CN219737332U - Laboratory imaging machine - Google Patents

Abstract

The utility model discloses a laboratory imaging machine, which comprises a radiation protection box, wherein an X-ray imaging machine is arranged in the radiation protection box, a storage plate is arranged above the radiation protection box, a receiving plate is arranged above the storage plate, a lifting mechanism is arranged below the storage plate, and the lifting mechanism is connected with the storage plate and drives the storage plate to approach or be far away from the X-ray imaging machine for adjusting shooting distance. Further, the radiation protection box comprises a box body, a first box door, a second box door and a third box door are sequentially arranged at the front part of the box body from top to bottom, an observation window is arranged on the first box door, a display screen is arranged on the second box door, and the display screen is electrically connected with an X-ray imaging machine. Compared with the existing equipment, the laboratory imaging machine provided by the utility model has the advantages of light and small volume, convenience in movement and small occupied area, and solves the problems that the laboratory space is small, the detection equipment cannot be placed, and the X-rays cannot be prevented. The radiation protection box is internally provided with the lifting mechanism, so that the receiving plate can be lifted, and the definition of the image can be conveniently adjusted.

Description

Laboratory imaging machine

Technical Field

The utility model relates to the technical field of X imaging equipment, in particular to a laboratory imaging machine.

Background

The X-ray examination technique mainly comprises common X-ray examination technique including fluoroscopy, photography, special contrast and contrast examination. The fluoroscopy is a common and economical and simple examination method, namely, the morphology and the dynamics of the organ can be observed simultaneously, and the examination result can be obtained immediately, which is not replaced by other X-ray examination.

In addition to medical applications, X-ray examination techniques are gradually applied to laboratories, and laboratory workers often need to observe bone structures of experimental objects using X-ray examination techniques, but existing X-ray devices are large in size, occupy a large space, and are inconvenient to move, such as publication (bulletin) numbers: CN102466647a discloses an X-ray detection apparatus and publication (bulletin) number: CN111451164a discloses an X-ray detecting device, the former area is too large, the latter area is not only large, but also complex in structure, and is only applicable to the detection of the assembly line, so that the use is limited, and the device cannot be placed in the laboratory for use, and therefore, a special imaging machine is required in the laboratory to solve the existing detection problem.

Disclosure of Invention

The present utility model addresses the problems with the prior art described above by providing a laboratory imaging machine.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides a laboratory imaging machine, includes the radiation proof case, and X ray imaging machine sets up in the radiation proof case, and its top is equipped with puts the thing board, it is equipped with the receiving plate to put thing board top, it is equipped with elevating system to put thing board below, elevating system is connected with putting the thing board to the drive is put the thing board and is close to or keep away from X ray imaging machine and shoot the distance adjustment.

Further, the radiation protection box comprises a box body, a first box door, a second box door and a third box door are sequentially arranged at the front part of the box body from top to bottom, an observation window is arranged on the first box door, a display screen is arranged on the second box door, and the display screen is electrically connected with an X-ray imaging machine.

Further, elevating system includes the slide rail, the slip is provided with the suspension on the slide rail, the below of suspension is equipped with actuating mechanism, and the thing board that puts is provided with on the suspension, actuating mechanism drives and puts the thing board and go up and down, put the thing board and drive the suspension and remove along the slide rail.

Further, the X-ray imaging machine comprises an X-ray camera, and a beam limiter is arranged at a shooting port of the X-ray camera.

Further, the X-ray imaging machine is fixed in the radiation-proof box through the fixing seat, the fixing seat comprises a pair of fixing pieces, the fixing pieces are detachably connected through a pair of hoops, and the hoops are tightly hooped on the X-ray imaging machine.

Further, a switch button is arranged on the first box door and is electrically connected with the display screen and the X-ray imaging machine, and the switch button controls the X-ray imaging machine and the display screen to be started or closed.

Further, one side of the switch button is provided with an emergency switch, an exposure indicator lamp, an ascending switch and a descending switch are sequentially arranged below the emergency switch, the ascending switch, the descending switch and the lifting mechanism are electrically connected, and the ascending switch and the descending switch control lifting of the lifting mechanism.

Further, a plurality of usb sockets are arranged on the second box door and are connected with the display screen for exporting shot images.

