CN102466647B

CN102466647B - X-ray detection equipment

Info

Publication number: CN102466647B
Application number: CN 201010546588
Authority: CN
Inventors: 林毅宁
Original assignee: KUNSHAN SCIENSCOPE OPTOELECTRONICS TECHNOLOGY Co Ltd
Current assignee: KUNSHAN SCIENSCOPE OPTOELECTRONICS TECHNOLOGY Co Ltd
Priority date: 2010-11-17
Filing date: 2010-11-17
Publication date: 2013-08-21
Anticipated expiration: 2030-11-17
Also published as: CN102466647A

Abstract

The invention discloses X-ray detection equipment. The X-ray detection equipment is characterized in that a hoisting mechanism can rotate relative to a post part under the control of a second motor; a detector assembly is fixedly positioned on the upper part of the post part; a light pipe part is fixedly positioned on the lower part of the post part; an object stage is fixedly positioned between the detector assembly and the light pipe part; a fixed assembly of the light pipe part is uprightly arranged on a horizontal straight arm; a movable assembly of the light pipe part can rotate relative to the fixed assembly under the control of a first motor; the rotating direction of the movable assembly is opposite to that of the hoisting mechanism; the rotating angle of the movable assembly is less than that of the hoisting mechanism; a light pipe is arranged on the movable assembly; the whole part of the light pipe part is driven to synchronously rotate when the hoisting mechanism rotates; and the movable assembly on the light pipe part synchronously and conversely rotates so that the light pipe arranged on the movable assembly is prevented from running into the object stage, therefore the light pipe part can be arranged much closer to the object stage.

Description

X-ray check equipment

Technical field

The present invention relates to a kind of detector, especially a kind of X-ray check equipment.

Background technology

The light pipe part of general detector on the market is further from objective table, thereby can avoid the light pipe part with the phenomenon of elevating mechanism rotation back collision objective table, yet the light pipe part is further from objective table, the corresponding very big distance of the corresponding rising of detector assembly that must make guarantees that detector assembly behind the light pipe emission x-ray detects the enlargement factor of object, so just increased elevating mechanism on, the length at following lifting position, enclosure space is corresponding will the increase also, and x-ray is worn and is penetrated on objective table optical density and descended and cause the x-ray utilization rate to descend, guarantee that higher optical density just must choose the higher light pipe equipment of cost, so greatly increased the manufacturing cost of detector, and increased taking up room when detector is placed.

Summary of the invention

In order to overcome above-mentioned defective, the invention provides a kind of X-ray check equipment, the manufacturing cost that can effectively reduce detector is good, and can reduce the detector volume.

The present invention for the technical scheme that solves its technical matters and adopt is:

A kind of X-ray check equipment comprises casing and is fixedly arranged on the interior mechanism assembly of casing that described mechanism assembly comprises column part, elevating mechanism, detector assembly, light pipe part and objective table; Described column partial fixing stands on the casing bottom surface, and this elevating mechanism is hinged by first turning axle and column part, and this column part is provided with the second motor outputting power in first turning axle and drives the elevating mechanism rotation; This detector assembly is fixed positioned in column top partly by a horizontal straight-arm, and the test surface of its detector assembly down; This light pipe part is fixed positioned in the bottom of column part by another horizontal straight-arm, this objective table is fixed positioned between detector assembly and the light pipe part, described light pipe partly includes fixation kit and movable component, fixation kit uprightly is fixed on the horizontal straight-arm, hinged by second turning axle between this movable component and the fixation kit, this fixation kit is provided with the first motor outputting power in second turning axle and drives the movable component rotation, the sense of rotation of this movable component is opposite with the sense of rotation of elevating mechanism, and the anglec of rotation of this movable component is less than the anglec of rotation of elevating mechanism, this movable component is provided with light pipe, in the detector multi-angle testing process, the elevating mechanism rotation can drive the whole rotation synchronously of light pipe part, the light pipe that the synchronous retrograde rotation of movable component on the light pipe part can be avoided being located on the movable component collides objective table, thereby can make that light pipe partly arranges comparatively near apart from objective table, avoid rotary collision by making the light pipe part away from objective table with the conventional sense instrument, this detector need not to make the very big distance of the corresponding rising of detector assembly to guarantee that detector assembly behind the light pipe emission X-ray detects the enlargement factor of object, so just saved the manufacturing cost of elevating mechanism, reduced enclosure space to save the casing cost, thereby effectively promote the x-ray utilization rate has reduced the light pipe part largely the cost of choosing, the luminous point of this light pipe is positioned on the axes extending line of second turning axle, can guarantee that like this light that light pipe sends can not depart from because of the rotation of movable component, guarantees to wear the object under test of penetrating on the objective table 7.

