CN2886560Y

CN2886560Y - Channel type X-ray direct digital imaging detector

Info

Publication number: CN2886560Y
Application number: CN 200520078889
Authority: CN
Inventors: 崔文龙; 乔存德; 张瑞琴; 赵建明; 赵肖东; 贾谊
Original assignee: SANLEI ELECTRONIC CO Ltd LANZHOU
Current assignee: SANLEI ELECTRONIC CO Ltd LANZHOU
Priority date: 2005-05-30
Filing date: 2005-05-30
Publication date: 2007-04-04
Anticipated expiration: 2015-05-30

Abstract

A passage-type X-ray direct digital imaging detection device comprises an upper rack (1), a protection passage (2), a lower rack (3), and a work-piece transfer structure (4), wherein an X-ray machine (1-5) is installed in a lead box (1-1), a focusing collimator (1-4) is installed in the casing of the lead box (1-1) at the X-ray irradiating direction (OO') of the X-ray machine (1-5), the axis of the through hole arranged on the collimator (1-4) is coincident with the X-ray irradiating direction (OO'), a light shutter (1-3) is installed on the flank of the collimator (1-4), the imager (4-5) is mounted under the apron (4-2) of the work-piece transfer structure (4) relative to the X-ray machine (1-5), the X-ray irradiating direction (OO') passes through the central line of the imager (4-5), the protection passage (2) is separated into several segments, a lead rubber curtain (2-2) is hanged between each segment, deflector plates (2-1) and (2-4) are respectively installed on the top and flank of the protection passage (2).

Description

Channel-type X ray Direct Digital imaging detection device

Technical field

The present invention relates to non-destructive detecting device, specifically is a kind of channel-type x-ray detection device.

Background technology

At present, existing parts X ray digital imagery pick-up unit generally all is the pick-up unit at a certain or several part special uses, and its detection efficiency is low, versatility is relatively poor.Major part is still carried out the detection of parts inherent vice with the film making method.

Summary of the invention

The purpose of this utility model provides a kind of channel-type X ray Direct Digital imaging detection device, kind in enormous quantities to satisfy, many, middle-size and small-size parts and raw-material detection.Employing Open architecture design, but both self-organizing systems also can link to each other with product line.

The utility model is a channel-type X ray Direct Digital imaging detection device, comprise rack (1), protection channel (2), following rack (3), workpiece conveying mechanism (4), X-ray machine (1-5) is installed in the plumbous case (1-1), in the housing of the plumbous case (1-1) on the X ray radiation direction (OO ') of X-ray machine (1-5) collimating apparatus of focussing force (1-4) together is installed, the axis of the through hole of offering on the collimating apparatus (1-4) overlaps with X ray radiation direction (OO '), one optical gate (1-3) is installed on the sidewall of collimating apparatus (1-4), imager (4-5) is installed under the conveying belt (4-2) of workpiece conveying mechanism (4) with respect to X-ray machine (1-5), X ray radiation direction (OO ') is passed the center line of imager (4-5), protection channel (2) is divided into plurality of sections, hang with plumbous rubber curtain (2-2) between each section, on the top side of protection channel (2) and sidewall, be separately installed with reflecting plate (2-1), (2-4).

Workpiece conveying mechanism (4) comprises conveying belt engaged wheel (4-1), conveying belt (4-2), tensioning system (4-3), conveying belt driving wheel (4-4), imager box (4-5 '), servomotor (4-6), harmonic wave speed reducing machine (4-7), cog belt (4-8), servomotor (4-6) drives conveying belt driving wheel (4-4) and rotates by harmonic wave speed reducing machine (4-7), cog belt (4-8), drive conveying belt engaged wheel (4-1) and rotate by conveying belt (4-2), tensioning system (4-3) again, tested workpiece is placed on the conveying belt (4-2).

The beneficial effects of the utility model are: according to the size of detected part, detection speed can be regulated, and has improved production efficiency; Servomotor and harmonic speed reducer match, and the power section volume is little, speed adjustable range big, motion is accurate.

Description of drawings

Fig. 1 is the utility model one-piece construction schematic appearance, Fig. 2 (a) is a sectional structure chart of going up rack, Fig. 2 (b) is a profile vertical view of going up rack, Fig. 2 (a) is a structural drawing of going up rack inside, be that A-A is to cut-open view among Fig. 2 (b), Fig. 3 (a) is the main TV structure figure of workpiece conveying mechanism (4), and Fig. 3 (b) is that the middle B of Fig. 3 (a) is to view, Fig. 4 (a) is the partial sectional view of protection channel (2), and Fig. 4 (a) is that the middle C-C of Fig. 4 (b) is to cut-open view.

The corresponding name of Reference numeral is called among Fig. 1: go up rack (1), protection channel (2), following rack (3), workpiece conveying mechanism (4).