The utility model has the beneficial effects that:

compared with the existing equipment, the laboratory imaging machine provided by the utility model has the advantages of light and small volume, convenience in movement and small occupied area, and solves the problems that the laboratory space is small, the detection equipment cannot be placed, and the X-rays cannot be prevented. The anti-radiation box is internally provided with the lifting mechanism, so that the object plate can be lifted, the definition of an image can be conveniently adjusted, and the shooting effect is better.

Drawings

FIG. 1 is a schematic diagram of a laboratory imaging machine of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of a laboratory imager according to the present utility model;

FIG. 3 is a schematic view of the elevating mechanism of the present utility model;

FIG. 4 is an enlarged view of the utility model at A in FIG. 2;

fig. 5 is a schematic structural view of an X-ray imaging machine according to the present utility model.

In the figure: 1-radiation protection box, 11-box body, 12-first chamber door, 13-second chamber door, 14-third chamber door, 15-observation window, 16-display screen, 2-X-ray imaging machine, 21-X-ray camera, 22-beam limiter, 3-object placing plate, 4-elevating system, 41-slide rail, 42-suspension, 43-actuating mechanism, 5-fixing seat, 51-mounting, 52-clamp, 6-shift knob, 7-emergency switch, 8-usb socket, 9-receiving plate, 101-exposure indicator lamp, 102-ascending switch, 103-descending switch.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 and 2, the laboratory imaging machine provided by the utility model comprises a radiation protection box 1, an X-ray imaging machine 2 is arranged in the radiation protection box 1, a storage plate 3 is arranged above the radiation protection box, a receiving plate 9 is arranged above the storage plate 3, a lifting mechanism 4 is arranged below the storage plate 3, and the lifting mechanism 4 is connected with the storage plate 3 and drives the storage plate 3 to be close to or far away from the X-ray imaging machine 2 for adjusting shooting distance. Specifically, the X-ray imaging machine 2 is disposed at the bottom of the radiation protection box 1, the object placing plate 3 and the lifting mechanism 4 are disposed at the middle upper part of the radiation protection box 1, and the lifting mechanism 4 is fixed on the inner side wall of the radiation protection box 1. The object is placed on the object placing plate 3, the shooting end of the X-ray imaging machine 2 faces the object, the lifting mechanism 4 adjusts the receiving plate 3 to lift to the optimal shooting position, and the X-ray imaging machine 2 shoots the object.

Referring to fig. 1, the radiation protection box 1 includes a box 11, a first box door 12, a second box door 13, and a third box door 14 are sequentially disposed in front of the box 11 from top to bottom, an observation window 15 is disposed on the first box door 12, a display screen 16 is disposed on the second box door 13, and the display screen 16 is electrically connected with the X-ray imaging machine 2. The range of the observation window 15 should cover the lifting range of the object placing plate 3 so that the user can observe the photographing object all the time. The display screen 16 is used for displaying a shooting picture, so that a user can conveniently adjust the shooting distance, and the shot image is clearer.

Referring to fig. 3 and 4, the lifting mechanism 4 includes a sliding rail 41, a suspension 42 is slidably disposed on the sliding rail 41, a driving mechanism 43 is disposed below the suspension 42, the object placing plate 3 is disposed on the suspension 41, the driving mechanism 43 drives the object placing plate 3 to lift, and the object placing plate 3 drives the suspension 42 to move along the sliding rail 41. Specifically, the sliding rail 41 is vertically fixed on the inner wall of the radiation protection box 1, a sliding block 44 is arranged on the sliding rail, a mounting plate 45 is arranged on the sliding block 44, and the suspension 42 is fixed on the mounting plate 45. The suspension 42 is a tripod body, and two right-angle sides thereof are respectively connected with the mounting plate 45 and the object placing plate 3.

Referring to fig. 2 and 5, the X-ray imaging machine 2 includes an X-ray camera 21, and a beam limiter 22 is disposed at a photographing opening of the X-ray camera 21, where the beam limiter 22 is fixedly connected with the X-ray camera 21. The X-ray camera 21 is used for image capturing, and the beam limiter 22 limits the capturing range of the X-ray camera 21. The X-ray camera 21 and the beam limiter 22 are both existing products, and their functions and structures will therefore not be described in detail.