As a further improvement on the present invention, described uprights branch comprises column, second motor and the speed reduction unit that has base, described second motor is installed into the column bottom, speed reduction unit is installed into the column upper end, the rotatable location of described first turning axle wears the power delivery end into column top and the speed reduction unit that is connected, in first turning axle, this first turning axle fixedly is placed through the middle part of described elevating mechanism to second motor by the speed reduction unit outputting power.

As a further improvement on the present invention, described elevating mechanism comprises middle part fixed part and upper and lower lifting unit; Should go up the fixedly connected horizontal straight-arm that stretches out on lifting unit, described detector assembly be installed in this horizontal straight-arm below; Fixedly connected another horizontal straight-arm that stretches out on this time lifting unit, the bottom of the fixation kit of described light pipe part are installed on the external part of this another horizontal straight-arm.

As a further improvement on the present invention, described detector assembly is made up of camera and flat panel detector, this camera and flat panel detector be installed at interval described horizontal straight-arm below, this flat panel detector is positioned on the external part of this horizontal straight-arm.

As a further improvement on the present invention, the fixation kit of described light pipe part also includes reductor and driving gear component, described first motor is located at the fixation kit bottom, reductor is located at above first motor, the rotatable location of described second turning axle wears the top into fixation kit, the driving gear component rotational positioning is arranged on fixation kit on the surface of movable component and the power delivery end of the reductor that is connected, and this can transmission second turning axle, and first motor via reducer and driving gear component outputting power are in second turning axle.

As a further improvement on the present invention, to drive the angle of the movable component rotation of light pipe part be half of described first turning axle angle that drives the elevating mechanism rotation for described second turning axle.

As a further improvement on the present invention, the angular range of described first turning axle drive elevating mechanism rotation is 0 °～90 °; The angular range that described second turning axle drives the movable component rotation of light pipe part is: 0 °～45 °.

The invention has the beneficial effects as follows: light pipe partly is arranged to light pipe can be with the structure of the relative elevating mechanism synchronous backward rotation of movable component, in detector multi-angle testing process, the elevating mechanism rotation can drive the whole rotation synchronously of light pipe part, the light pipe that the synchronous retrograde rotation of movable component on the light pipe part can be avoided being located on the movable component collides objective table, thereby can make that light pipe partly arranges comparatively near apart from objective table, avoid rotary collision by making the light pipe part away from objective table with the conventional sense instrument, this detector need not to make the very big distance of the corresponding rising of detector assembly to guarantee that detector assembly behind the light pipe emission X-ray detects the enlargement factor of object, so just saved the manufacturing cost of elevating mechanism, reduced enclosure space to save the casing cost, thereby effectively promote the x-ray utilization rate has reduced the light pipe part largely the cost of choosing, the luminous point of this light pipe is positioned on the axes extending line of second turning axle, can guarantee that like this light that light pipe sends can not depart from because of the rotation of movable component, guarantees to wear the object under test of penetrating on the objective table.

Description of drawings

Fig. 1 is structural profile synoptic diagram of the present invention;

Fig. 2 is the structural representation of mechanism assembly of the present invention;

Fig. 3 is the structural representation of column part of the present invention;

Fig. 4 is the package assembly synoptic diagram of elevating mechanism of the present invention and detector assembly;

Fig. 5 is the structural representation of light pipe part of the present invention;

Fig. 6 is the working state schematic representation of the mechanism assembly of elevating mechanism of the present invention when upright;

Fig. 7 is the working state schematic representation of the postrotational mechanism assembly of elevating mechanism of the present invention.

