CN219391861U - X-ray detection equipment - Google Patents

Abstract

The application discloses X-ray check out test set relates to the check out test set field, and it includes the check out test set shell, sliding connection has the working gate on the check out test set shell, set up flutedly on the check out test set shell, fixedly connected with iron core on the lateral wall of recess, around being equipped with the coil on the iron core, the working gate is close to one side sliding connection of iron core has the armature, the inside loading platform that is provided with of check out test set shell, the inside X-ray transmitter, the X-ray receiver that still is provided with of check out test set shell, loading platform is located between X-ray transmitter and the X-ray receiver. The cabin door opening device has the advantages that the error opening of the cabin door by workers in the working process of the X-ray detection device is reduced.

Description

X-ray detection equipment

Technical Field

The application relates to the field of detection equipment, in particular to x-ray detection equipment.

Background

An X-ray (X-ray) detector is equipment for detecting an object to be detected by using X-rays on the premise of not damaging the object to be detected, and the main principle is that the X-rays are generated by impacting a target material by high voltage to penetrate so as to detect electronic components, the internal structural quality of a semiconductor packaging product, the welding quality of welding spots of various SMT types and the like.

X-ray detection equipment can produce X-ray when the during operation, and X-ray can produce harm to the human body when exposing, so the shell structure (generally using the lead plate) on the X-ray detection equipment can effectively reduce the condition that X-ray in the X-ray detection equipment is outwards given off, can effectively reduce the harm that X-ray detection equipment produced to the human body when the during operation, but in the operation process of X-ray detection equipment, staff can lead to X-ray direct irradiation human body if the mistake opens the detection hatch door, produces serious harm to human health.

Disclosure of Invention

In order to reduce the situation that a worker opens a cabin door by mistake in the working process of the X-ray detection equipment, the application provides the X-ray detection equipment.

The application provides an x-ray detection equipment adopts following technical scheme:

the utility model provides an X-ray check out test set, includes the detector shell, sliding connection has the working gate on the detector shell, set up flutedly on the detector shell, fixedly connected with iron core on the lateral wall of recess, around being equipped with the coil on the iron core, the working gate is close to one side sliding connection of iron core has the armature, the inside bearing platform that is provided with of detector shell, the inside X-ray transmitter that still is provided with of detector shell, X-ray receiver, bearing platform is located between X-ray transmitter and the X-ray receiver.

Through adopting above-mentioned technical scheme, the coil is connected with external power supply electricity, when the part is detected to needs, and the staff slides and opens the working gate, will wait to detect the part and place on load-bearing platform, then closes the working gate, starts X-ray equipment, waits to detect the part and tests on load-bearing platform, and the coil circular telegram simultaneously magnetizes the iron core, and armature removes and adsorbs in iron core department, locks the working gate, has effectively reduced the staff and has opened the condition of working gate at X-ray equipment working process mistake.

Preferably, the detector shell is provided with a clamping assembly for clamping the armature, and the detector shell is also provided with an unlocking piece for releasing the clamping assembly.

Through adopting above-mentioned technical scheme, through the setting of joint subassembly, after armature is adsorbed by the iron core, joint subassembly will armature joint, and when detecting to stop, the iron core stops adsorbing armature, but joint subassembly will armature joint, can't directly open the working door, needs to unlock the joint subassembly through the unblock and just can normally open the working door, has further reduced the condition that the working door was opened.

Preferably, the clamping groove is formed in the armature, the clamping assembly comprises a clamping hook rotationally connected to the outer shell of the detector and a first spring fixedly connected to the clamping hook, one end of the first spring is connected to the clamping hook, the other end of the first spring is connected to the outer shell of the detector, and a part of the clamping hook is located in the groove.

Through adopting above-mentioned technical scheme, when armature was adsorbed by the iron core, in armature moved to the recess, armature promoted the pothook and moved, and first spring is pressed, and when the pothook moved to draw-in groove department, first spring made the pothook reset and stretched into the draw-in groove, and is fixed with armature joint, realized the joint of armature.

Preferably, the unlocking piece is a rotating shaft coaxially and fixedly connected to the clamping hook, and a part of the rotating shaft is positioned at the outer side of the shell of the detector.

Through adopting above-mentioned technical scheme, after stop work, the iron core stops to adsorb armature, rotates the axis of rotation this moment, and the rotation of axis of rotation drives the pothook rotation, and first spring is pressed simultaneously, and the pothook rotates out the draw-in groove, releases the locking to armature.

Preferably, a handle which is convenient for a worker to rotate is fixedly connected to the rotating shaft.