The X-ray imaging machine 2 is fixed in the radiation protection box 1 through a fixing seat 5 and is positioned on the bottom plate of the radiation protection box 1. The fixing base 5 comprises a pair of fixing pieces 51, the two fixing pieces 51 are detachably connected through a pair of hoops 52, and the two hoops 52 are hooped on the X-ray imaging machine 2. The fixing member 51 is an L-shaped fixing member, one of the plate bodies of the fixing member 51 is fixedly connected with the bottom plate of the radiation protection box 1 through screws, and the clamp 52 is also connected with the fixing member 51 through screws.

Referring to fig. 1, a switch button 6 is disposed on the first door 12, the switch button 6 is electrically connected to the display screen 16 and the X-ray imaging machine 2, and the switch button 6 controls the X-ray imaging machine 2 and the display screen 16 to be turned on or off. An emergency switch 7 is arranged on one side of the switch button 6, an exposure indicator lamp 101, an ascending switch 102 and a descending switch 103 are sequentially arranged below the emergency switch 7, the ascending switch 102, the descending switch 103 and the emergency switch 7 are electrically connected with the lifting mechanism 4, and the ascending switch 102 and the descending switch 103 control lifting of the lifting mechanism 4. The second box door 13 is provided with a plurality of usb sockets 8, and the usb sockets 8 are connected with the display screen 16 and are used for exporting photographed images.

Working principle:

when the X-ray imaging device is used, the first box door 12 is opened first, an object to be shot is placed on the object placing plate 3, then the switch button 6 is pressed, the display screen 16 and the X-ray imaging machine 2 are started, after that, the ascending switch 102 or the descending switch 103 is pressed to control the object placing plate 3 to ascend and descend, the display screen 16 is observed at the same time, until the image is clear, and the X-ray imaging machine shoots the object to be shot.

The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (8)

1. A laboratory imager, characterized by: including radiation protection case (1), X ray imaging machine (2) set up in radiation protection case (1), and its top is equipped with puts thing board (3), it is equipped with receiving plate (9) to put thing board (3) top, it is equipped with elevating system (4) to put thing board (3) below, elevating system (4) are connected with putting thing board (3) to drive is put thing board (3) and is close to or keep away from X ray imaging machine (2) and shoot the distance adjustment.

2. The laboratory imager as set forth in claim 1 wherein: the anti-radiation box (1) comprises a box body (11), a first box door (12), a second box door (13) and a third box door (14) are sequentially arranged at the front part of the box body (11) from top to bottom, an observation window (15) is arranged on the first box door (12), a display screen (16) is arranged on the second box door (13), and the display screen (16) is electrically connected with the X-ray imaging machine (2).

3. The laboratory imager as set forth in claim 1 wherein: the lifting mechanism (4) comprises a sliding rail (41), a suspension (42) is arranged on the sliding rail (41) in a sliding mode, a driving mechanism (43) is arranged below the suspension (42), the object placing plate (3) is arranged on the suspension (42), the driving mechanism (43) drives the object placing plate (3) to lift, and the object placing plate (3) drives the suspension (42) to move along the sliding rail (41).

4. The laboratory imager as set forth in claim 1 wherein: the X-ray imaging machine (2) comprises an X-ray camera (21), and a beam limiter (22) is arranged at a shooting port of the X-ray camera (21).

5. The laboratory imager as set forth in claim 4 wherein: the X-ray imaging machine (2) is fixed in the radiation protection box (1) through the fixing seat (5), the fixing seat (5) comprises a pair of fixing pieces (51), the fixing pieces (51) are detachably connected through a pair of hoops (52), and the hoops (52) are hooped on the X-ray imaging machine (2).

6. The laboratory imager as set forth in claim 2, wherein: the first box door (12) is provided with a switch button (6), the switch button (6) is electrically connected with the display screen (16) and the X-ray imaging machine (2), and the switch button (6) controls the X-ray imaging machine (2) and the display screen (16) to be started or closed.

7. The laboratory imager as set forth in claim 6 wherein: the automatic lifting device is characterized in that an emergency switch (7) is arranged on one side of the switch button (6), an exposure indicator lamp (101), a lifting switch (102) and a descending switch (103) are sequentially arranged below the emergency switch (7), the lifting switch (102) and the descending switch (103) are electrically connected with the lifting mechanism (4), and the lifting mechanism (4) is controlled to lift by the lifting switch (102) and the descending switch (103).

8. The laboratory imager as set forth in claim 2, wherein: and a plurality of usb sockets (8) are arranged on the second box door (13), and the usb sockets (8) are connected with a display screen (16) and are used for exporting photographed images.