Embodiment

Embodiment: a kind of X-ray check equipment comprises casing 1 and is fixedly arranged on the interior mechanism assembly 2 of casing that described mechanism assembly comprises column part 3, elevating mechanism 4, detector assembly 5, light pipe part 6 and objective table 7; Described column part 3 fixedly stands on the casing bottom surface, and this elevating mechanism 4 is hinged with column part 3 by first turning axle 11, and this column part 3 is provided with the second motor outputting power in first turning axle 11 and drives elevating mechanism 4 rotations; This detector assembly 5 is fixed positioned in the top of column part 3 by a horizontal straight-arm, and the test surface of its detector assembly 5 down; This light pipe part 6 is fixed positioned in the bottom of column part 3 by another horizontal straight-arm, this objective table 7 is fixed positioned between detector assembly 5 and the light pipe part 6, described light pipe part 6 includes fixation kit and movable component, fixation kit uprightly is fixed on the horizontal straight-arm, hinged by second turning axle 12 between this movable component and the fixation kit, this fixation kit is provided with first motor, 61 outputting powers in second turning axle 12 and drives the movable component rotation, the sense of rotation of this movable component is opposite with the sense of rotation of elevating mechanism 4, and the anglec of rotation of this movable component is less than the anglec of rotation of elevating mechanism 4, this movable component is provided with light pipe 60, in the detector multi-angle testing process, elevating mechanism 4 rotations can drive the whole rotation synchronously of light pipe part 6, the light pipe 60 that the synchronous retrograde rotation of movable component on the light pipe part 6 can be avoided being located on the movable component collides objective table 7, thereby can make the comparatively close apart from objective table 7 of light pipe part 6 settings, avoid rotary collision by making light pipe part 6 away from objective table 7 with the conventional sense instrument, this detector need not to make the very big distance of detector assembly 5 corresponding risings to guarantee that detector assembly 5 behind the light pipe 60 emission X-rays detects the enlargement factor of object, so just saved the manufacturing cost of elevating mechanism, reduced enclosure space to save the casing cost, thereby effectively promote the x-ray utilization rate has reduced the light pipe part largely the cost of choosing, the luminous point 600 of this light pipe 60 is positioned on the axes extending line of second turning axle 12, can guarantee that like this light that light pipe sends can not depart from because of the rotation of movable component, guarantees to wear the object under test of penetrating on the objective table 7.

Described column part 3 comprises column 31, second motor and the speed reduction unit 32 that has base, described second motor is installed into column 31 bottoms, column 31 upper ends are gone in speed reduction unit 32 installings, described first turning axle 11 rotatable location wear the power delivery end into column 31 tops and the speed reduction unit 32 that is connected, in first turning axle 11, this first turning axle fixedly is placed through the middle part of described elevating mechanism 4 to second motor by speed reduction unit 32 outputting powers.

Described elevating mechanism 4 comprises middle part fixed part 40 and upper and

lower lifting unit

41,42; Should go up the fixedly connected horizontal straight-arm that stretches out on lifting unit 41, described detector assembly 5 be installed in this horizontal straight-arm below; Fixedly connected another horizontal straight-arm that stretches out on this time lifting unit 42, the bottom of the fixation kit of described light pipe part 6 are installed on the external part of this another horizontal straight-arm.

Described detector assembly 5 is made up of camera 51 and flat panel detector 52, this camera 51 and flat panel detector 52 be installed at interval described horizontal straight-arm below, this flat panel detector 52 is positioned on the external part of this horizontal straight-arm.

The fixation kit of described light pipe part 6 also includes reductor 62 and driving gear component 63, described first motor 61 is located at the fixation kit bottom, reductor 62 is located at above first motor 61, described second turning axle 12 rotatable location wear the top into fixation kit, driving gear component 63 rotational positioning are arranged on fixation kit on the surface of movable component and the power delivery end of the reductor 62 that is connected, and this can transmission second turning axle, 12, the first motors 61 by reductor 62 and driving gear component 63 outputting powers in second turning axle 12.

