CN217820086U - X-ray detection alignment device - Google Patents

Abstract

The utility model is suitable for the technical field of X-ray detection, and provides an X-ray detection aligning device, which comprises a casing, a lifting mechanism and a control cabinet which are arranged in the casing, and a flat plate and an aligning mechanism which are arranged on the casing; the flat plate is positioned on the detection surface of the alignment mechanism, and the lifting mechanism is used for connecting and driving the X-ray generator to move along the vertical direction; the aligning mechanism comprises an image receiving device for receiving projection, a radiation protection cover for preventing X-rays from leaking and a radiation protection tray for placing materials to be detected; on the dull and stereotyped was arranged in to the tray of protecting against radiation, image receiving arrangement was located the radiation shield and is concerned with the implementation the beneficial technical effects of the utility model are that: the definition of the image received by the image receiving device is adjustable; the problem of X ray leak exists when placing or detecting the product is solved.

Description

X-ray detection alignment device

Technical Field

The utility model belongs to the X ray detection field especially relates to X ray detection aligning device.

Background

The X-ray is an electromagnetic wave with extremely high frequency, extremely short wavelength and very large energy, the frequency and the energy of the X-ray are only second to gamma rays, the frequency range is 30PHz to 300EHz, the corresponding wavelength is 1pm to 10nm, and the energy is 124eV to 1.24MeV. The X-ray has penetrability, when the X-ray penetrates through different materials, the absorbed degree is different, and different images can be obtained after the development treatment. Therefore, the X-ray is widely applied to the alignment detection of electronic products, the existing detection equipment directly places the products in a detection area, and the problem of X-ray leakage exists when the products are placed or detected.

SUMMERY OF THE UTILITY MODEL

The utility model provides an X ray detection aligning device aims at solving and has the problem that X ray leaked when placing or detecting the product.

The utility model is realized in such a way that the X-ray detection aligning device comprises a casing, a lifting mechanism and a control cabinet which are arranged in the casing, and a flat plate and an aligning mechanism which are arranged on the casing; the flat plate is positioned on the detection surface of the alignment mechanism, and the lifting mechanism is used for connecting and driving the X-ray generator to move along the vertical direction;

the alignment mechanism comprises an image receiving device for receiving projection and a radiation protection cover for preventing X-ray leakage, a plurality of products to be detected are placed on the detection surface for detection conveniently at one time, and the alignment mechanism comprises a radiation protection tray for placing materials to be detected; the radiation-proof tray is arranged on the flat plate, and the image receiving device is positioned in the radiation-proof cover.

Furthermore, X ray generator irradiation range is the toper, elevating system is used for driving X ray generator and is close to or keeps away from counterpoint mechanism, through adjusting distance between X ray generator and the counterpoint mechanism changes the received irradiation face area of counterpoint mechanism, and then changes the definition of surveying the image, in order to can accurate regulation X ray generator's position, elevating system include the lead screw of being connected with motor drive, with lead screw threaded connection's elevating platform, lead screw drive has control accuracy height, and is longe-lived, and work is carried out steadily, advantages such as reliability height.

Furthermore, the lead screw rotates in order to adjust the position of elevating platform, in order to reduce the consumption of motor, makes simultaneously the elevating platform can move to suitable position steadily, elevating system still includes two at least guide rails, the elevating platform sets up on the guide rail.

Further, in order to solve the problem that the X-ray can leak from the gap between the flat plate and the radiation shield, the radiation-proof tray comprises a bottom plate and a radiation-proof frame arranged along the edge of the bottom plate; the radiation shield is characterized in that a gap is formed between the radiation shield and the flat plate, the bottom plate is located in the gap, and the radiation shield, the radiation shield frame and the flat plate are all tightly arranged, so that the problem that X rays can leak from the gap between the flat plate and the radiation shield is solved.