Through adopting above-mentioned technical scheme, through the setting of handle, the staff can rotate the handle and drive the axis of rotation and rotate, facilitate the use.

Preferably, a second spring is fixedly connected to the armature, one end of the second spring is connected to the armature, and the other end of the second spring is connected to the working door.

Through adopting above-mentioned technical scheme, through the setting of second spring, armature can reset by oneself after releasing attraction and locking, the use of the armature of being convenient for.

Preferably, a sliding groove is formed in the working door, a sliding block is fixedly connected to the armature, and the sliding block is connected to the sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme, spout and slider play the guide effect to the removal of armature, make the removal of armature more stable.

Preferably, an indicator light for displaying the working state of the X-ray detection equipment is arranged on the shell of the detector.

By adopting the technical scheme, a worker can visually observe the working state of the X-ray detection equipment through the indicator lamp.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by means of the arrangement of the iron core, the coil and the armature, the working door is firmly adsorbed on the shell of the detector through the armature when the X-ray detection equipment works, and the situation that a worker opens the working door by mistake when the X-ray detection equipment works is effectively reduced;

2. by means of the arrangement of the clamping groove, the clamping hook and the first spring, the armature is clamped after the armature is adsorbed, so that the situation that the working door is opened is further reduced;

3. through the setting of pilot lamp, the staff of being convenient for directly observe the operating condition of X-ray check out test set.

Drawings

FIG. 1 is an isometric view of an embodiment of the present application, which is primarily representative of an overall structure;

FIG. 2 is a cross-sectional view of a chute structure embodying mainly the embodiment of the present application;

FIG. 3 is a cross-sectional view of a card slot structure according to an embodiment of the present application;

fig. 4 is a schematic diagram mainly illustrating a structure of a clamping assembly according to an embodiment of the present application;

fig. 5 is a schematic diagram mainly illustrating a bearing platform structure according to an embodiment of the present application;

reference numerals: 1. a detector housing; 2. a work gate; 3. a groove; 4. an iron core; 5. a coil; 6. an armature; 7. a load-bearing platform; 8. an X-ray emitter; 9. an X-ray receiver; 10. a clamping assembly; 101. a clamping hook; 102. a first spring; 20. a clamping groove; 30. a rotating shaft; 40. a handle; 50. a second spring; 60. a chute; 70. a slide block; 80. an indicator light; 90. a display screen; 100. and a control panel.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses x-ray detection equipment.

As shown in FIG. 1, an X-ray detection device comprises a detection machine shell 1, a display screen 90 is installed on the detection machine shell 1, a control panel 100 is also installed on the detection machine shell 1, a worker can control the operation of the X-ray detection device through the control panel 100 and read detection results on the display screen 90, an indicator lamp 80 for displaying the operation state of the X-ray detection device is also arranged on the detection machine shell 1, and the worker can intuitively judge whether the X-ray detection device is in a processing state or a stop state by observing the color of the indicator lamp 80.

As shown in fig. 1 and 2, the working door 2 is slidably connected to the housing 1 of the detecting machine, the sliding groove 60 is formed in the working door 2, the sliding block 70 is slidably connected to the sliding groove 60, the armature 6 is integrally formed on the sliding block 70, the second spring 50 is fixedly connected to the armature 6, one end of the second spring 50 is fixedly connected to the working door 2, the armature 6 is normally located in the working door 2, and when the armature 6 slides, the armature 6 cannot slide out of the working door 2 completely due to the limitation of the sliding groove 60 on the sliding block 70, and only part of the armature 6 can slide out of the working door 2, so that the spring stretches.

As shown in fig. 1 and 2, a groove 3 is formed in a detector housing 1, when a working door 2 slides to be attached to the detector housing 1, an armature 6 is opposite to the groove 3, an iron core 4 is fixedly connected to the side wall of the groove 3, a coil 5 is wound on the iron core 4, the coil 5 is electrically connected with an X-ray detection device, when the X-ray detection device is started and works, the coil 5 is electrified, the iron core 4 adsorbs the armature 6, and the working door 2 is fixed on the detector housing 1.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the clamping groove 20 is formed in the armature 6, the clamping assembly 10 for clamping the armature 6 is provided on the housing 1 of the detector, the clamping assembly 10 includes a clamping hook 101 and a first spring 102, in this embodiment, the first spring 102 is preferably a torsion spring, the clamping hook 101 is rotatably connected to the housing 1 of the detector, one end of the first spring 102 is connected to the clamping hook 101, and the other end is connected to the clamping hook 101, a part of the clamping hook 101 is located in the groove 3 in a normal state, when the armature 6 is adsorbed by the iron core 4, the clamping hook 101 is pressed by the armature 6, at this time, the first spring 102 is also pressed, when the armature 6 continues to move until the clamping groove 20 moves to the clamping groove 101, the clamping hook 101 resets under the rebound action of the first spring 102 and moves into the clamping groove 20 to fix the armature 6 in a clamping manner, at this time, and the armature 6 also moves to a maximum distance exactly.

