CN215605793U - X-ray detection equipment - Google Patents

Abstract

The application provides X-ray detection equipment, X-ray detection equipment include loading board, detector and emitter, and the loading board is used for bearing and waits to detect the position. The detector is fixedly arranged below the bearing plate. Emitter sets up in the top of loading board, and emitter includes bulb emitter, illuminating part and a beam ware, and the illuminating part sets up with bulb emitter syntropy, and the bulb emitter is used for emitting X ray to the detector direction, and the illuminating part is used for emitting visible light along the direction of bulb emitter transmission X ray, and a beam ware sets up in the outgoing direction of illuminating part and bulb emitter, and a beam ware is used for adjusting the irradiation range of X ray and visible light. Wherein, be provided with the indicator on the loading board, the indicator is used for instructing the detection range of detector. The X-ray detection equipment can solve the problems that the irradiation range of X-rays is difficult to align with the detection range of a detector and the imaging effect is poor during shooting in the prior art.

Description

X-ray detection equipment

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of medical equipment, in particular to X-ray detection equipment.

[ background of the utility model ]

An X-ray machine is a commonly used medical detection device, which can rapidly perform noninvasive in-vitro diagnosis on a patient. The X-ray machine generates high voltage through the high voltage generator, the bulb tube is excited to generate X-rays, the beam light controller controls the irradiation direction (range) of the X-rays, the X-rays penetrate through a part to be detected and strike on the detector, and finally, the X-ray signals received by the detector are converted into images through software. In the process, the X-ray irradiation range is required to be ensured to be overlapped with the effective range of the detector as much as possible, so that the light field is reduced as much as possible, and the X-ray dose of a single shooting to a patient is reduced.

In the prior art, a detector is usually arranged below a bearing flat plate to receive X-rays, but due to shielding of the bearing flat plate, the irradiation range of the X-rays is difficult to accurately adjust to the position above the detection range of the detector when the X-ray machine is used, so that the imaging effect is poor during shooting.

[ Utility model ] content

In view of this, the present application provides an X-ray detection apparatus, so as to solve the problems in the prior art that the irradiation range of the X-ray is difficult to align with the detection range of the detector, and the imaging effect during shooting is poor.

The present application provides.

The application provides an X-ray detection equipment, it includes loading board, detector and emitter, the loading board is used for bearing and waits to detect the position. The detector is fixedly arranged below the bearing plate. The emitting device set up in the top of loading board, emitting device includes bulb emitter, illuminating part and a bundle of optical ware, the illuminating part with the bulb emitter syntropy sets up, the bulb emitter be used for to detector direction transmission X ray, the illuminating part is used for following the bulb emitter launches the visible light is sent out to the direction of X ray, a bundle of optical ware set up in the illuminating part with the outgoing direction of bulb emitter, a bundle of optical ware is used for adjusting X ray reaches the irradiation range of visible light. The bearing plate is provided with an indicating piece, and the indicating piece is used for indicating the detection range of the detector.

The bearing plate is provided with an indicating piece, the indicating piece clearly indicates the detection range of the detector below the bearing plate, after the emitting device is restarted or the position of the emitting device is moved, the irradiation range of the X rays and the visible light is controlled by adjusting the beam splitter, and the range of the visible light is approximately overlapped with the detection range of the detector through the adjustment. After adopting above-mentioned technical scheme, beneficial effect is: when the X-ray detection equipment detects, the X-ray emitted by the emitting device can be approximately overlapped with the detection range of the detector, so that proper irradiation dose control is ensured, and the imaging effect is improved.

In one possible design, the indicator is a pattern layer disposed on the carrier plate.

In the above scheme, the pattern layer can indicate the detection range of the detector, and the pattern layer can be arranged on the bearing plate in a printing mode and the like, so that the process is simple and the cost is low.

In a possible design, the pattern layer is a solid frame disposed on the carrier plate, and the size and shape of the solid frame match the projection of the detection range of the detector on the carrier plate.

