder or the motor and the like can be matched with the lock tongue to be of a movable and rotary structure or a rotary structure driven by rotation.

In another non-limiting embodiment, a flat box disposed on the body may be considered to have a storage operating position and a charging operating position. In the charging working position, the charging contacts correspondingly arranged on the machine body and the flat plate can be contacted with each other, and in the storage working position, the two charging contacts are separated. In the embodiments described above in connection with the figures, the flatbed case is movably connected to the body so as to be capable of reciprocating between a closed position and an open position; at this time, in the closed position, the flat box is in the charging operation position, and in the open position, the flat box is in the storage operation position. As described above, the flat panel cassette may be rotatably disposed, slidably disposed, or otherwise adapted to effect relative movement of the flat panel cassette on the body.

In another embodiment, a flat panel cassette may include a cassette opening, a first storage space and a second storage space at least partially spaced apart, the first storage space being disposed away from the cassette opening, the cassette opening being a storage portal for the second storage space. The flat plate can move in the first storage space and the second storage space when arranged in the flat plate box. For example, the flat box comprises two storage spaces arranged up and down, the flat plate is put in from the upper box body opening, the first storage space is a lower storage space, and the second storage space is an upper storage space. When the flat plate is placed at this time, the flat plate is placed in the second storage space, the second storage space is opposite to the machine body, no charging contact is arranged on the machine body, and the charging contact on the machine body is arranged at the position corresponding to the first storage space. When the operator unlocks the structure separating the two storage spaces, the tablet may be moved into the first storage space, where the tablet contacts the charging contacts on the body. In this embodiment, the flat panel cassette is in the charging position when the flat panel is moved into the first storage space; when the flat panel moves from the first storage space to the second storage space, the flat panel box is in the storage working position. The means for at least partially separating the two storage spaces may be a removable partition or an elastic member which is not deformed by the force of gravity of the plate alone, the elastic member being deformed to expose an entrance into the first storage space when an external force is applied by an operator.

The foregoing is a further detailed description of the invention in connection with specific embodiments, and it is not intended that the invention be limited to such description. It will be apparent to those skilled in the art that several simple deductions or substitutions can be made without departing from the spirit of the invention.

Claims (10)

1. The movable X-ray photographing system comprises a machine body, a flat panel detector and a flat panel box, wherein the flat panel detector is arranged in the flat panel box and can be taken out from the flat panel box; in the closed position, a flat panel cassette containing the flat panel detector can be received within the storage bin, the top of the flat panel detector being adjacent the top of the bin wall of the storage bin to limit withdrawal of the flat panel detector from above the flat panel cassette; in the open position, the flat panel cassette housing the flat panel detector can exit the magazine.

2. The mobile radiography system of claim 1 wherein the main body is provided with locking means capable of locking the flat panel cassette in the closed position.

3. The mobile radiography system of claim 1 further comprising a normally closed self-locking mechanism in a locked state when the mobile radiography system is not powered on, the flat panel cassette being positioned and held in a closed position.

4. The mobile radiography system of claim 1 wherein the bottom of the flat panel cassette is rotatably connected to the bottom of the bin wall.

5. The mobile radiography system of claim 1 wherein the angle between the closed position and the open position is limited by an angle limiting mechanism.

6. The mobile radiography system of claim 5 wherein said angle limiting mechanism is two links, two connecting ends of said two links being hinged to said flat panel box and to said main body, respectively, said two links being unfolded and blocked by said main body in said open position.

7. The mobile radiography system of claim 1 wherein the flat panel cassette and the main body are rotatably connected by a damped hinge or damped pivot.

8. The mobile radiography system of claim 1 wherein in the closed position the flat panel detector is vertical; in the open position, the flat panel detector is tilted.

9. The mobile radiography system of claim 1 wherein in the closed position, a portion of the flat panel detector is located in the flat panel cassette and another portion extends upwardly from an upper end of the flat panel cassette and emerges from the flat panel cassette and the storage bin.

10. The mobile X-ray photographing system comprises a machine body, a flat panel detector and a flat panel box, wherein the flat panel detector can be arranged in the flat panel box, and the flat panel detector and the flat panel box are matched in a moving way; the flat box is arranged on the machine body and is provided with a storage working position and a charging working position; in the charging working position, the first charging contact is contacted with the second charging contact; in the storage operating position, the first charging contact and the second charging contact are disengaged; the flat plate box comprises a box body opening, a first storage space and a second storage space which are at least partially spaced apart, wherein the first storage space is arranged far away from the box body opening, the box body opening is a storage inlet of the second storage space, and the flat plate can move in the first storage space and the second storage space when arranged in the flat plate box; when the flat plate moves into the first storage space, the flat plate box is in a charging working position; when the flat plate moves from the first storage space to the second storage space, the flat plate box is in a storage working position.