Furthermore, in order to observe the image detected by the alignment mechanism in real time, the detection alignment device further comprises a display mechanism for displaying the detected image in real time, the alignment mechanism transmits the detection data to an imaging module in the control cabinet, the imaging module converts the detected X-rays into image data and transmits the image data to the display mechanism, and the image displayed by the display mechanism can reflect the detection result more intuitively.

Furthermore, display mechanism includes mount pad and display screen, the display screen is installed on the mount pad, the mount pad is equipped with the reinforcing plate for L type structure and right angle junction, the reinforcing plate improves the steadiness and the reliability of mount pad, the mount pad passes through the bolt and installs in counterpoint mechanism up end, the display screen passes through the bolt and installs on the mount pad, simple structure and easy dismounting.

Furthermore, for the convenience of right elevating system's internal part overhauls and maintains, the casing includes the access door, for the convenience of opening or closing the access door, one of them preferred scheme does the access door includes the cam lock of taking the handle, the handle adopts the integral type structure with the cam lock to be convenient for one-hand switch access door.

Furthermore, the control cabinet comprises a radiation-proof shell, and the radiation-proof shell is used for absorbing X rays, so that accidental leakage of the X rays during overhauling or maintaining the control cabinet can be avoided.

Furthermore, a cabinet handle is arranged on the control cabinet, and the control cabinet can be conveniently installed or taken out through the cabinet handle.

Furthermore, the detection aligning device further comprises an indicator light for displaying the working state, and different working states of the equipment can be distinguished conveniently through different colors of the indicator light.

About implementing the utility model discloses a beneficial technological effect does: the lifting mechanism drives the X-ray generator to be close to or far away from the product, the area of an irradiated surface received by the alignment mechanism is changed, and the definition of a detected image is further changed; because the radiation protection cover, the radiation protection frame and the flat plate are all tightly arranged, the problem of X-ray leakage in the process of placing or detecting a product is solved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the display mechanism and the housing structure of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 2;

fig. 5 is a schematic structural view of the radiation-proof tray of the present invention.

In the above drawings, the symbols have the meanings indicated:

1. a housing; 2. a lifting mechanism; 3. a control cabinet; 4. a flat plate; 5. an alignment mechanism; 6. a display mechanism; 7. an indicator light;

101. a control cabinet door; 102. an access door; 103. a caster wheel; 104. a switch knob; 105. a sudden stop knob; 106. a heat dissipation port;

201. a screw rod; 202. a lifting platform; 203. a motor; 204. a guide rail; 205. a vertical plate;

301. a cabinet handle;

501. an image receiving device; 502. a radiation shield; 503. a radiation-proof tray;

5031. a base plate; 5032. a radiation-proof frame; 5033. a tray handle; 5034. a protective sponge;

601. a mounting base; 602. a display screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to fig. 3, the present embodiment is an X-ray detection aligning apparatus, which includes a housing 1, a lifting mechanism 2 and a control cabinet 3 disposed in the housing 1, and a flat plate 4 and an aligning mechanism 5 disposed on the housing 1; the flat plate 4 is positioned on the detection surface of the alignment mechanism 5, and the lifting mechanism 2 is used for connecting and driving the X-ray generator to move along the vertical direction;

preferably, the casing 1 comprises a control cabinet door 101 corresponding to the control cabinet 3, so as to protect the control cabinet 3; the bottom of the machine shell 1 is provided with a caster 103, which is convenient for moving the embodiment; the machine shell 1 is provided with a switch knob 104 and an emergency stop knob 105 which are arranged in a sunk mode, so that the embodiment can be controlled conveniently and the knob is prevented from being touched by mistake; the casing 1 is also provided with a heat dissipation port 106 positioned at the heat dissipation fan of the control cabinet 3; the casing 1 further comprises a radiation-proof inner container, and the lifting mechanism 2 is located in the inner container, so that leakage of X-rays from the casing 1 is effectively avoided.