In the scheme, the solid line frame can clearly indicate the detection range of the detector, so that a tester can conveniently place the part to be detected in the frame, and the detection efficiency is improved.

In a possible design, the pattern layer is a dot matrix disposed on the carrier plate, and a coverage of the dot matrix matches a projection of a detection range of the detector on the carrier plate.

In the scheme, the use of the dot matrix enables the surface of the bearing plate to be more attractive, and simultaneously accurately indicates the detection range of the detector.

In one possible design, the indicator is an indicator plate disposed on the bearing plate, and a boundary line of the indicator plate, which is connected to the bearing plate, matches a projection of a detection range of the detector on the bearing plate.

In the scheme, the indicator plate and the bearing plate are two independent parts, and the difference between the indicator plate and the bearing plate can be ensured after combination, so that a detector can clearly determine the detection range of the detector.

In one possible design, the indicator plate is a carbon fiber plate, and the indicator plate is embedded on the bearing plate.

In the above scheme, the indicator board of carbon fiber inlays on locating the loading board, so, not only can utilize the two material difference to make the detection scope that the detector can be confirmed to the measurement personnel, utilizes the characteristic of carbon fiber material itself moreover for X ray pierces through the indicator board more easily, and then improves imaging quality.

In one possible design, the indicator plate is different from the carrier plate in at least one of color, material, surface roughness and surface pattern.

In the above scheme, different selections can be adopted between the indicating plate and the bearing plate on the attributes such as color, material, surface roughness and surface pattern, so that the detection range of the detector is displayed, and the detection effect is improved.

In a possible design, the X-ray detection device is further provided with a guide rail, the extending direction of the guide rail is parallel to the plane of the bearing plate, and the emitting device is slidably arranged on the guide rail.

In the above scheme, the transmitting device is arranged on the guide rail in a sliding mode, the transmitting device can move above the bearing plate, the transmitting device can be moved away to facilitate placement before the position to be detected is placed, and the transmitting device can be moved back to perform detection after the position to be detected is placed, so that convenience and adaptability of detection are remarkably improved.

In a possible design, the X-ray detection apparatus further includes a driving device, the driving device is connected to the emitting device, and the driving device is configured to drive the emitting device to move along the extending direction of the guide rail.

In the above scheme, the driving device is arranged to drive the transmitting device to move, so that the automation degree is improved, the labor intensity of detection personnel is reduced, and the convenience of detection is improved.

In a possible design, the emitting device is further provided with a stand column and a handle, one end of the stand column is slidably arranged on the guide rail, the other end of the stand column is connected with the bulb emitter, the light emitting piece and the light bundling device, and the handle is connected with the stand column.

In the above scheme, set up stand and handle and can make things convenient for the measurement personnel to snatch the handle and drive stand and emitter synchronous motion, improved the convenience in the use.

Additional features and advantages of embodiments of the present application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of embodiments of the present application. The objectives and other advantages of the embodiments of the application will be realized and attained by the structure particularly pointed out in the written description and drawings.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in 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 it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of an X-ray detection apparatus provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of another view angle of the X-ray detection apparatus according to the embodiment of the present application;

fig. 3 is a schematic structural diagram of an emitting device of an X-ray detecting apparatus according to an embodiment of the present application;

FIG. 4 is a schematic diagram (I) of an indicator of an X-ray detecting device according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram (II) of an indicator of the X-ray detecting apparatus provided in the embodiment of the present application;

FIG. 6 is a schematic diagram (III) of an indicator of the X-ray detecting device provided in the embodiment of the present application;

fig. 7 is a schematic diagram (four) of an indicator in an X-ray detection device provided in an embodiment of the present application.

Reference numerals:

100-X-ray detection equipment;

1-a carrier plate;

11-an indicator;

12-a pattern layer;

121-solid line box;

122-a lattice;

13-an indicator panel;

2-a detector;

3-a transmitting device;

31-bulb launcher;

32-a light emitting member;

33-a beam light device;

34-column

35-a handle;

4-a guide rail;

5-driving device.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

[ detailed description ] embodiments

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

The following describes a specific embodiment of the X-ray detection apparatus according to the structure of the X-ray detection apparatus provided in the embodiment of the present application.