As shown in fig. 1, 2 and 4, the detector housing 1 is further provided with an unlocking member for releasing the clamping assembly 10, the unlocking member is a rotating shaft 30, the rotating shaft 30 is coaxially and fixedly connected to the hook 101, a part of the rotating shaft 30 extends out of the detector housing 1, and a handle 40 which is convenient for a worker to rotate is fixedly installed on a part of the rotating shaft 30 extending out of the detector housing 1. After the detection of the X-ray detection equipment is completed, the coil 5 is powered off, the adsorption to the armature 6 is released, a worker releases the locking of the clamping hook 101 to the armature 6 by rotating the handle 40, the armature 6 is reset under the rebound action of the second spring 50, and the worker can normally open the working door 2.

As shown in fig. 1 and 5, an X-ray emitter 8 and an X-ray receiver 9 are installed inside the detector housing 1, a bearing platform 7 is also installed inside the detector housing 1, the bearing platform 7 is located between the X-ray emitter 8 and the X-ray receiver 9, and the bearing platform 7 is used for bearing the part to be detected.

The implementation principle of the x-ray detection device in the embodiment of the application is as follows: when the device is put into practical use, a worker opens the working door 2, places a part to be detected on the bearing platform 7, then closes the working door 2, starts the X-ray detection device, at the moment, the coil 5 is electrified, the iron core 4 generates magnetism, the armature 6 is adsorbed, the armature 6 moves into the groove 3 and is clamped by the clamping hook 101, the working door 2 is locked, after detection is finished, the coil 5 is powered off, the adsorption of the armature 6 is released, the worker rotates the handle 40, the clamping hook 101 locks the armature 6, the armature 6 resets under the action of the second spring 50 to be separated from the groove 3, the locking of the working door 2 is released, and the worker can normally open the working door 2.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. An x-ray detection apparatus, characterized in that: including detector shell (1), sliding connection has work gate (2) on detector shell (1), set up flutedly (3) on detector shell (1), fixedly connected with iron core (4) on the lateral wall of recess (3), around being equipped with coil (5) on iron core (4), work gate (2) are close to one side sliding connection of iron core (4) has armature (6), detector shell (1) inside is provided with loading platform (7), detector shell (1) inside still is provided with X-ray transmitter (8), X-ray receiver (9), loading platform (7) are located between X-ray transmitter (8) and X-ray receiver (9).

2. An x-ray detection apparatus according to claim 1, wherein: the detection machine shell (1) is provided with a clamping assembly (10) for clamping the armature (6), and the detection machine shell (1) is also provided with an unlocking piece for releasing the clamping assembly (10).

3. An x-ray detection apparatus according to claim 2, characterized in that: the clamping groove (20) is formed in the armature (6), the clamping assembly (10) comprises a clamping hook (101) which is rotationally connected to the detector casing (1), a first spring (102) which is fixedly connected to the clamping hook (101), one end of the first spring (102) is connected to the clamping hook (101), the other end of the first spring (102) is connected to the detector casing (1), and one part of the clamping hook (101) is located in the groove (3).

4. An x-ray detection apparatus according to claim 3, wherein: the unlocking piece is a rotating shaft (30) which is coaxially and fixedly connected to the clamping hook (101), and one part of the rotating shaft (30) is positioned at the outer side of the detector shell (1).

5. An x-ray inspection apparatus according to claim 4, wherein: the rotating shaft (30) is fixedly connected with a handle (40) which is convenient for a worker to rotate.

6. An x-ray detection apparatus according to claim 1, wherein: the armature (6) is fixedly connected with a second spring (50), one end of the second spring (50) is connected to the armature (6), and the other end of the second spring (50) is connected to the working door (2).

7. An x-ray detection apparatus according to claim 1, wherein: a sliding groove (60) is formed in the working door (2), a sliding block (70) is fixedly connected to the armature (6), and the sliding block (70) is connected to the sliding groove (60) in a sliding mode.

8. An x-ray detection apparatus according to claim 1, wherein: an indicator lamp (80) for displaying the working state of the X-ray detection equipment is arranged on the detector shell (1).