Referring to fig. 2, the aligning mechanism 5 includes an image receiving device 501 for receiving projection and a radiation shield 502 for preventing X-ray leakage, so as to conveniently place a plurality of products to be detected on a detection surface at a time for detection, and the aligning mechanism 5 further includes a radiation-proof tray 503 for placing materials to be detected; the radiation-proof tray 503 is arranged on the flat plate 4, the image receiving device 501 is positioned in the radiation-proof cover 502, and a product to be detected is arranged on the radiation-proof tray 503, so that X-ray leakage during product placement or detection can be avoided.

Referring to fig. 4, the irradiation range of the X-ray generator is conical, the lifting mechanism 2 is used for driving the X-ray generator to approach or leave the aligning mechanism 5, the irradiation surface area received by the aligning mechanism 5 can be changed by adjusting the distance between the X-ray generator and the aligning mechanism 5, and further the detection definition can be changed, in order to accurately adjust the position of the X-ray generator, the lifting mechanism 2 comprises a vertical plate 205 arranged in the casing 1, a lead screw 201 in transmission connection with the motor 203, and a lifting platform 202 in threaded connection with the lead screw 201, wherein the motor 203 and the lead screw 201 are both arranged on the vertical plate 205, and the lead screw transmission has the advantages of high control precision, long service life, stable work, high reliability and the like;

preferably, the motor 203 is a speed-adjustable motor, so as to facilitate rapid adjustment of the lifting platform 202 to a specified position.

The lead screw 201 rotates in order to adjust the position of elevating platform 202, in order to reduce the consumption of motor 203, makes elevating platform 202 can move to suitable position steadily simultaneously, and elevating system 2 still includes two at least guide rails 204, and elevating platform 202 sets up on guide rail 204, and guide rail 204 is installed on riser 205, still can be installed the gyro wheel on elevating platform 202 with guide rail 204 replacement, and the gyro wheel contacts with riser 205, further promotes the stationarity when elevating platform 202 removes.

Referring to fig. 5, in order to solve the problem that X-rays may leak from the gap between the flat plate 4 and the radiation shield 502, the radiation shielding tray 503 includes a bottom plate 5031 and a radiation shielding bezel 5032 provided along the edge of the bottom plate 5031; a gap is formed between the radiation shield 502 and the flat plate 4, and the radiation shield 502, the radiation shield frame 5032 and the flat plate 4 are all tightly arranged, so that the problem that the X-rays may leak from the gap between the flat plate 4 and the radiation shield 502 is solved.

Preferably, the radiation-proof tray 503 further includes a tray handle 5033 provided on the radiation-proof side frame 5032 and a protective sponge 5034 provided on the inner wall of the radiation-proof side frame 5032 to facilitate the movement of the radiation-proof tray 503 and further prevent leakage of X-rays.

In order to observe the image detected by the aligning mechanism 5 in real time, the detection aligning device further comprises a display mechanism 6 for displaying the detected image in real time, the aligning mechanism 5 transmits the detection data to an imaging module in the control cabinet 3, the imaging module converts the detected X-rays into image data and transmits the image data to the display mechanism 6, and the image displayed by the display mechanism 6 can reflect the detection result more intuitively.

Referring to fig. 3, display mechanism 6 includes mount pad 601 and display screen 602, and display screen 602 installs on mount pad 601, and mount pad 601 is equipped with the reinforcing plate for L type structure and right angle junction, and the reinforcing plate improves the steadiness and the reliability of mount pad 601, and mount pad 601 passes through the bolt to be installed in counterpoint mechanism 5 up end, and display screen 602 passes through the bolt to be installed on mount pad 601, simple structure and easy dismounting.

For the convenience right elevating system 2's internal part overhauls and maintains, and casing 1 includes access door 102, for the convenience opens or closes access door 102, access door 102 include the cam lock of taking the handle, handle and cam lock adoption integral type structure be convenient for one-hand switch access door 102 adopt blade cam lock in this scheme: the key is a blade-shaped system structure, and the safety performance of the key is better.