In the existing X-ray (X-ray) detection device 100, the carrier plate 1 can not be covered by the detector 2 everywhere, but the detector 2 is located below the carrier plate 1, so the position of the detector cannot be accurately and clearly displayed, and the light field constrained by the beam splitter 33 cannot be accurately matched with the effective area of the detector 2. The light field is the range that the X-ray emitted from the emitting device 3 can irradiate after being constrained by the beam splitter 33, and because the X-ray is invisible light, a light emitting member 32 capable of emitting visible light is often arranged beside the X-ray emitter, so that people can distinguish the irradiation range of the X-ray with naked eyes. For a model in which the transmitter 3 is movable and the detector 2 is fixed, when the transmitter 3 is moved and returned to the shooting position, it is difficult to adjust the transmitter 3 to a position directly above the detector 2. Even if the position of the emitting device 3 is not changed, the size of the light field needs to be adjusted again according to the effective range of the detector 2 after the device is restarted or the beam splitter 33 is adjusted, and if the light field does not coincide with the detector 2, the effect during shooting is not good, even shooting needs to be performed again, and the efficiency is low.

In summary, in order to adjust the range of the light field for the X-ray detection device 100 and improve the detection efficiency and the detection effect, the present application provides an X-ray detection device 100, which includes a bearing plate 1, a detector 2 and an emitting device 3, wherein the bearing plate 1 is used for bearing the part to be detected. The detector 2 is fixedly arranged below the bearing plate 1. Emitting device 3 sets up in the top of loading board 1, emitting device 3 includes bulb emitter 31, illuminating part 32 and a light ware 33, illuminating part 32 sets up with bulb emitter 31 syntropy, bulb emitter 31 is used for emitting X ray to detector 2 direction, illuminating part 32 is used for sending out visible light along the direction of bulb emitter 31 transmission X ray, a light ware 33 sets up in the outgoing direction of illuminating part 32 with bulb emitter 31, a light ware 33 is used for adjusting the irradiation range of X ray and visible light. Wherein, be provided with indicator 11 on the loading board 1, indicator 11 is used for instructing the detection range of detector 2.

Referring to fig. 1 and 3, an indicator 11 is disposed on the bearing plate 1, the indicator 11 clearly indicates the detection range of the detector 2 located below the bearing plate 1, when the emitter 3 is restarted or moved, the emitter 3 can be adjusted to the detection position above the bearing plate 1 again, and the irradiation range of the X-ray and the visible light is controlled by adjusting the beam splitter 33, and the range of the visible light is substantially overlapped with the detection range of the detector 2 by the adjustment, so that when the X-ray detection apparatus 100 performs detection, the X-ray emitted by the emitter 3 can substantially overlap with the detection range of the detector 2, thereby ensuring proper irradiation dose control during detection and improving the imaging effect. The light-emitting member 32 can be any device capable of emitting visible light, such as a bulb, the color of light emitted by the light-emitting member 32 can be yellow, and the light-emitting member 32 can approximately coincide with the light-emitting position of the bulb emitter 31, so that the light emitted by the light-emitting member 32 can simulate the irradiation range of X-rays to the greatest extent, and the irradiation range of the light emitted by the light-emitting member 32 onto the bearing plate 1 after being adjusted by the light-beam generator 33 is approximately the same as the irradiation range of the X-rays emitted by the bulb emitter 31 onto the bearing plate 1 after being adjusted by the light-beam generator 33.

In one embodiment, the indicator 11 is a pattern layer 12 disposed on the carrier plate 1.