The angle that described second turning axle 12 drives the movable component rotation of light pipe parts 6 is half of described first turning axle 11 angle that drives elevating mechanisms 4 rotations.

The angular range that described first turning axle 11 drives elevating mechanism 4 rotations is 0 °～90 °; The angular range that described second turning axle 12 drives the movable component rotation of light pipe part 6 is: 0 °～45 °.

Claims

1. an X-ray check equipment comprises casing (1) and is fixedly arranged on the interior mechanism assembly (2) of casing, and described mechanism assembly comprises column part (3), elevating mechanism (4), detector assembly (5), light pipe part (6) and objective table (7); Described column part (3) fixedly stands on the casing bottom surface, this elevating mechanism (4) is hinged with column part (3) by first turning axle (11), and this column part (3) is provided with the second motor outputting power in first turning axle (11) and drives elevating mechanism (4) rotation; This detector assembly (5) is fixed positioned in the partly top of (3) of column by a horizontal straight-arm, and the test surface of its detector assembly (5) down; This light pipe part (6) is fixed positioned in the bottom of column part (3) by another horizontal straight-arm, this objective table (7) is fixed positioned between detector assembly (5) and the light pipe part (6), it is characterized in that: described light pipe part (6) includes fixation kit and movable component, fixation kit uprightly is fixed on the horizontal straight-arm, hinged by second turning axle (12) between this movable component and the fixation kit, this fixation kit is provided with first motor (61) outputting power in second turning axle (12) and drives the movable component rotation, the sense of rotation of this movable component is opposite with the sense of rotation of elevating mechanism (4), and the anglec of rotation of this movable component is less than the anglec of rotation of elevating mechanism (4), this movable component is provided with light pipe (60), and the luminous point (600) of this light pipe (60) is positioned on the axes extending line of second turning axle (12).

2. X-ray check equipment according to claim 1, it is characterized in that: described column part (3) comprises the column (31) that has base, second motor and speed reduction unit (32), described second motor is installed into column (31) bottom, column (31) upper end is gone in speed reduction unit (32) installing, the rotatable location of described first turning axle (11) wears the power delivery end into column (31) top and the speed reduction unit that is connected (32), in first turning axle (11), this first turning axle fixedly is placed through the middle part of described elevating mechanism (4) to second motor by speed reduction unit (32) outputting power.

3. X-ray check equipment according to claim 1 is characterized in that: fixed part (40) and upper and lower lifting unit (41,42) in the middle part of described elevating mechanism (4) comprises; Should go up lifting unit (41) and go up the fixedly connected horizontal straight-arm that stretches out, described detector assembly (5) be installed in this horizontal straight-arm below; This time lifting unit (42) is gone up fixedly connected another horizontal straight-arm that stretches out, and the bottom of the fixation kit of described light pipe part (6) is installed on the external part of this another horizontal straight-arm.

4. X-ray check equipment according to claim 3, it is characterized in that: described detector assembly (5) is made up of camera (51) and flat panel detector (52), this camera (51) and flat panel detector (52) be installed at interval described horizontal straight-arm below, this flat panel detector (52) is positioned on the external part of this horizontal straight-arm.

5. X-ray check equipment according to claim 3, it is characterized in that: the fixation kit of described light pipe part (6) also includes reductor (62) and driving gear component (63), described first motor (61) is located at the fixation kit bottom, reductor (62) is located at above first motor (61), the rotatable location of described second turning axle (12) wears the top into fixation kit, driving gear component (63) rotational positioning is arranged on fixation kit on the surface of movable component and the power delivery end of the reductor that is connected (62), and this can transmission second turning axle (12), first motor (61) by reductor (62) and driving gear component (63) outputting power in second turning axle (12).

5, X-ray check equipment according to claim 1 is characterized in that: the angle that described second turning axle (12) drives the movable component rotation of light pipe part (6) is half of described first turning axle (11) angle that drives elevating mechanism (4) rotation.

6. X-ray check equipment according to claim 5 is characterized in that: the angular range that described first turning axle (11) drives elevating mechanism (4) rotation is 0 °～90 °; The angular range that described second turning axle (12) drives the movable component rotation of light pipe part (6) is: 0 °～45 °.