Referring to fig. 2, the control cabinet 3 includes a radiation-proof housing, which can prevent the accidental leakage of X-rays when the control cabinet 3 is overhauled or maintained.

Be equipped with rack handle 301 on the control rack 3, can conveniently install or take out control rack 3 through rack handle 301, in this scheme, two rack handles 301 are located 3 upper and lower ends of control rack respectively, and both hands are installed or are taken out control rack 3 safelyr.

The detection aligning device also comprises an indicator light 7 for displaying the working state, and different working states of the equipment can be conveniently distinguished through different colors displayed by the indicator light 7.

The working principle of the embodiment is as follows: the product to be detected is placed on the radiation-proof tray 503, the radiation-proof tray 503 is placed as shown in fig. 1, the lifting mechanism 2 adjusts the X-ray generator to a proper position, and the image receiving device 501 can receive the product image and is used for alignment detection due to different absorption degrees of different materials to the X-ray.

The beneficial technical effects related to the embodiment are as follows: the lifting mechanism 2 drives the X-ray generator to approach or leave the product, the area of an irradiated surface received by the aligning mechanism 5 is changed, and the definition of a detected image is further changed; because the radiation shield 502, the radiation-proof border 5032 and the flat plate 4 are all tightly arranged, the problem of X-ray leakage during product placement or detection is solved.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. X ray detection aligning device, its characterized in that: the device comprises a machine shell (1), a lifting mechanism (2) and a control cabinet (3) which are arranged in the machine shell (1), and a flat plate (4) and an alignment mechanism (5) which are arranged on the machine shell (1); the flat plate (4) is positioned on a detection surface of the alignment mechanism (5), and the lifting mechanism (2) is used for connecting and driving the X-ray generator to move along the vertical direction;

   the alignment mechanism (5) comprises an image receiving device (501) for receiving projection, a radiation protection cover (502) for preventing X-ray leakage and a radiation protection tray (503) for placing a material to be detected; the radiation-proof tray (503) is arranged on the flat plate (4), and the image receiving device (501) is positioned in the radiation-proof cover (502).
2. 2. The X-ray detection alignment device according to claim 1, wherein: the lifting mechanism (2) comprises a screw rod (201) in transmission connection with a motor (203), and a lifting platform (202) in threaded connection with the screw rod (201).
3. 3. The X-ray detection alignment device according to claim 2, wherein: the lifting mechanism (2) further comprises at least two guide rails (204), and the lifting platform (202) is arranged on the guide rails (204).
4. 4. The X-ray detection alignment device according to claim 1, wherein: the radiation-proof tray (503) comprises a bottom plate (5031) and a radiation-proof frame (5032) arranged along the edge of the bottom plate (5031); a gap is formed between the radiation-proof shield (502) and the flat plate (4), and the bottom plate (5031) is positioned in the gap.
5. 5. The X-ray detection alignment device according to claim 1, wherein: the detection alignment device further comprises a display mechanism (6) for displaying the detection image in real time.
6. 6. The X-ray detection alignment device according to claim 5, wherein: the display mechanism (6) comprises a mounting seat (601) and a display screen (602), and the display screen (602) is mounted on the mounting seat (601).
7. 7. The X-ray detection alignment device according to claim 1, wherein: the cabinet (1) comprises an access door (102), and the access door (102) comprises a cam lock with a handle.
8. 8. The X-ray detection alignment device according to claim 1, wherein: the control cabinet (3) comprises a radiation-proof shell.
9. 9. The X-ray detection alignment device according to claim 1, wherein: and a cabinet handle (301) is arranged on the control cabinet (3).
10. 10. The X-ray detection alignment device according to claim 1, wherein: the detection contraposition device also comprises an indicator light (7) for displaying the working state.

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