Referring to fig. 4, the pattern layer 12 may indicate a detection range of the detector 2, the pattern layer 12 may be disposed on the carrier plate 1 by printing, etc., the process is simple, the cost is low, and the pattern layer 12 may be any pattern or shape capable of indicating a detection range of the detector 2, such as a dashed frame, a dot matrix 122, a square matrix, etc. The pattern layer 12 may indicate the position of the detection range of the detector 2 in a manner of directly covering the detection range of the detector 2, or may select a certain range to indicate the position of the detection range of the detector 2, or even not directly disposed directly above the detection range of the detector 2, but indicates the position information of the detection range of the detector 2 on the bearing plate 1 by using the pattern layer 12, such as an arrow, etc., and the specific disposition manner is not limited herein, so that the position of the detection range of the detector 2 can be understood and understood by the detection personnel.

In one embodiment, the pattern layer 12 is a solid line frame 121 disposed on the carrier plate 1, and the size and shape of the solid line frame 121 match the projection of the detection range of the detector 2 on the carrier plate 1.

Referring to fig. 5, the solid-line frame 121 can clearly indicate the detection range of the detector 2, the thickness and the color of the solid-line frame 121 can be set arbitrarily to facilitate recognition, and the solid-line frame 121 can facilitate a tester to place a part to be detected in the frame, so that the detection efficiency is improved.

Referring to fig. 7, the solid frame 121 may be provided with a cross at the inner center position to facilitate the placement of the to-be-detected part of the test object on the detection center instrument, so as to improve the detection precision and the detection effect.

In one embodiment, the pattern layer 12 is a dot matrix 122 disposed on the carrier plate 1, and a coverage of the dot matrix 122 matches a projection of a detection range of the detector 2 on the carrier plate 1.

Referring to fig. 4, the use of the dot matrix 122 makes the surface of the carrier plate 1 more beautiful and also accurately indicates the detection range of the detector 2, and the shape and size of each point in the dot matrix 122 may be the same or different.

In one embodiment, the indicator 11 is an indicator plate 13 disposed on the carrier plate 1, and a boundary line of the indicator plate 13 joined to the carrier plate 1 matches a projection of the detection range of the detector 2 on the carrier plate 1.

Referring to fig. 6, the indication plate 13 and the bearing plate 1 are two separate parts, and the difference between the two parts can be ensured after the combination, so that the detection range of the detector 2 can be clearly determined by the detector, and the indication plate 13 can be directly attached to the bearing plate 1, or a hole can be formed in the bearing plate 1 and the indication plate 13 can be embedded into the hole formed in the bearing plate 1.

In one embodiment, the indication plate 13 is a carbon fiber plate, and the indication plate 13 is embedded in the carrier plate 1.

Referring to fig. 6, the indication plate 13 made of carbon fiber is embedded in the carrier plate 1, so that the detection range of the detector 2 can be determined by the detector by using the difference of the materials of the indication plate and the carrier plate, and the characteristic of the carbon fiber material is used to make the X-ray penetrate the indication plate 13 more easily, thereby improving the imaging quality.

In one embodiment, the indicator board 13 is different from the carrier board 1 in at least one of color, material, surface roughness and surface pattern.

Different choices can be adopted between the indicating plate 13 and the bearing plate 1 in the attributes such as color, material, surface roughness, surface pattern and the like, so that the detection range of the detector 2 is displayed, and the detection effect is improved.

In one embodiment, the X-ray detection device 100 is further provided with a guide rail, the extension direction of the guide rail is parallel to the plane of the loading plate 1, and the emitting device 3 is slidably arranged on the guide rail.

Referring to fig. 2, the launching device 3 is slidably disposed on a plurality of guide rails, so as to improve the movement precision and stability during the sliding process. The emitting device 3 can move above the bearing plate 1, the emitting device 3 can be moved away to facilitate the placing operation before the part to be detected is placed, and the emitting device 3 can be moved back to perform the detection after the part to be detected is placed, so that the convenience and the adaptability of the detection are obviously improved.

In one embodiment, the X-ray detection apparatus 100 further comprises a driving device 5, the driving device 5 is connected to the emitting device 3, and the driving device 5 is used for driving the emitting device 3 to move along the extending direction of the guide rail.