The corresponding name of Reference numeral is called among Fig. 2: plumbous case (1-1), cable, cooling water pipe passage (1-2), optical gate (1-3), collimating apparatus (1-4), X-ray machine (1-5).

The corresponding name of Reference numeral is called among Fig. 3: conveying belt engaged wheel (4-1), conveying belt (4-2), tensioning system (4-3), conveying belt driving wheel (4-4), imager (4-5) and imager box (4-5 '), servomotor (4-6), harmonic wave speed reducing machine (4-7), cog belt (4-8).

The corresponding name of Reference numeral is called among Fig. 4: reflecting plate (2-1), plumbous rubber curtain (2-2), protection channel skeleton and shell (2-3), reflecting plate (2-4).

Embodiment

Launch structure of the present utility model below in conjunction with accompanying drawing.

As shown in Figure 1, the utility model is promptly gone up rack (1), protection channel (2), following rack (3) and workpiece conveying mechanism (4) by four most of compositions.Following rack (3) is the carrier of whole protection passage and part pipeline.

As shown in Figure 2, last rack (1) is used to install X-ray machine (1-5).The back side of last rack (1) has cable, the cooling water pipeline (1-2) of the turnover of the cable that is used for X-ray machine (1-5) and cooling water pipe, has the function that prevents that X ray from revealing.In the housing of the plumbous case (1-1) on the X ray radiation direction (OO ') of X-ray machine (1-5) collimating apparatus of focussing force (1-4) together is installed, the axis of the through hole of offering on the collimating apparatus (1-4) overlaps with X ray radiation direction (OO '), and an optical gate (1-3) is installed on the sidewall of collimating apparatus (1-4).

As shown in Figure 3, imager (4-5) is installed in respect to X-ray machine (1-5) under the conveying belt (4-2) of workpiece conveying mechanism (4), and X ray radiation direction (OO ') is passed the center line of imager (4-5).

As shown in Figure 2, optical gate (1-3) is opened when detecting part, and optical gate when stopping to detect (1-3) is closed.

As shown in Figure 4, protection channel (2) be used for detected part by with the leakage that prevents X ray.In order to prevent the leakage of X ray, protection channel is divided into eight sections, hangs with plumbous rubber curtain (2-2) between each section, and passage top side and both sides inwall also have X ray reflection plate (2-1) (2-4), prevent that X ray from leaking from the two ends of passage.

As shown in Figure 3, workpiece conveying mechanism (4) comprises conveying belt engaged wheel (4-1), conveying belt (4-2), tensioning system (4-3), conveying belt driving wheel (4-4), imager box (4-5 '), servomotor (4-6), harmonic wave speed reducing machine (4-7), cog belt (4-8), servomotor (4-6) drives conveying belt driving wheel (4-4) and rotates by harmonic wave speed reducing machine (4-7), cog belt (4-8), drives conveying belt engaged wheel (4-1) and rotates by conveying belt (4-2), tensioning system (4-3) again, and tested workpiece is placed on the conveying belt (4-2).

Claims

1, channel-type X ray Direct Digital imaging detection device, comprise rack (1), protection channel (2), following rack (3), workpiece conveying mechanism (4), it is characterized in that X-ray machine (1-5) is installed in the plumbous case (1-1), in the housing of the plumbous case (1-1) on the X ray radiation direction (OO ') of X-ray machine (1-5) collimating apparatus of focussing force (1-4) together is installed, the axis of the through hole of offering on the collimating apparatus (1-4) overlaps with X ray radiation direction (OO '), one optical gate (1-3) is installed on the sidewall of collimating apparatus (1-4), imager (4-5) is installed under the conveying belt (4-2) of workpiece conveying mechanism (4) with respect to X-ray machine (1-5), X ray radiation direction (OO ') is passed the center line of imager (4-5), protection channel (2) is divided into plurality of sections, hang with plumbous rubber curtain (2-2) between each section, on the top side of protection channel (2) and sidewall, be separately installed with reflecting plate (2-1), (2-4).

2, channel-type X ray Direct Digital imaging detection device according to claim 1, it is characterized in that workpiece conveying mechanism (4) comprises conveying belt engaged wheel (4-1), conveying belt (4-2), tensioning system (4-3), conveying belt driving wheel (4-4), imager box (4-5 '), servomotor (4-6), harmonic wave speed reducing machine (4-7), cog belt (4-8), servomotor (4-6) is by harmonic wave speed reducing machine (4-7), cog belt (4-8) drives conveying belt driving wheel (4-4) and rotates, again by conveying belt (4-2), tensioning system (4-3) drives conveying belt engaged wheel (4-1) and rotates, and tested workpiece is placed on the conveying belt (4-2).