Referring to fig. 2, the driving device 5 may be any structure or device capable of moving the launching device 3 along a certain direction, such as a telescopic cylinder, a motor-driven ball screw structure, a motor-driven gear rack structure, and the like, and the driving device 5 is arranged to drive the launching device 3 to move, so that the degree of automation is improved, the labor intensity of detection personnel is reduced, and the convenience of detection is further improved.

In one embodiment, the emitting device 3 is further provided with a column and a handle, one end of the column is slidably disposed on the guide rail, the other end of the column is connected with the bulb emitter 31, the light emitting element 32 and the beam splitter 33, and the handle is connected with the column.

Please refer to fig. 1 and 2, the upright and the handle are arranged to facilitate the detection personnel to grab the handle to drive the upright and the launching device 3 to move synchronously, so as to improve the convenience in the using process, the handle can be transversely or longitudinally arranged on the upright, when the handle is longitudinally arranged on the side surface of the upright, the operator on the side surface of the bearing plate 1 can conveniently pull the handle to drive the launching device 3 to move, and the convenience in operation is improved.

According to the X-ray detection device 100, the effective detection area position of the detector 2 is arranged on the bearing plate 1, when the device is used, the light-emitting piece 32 in the light-bundling device 33 is firstly opened to emit light, the light field of the light-bundling device 33 is adjusted according to the actual use condition, and the light field is ensured to be completely in the effective detection area of the detector 2, so that accurate shooting can be realized.

Because the irradiation range of the emitting device 3 is accurately limited by the arrangement, the X-ray dosage of a patient during single shooting can be reduced, the requirement on the operation level of a doctor is lowered, the success rate of one-time shooting and the imaging effect are improved, the efficiency is improved, and the cost is reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An X-ray detection apparatus, comprising:

the bearing plate is used for bearing the part to be detected;

the detector is fixedly arranged below the bearing plate; and

the emitting device is arranged above the bearing plate and comprises a bulb tube emitter, a light emitting piece and a light beam device, the light emitting piece and the bulb tube emitter are arranged in the same direction, the bulb tube emitter is used for emitting X rays to the detector direction, the light emitting piece is used for emitting visible light along the direction of emitting the X rays by the bulb tube emitter, the light beam device is arranged in the emergent direction of the light emitting piece and the bulb tube emitter, and the light beam device is used for adjusting the irradiation range of the X rays and the visible light;

the bearing plate is provided with an indicating piece, and the indicating piece is used for indicating the detection range of the detector.

2. The X-ray inspection apparatus of claim 1, wherein the indicator is a patterned layer disposed on the carrier plate.

3. The X-ray detection apparatus according to claim 2, wherein the pattern layer is a solid frame disposed on the carrier plate, and the size and shape of the solid frame match the projection of the detection range of the detector on the carrier plate.

4. The X-ray detection apparatus according to claim 2, wherein the pattern layer is a dot matrix disposed on the carrier plate, and a coverage of the dot matrix matches a projection of a detection range of the detector on the carrier plate.

5. The X-ray inspection apparatus of claim 1, wherein the indicator is an indicator plate disposed on the carrier plate, and a boundary line of the indicator plate and the carrier plate is matched with a projection of the detection range of the detector on the carrier plate.

6. The X-ray detection apparatus according to claim 5, wherein the indicator plate is a carbon fiber plate, and the indicator plate is embedded in the carrier plate.

7. The X-ray inspection apparatus of claim 5, wherein the indicator plate is different from the carrier plate in at least one of color, material, surface roughness and surface pattern.

8. The X-ray detecting device according to claim 1, wherein the X-ray detecting device is further provided with a guide rail, the extending direction of the guide rail is parallel to the plane of the bearing plate, and the emitting device is slidably arranged on the guide rail.

9. The X-ray inspection apparatus of claim 8, further comprising a driving device connected to the emitting device, wherein the driving device is configured to drive the emitting device to move along the extending direction of the guide rail.

10. The X-ray detecting apparatus according to claim 8, wherein the emitting device further comprises a pillar and a handle, one end of the pillar is slidably disposed on the guide rail, the other end of the pillar is connected to the bulb emitter, the light emitting element and the beam splitter, and the handle is connected to the pillar.

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