CN204269573U - The x-ray detection device of Double-lifting function C-arm is housed - Google Patents
The x-ray detection device of Double-lifting function C-arm is housed Download PDFInfo
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- CN204269573U CN204269573U CN201420799214.5U CN201420799214U CN204269573U CN 204269573 U CN204269573 U CN 204269573U CN 201420799214 U CN201420799214 U CN 201420799214U CN 204269573 U CN204269573 U CN 204269573U
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- ray tube
- dull
- arm
- stereotyped
- lifting
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Abstract
A kind of x-ray detection device that Double-lifting function C-arm is housed, C-arm device is formed by X-ray tube, ray tube up-down servo-actuating device, ray tube transverse adjusting mechanism, transverse arm mechanism, rack support linkage, flat panel detector, dull and stereotyped transverse adjusting mechanism, dull and stereotyped up-down servo-actuating device, slide block and slide rail, ray tube is arranged on rack support linkage, flat panel detector is connected with rack support linkage and slide rail, lifting frame mechanism is connected with C-arm lift drive mechanism, and tilting mechanism is connected with transverse arm mechanism and lifter plate respectively.C-arm front end increases the rack support linkage that can be elevated separately, increase the lifting travel of X-ray tube and flat panel detector, increase sensing range, X-ray tube or flat panel detector can be deep into the inside certain depth of tested parts by the rack support linkage of downward elongation, can exactly to workpiece sensing.Reduce radiation protection plumbous room height, reduce and take up an area space, cost-saving.
Description
Technical field
The utility model relates to a kind of x-ray detection device, particularly relates to a kind of x-ray detection device that Double-lifting function C-arm is housed reducing protective lead room height, increase sensing range.
Background technology
Along with the development and application scope of X ray Dynamic Non-Destruction Measurement and the continuous expansion in field, increasing user proposes more requirement for the envelop of function of checkout equipment, considerable user proposes the workpiece that originally will detect more specifications with alap one-tenth, the utilization ratio of raising equipment, realize larger economic benefit, this covering device is exactly on a set of equipment, expand sensing range, the development and Design of carrying out under can detecting the prerequisite of the workpiece of various shape specification at the use x-ray detection device that user proposes.
Summary of the invention
For user's request, the utility model provides one and meets user's testing requirement, a set of X-ray detecting equipment realizes contain the x-ray detection device that Double-lifting function C-arm is housed detecting multiple parts needed for user, can reduce protective lead room height.
The taked technical scheme that solves the problem is:
A kind of x-ray detection device that Double-lifting function C-arm is housed, it is characterized in that: by X-ray tube 1, ray tube fixed mount 2, rack support linkage 3, ray tube up-down servo-actuating device 4, ray tube transverse adjusting mechanism 5, ray tube support component 6, transverse arm mechanism 7, flat bracket component 11, dull and stereotyped transverse adjusting mechanism 12, dull and stereotyped up-down servo-actuating device 13, flat panel detector 14, ray tube lifting slider 15, ray tube lifting sliding rail 16, dull and stereotyped lifting slider 22 and dull and stereotyped lifting sliding rail 23 form C-arm device 17, wherein: the rear end of ray tube support component 6 is connected with transverse arm mechanism 7 by ray tube transverse adjusting mechanism 5, the end face of ray tube support component 6 front end is connected with ray tube lifting slider 15, the side of ray tube support component 6 is connected with ray tube up-down servo-actuating device 4, the rear end of flat bracket component 11 is connected with transverse arm mechanism 7 by dull and stereotyped transverse adjusting mechanism 12, the end face of flat bracket component 11 front end is connected with dull and stereotyped lifting slider 22, the side of flat bracket component 11 is connected with dull and stereotyped up-down servo-actuating device 13, X-ray tube 1 is arranged on ray tube fixed mount 2, ray tube fixed mount 2 is arranged on rack support linkage 3, rack support linkage 3 connects ray tube lifting sliding rail 16, the ray tube lifting slider 15 be connected with ray tube support component 6 front end is slidably connected on ray tube lifting sliding rail 16, flat panel detector 14 is connected with rack support linkage 3, rack support linkage 3 is connected with dull and stereotyped lifting sliding rail 23, the dull and stereotyped lifting slider 22 be connected with flat bracket component 11 front end is slidably connected on dull and stereotyped lifting sliding rail 23, the centre position of C-arm device 17 is connected with the front end face of Slewing Support Mechanism 10, the rear end face of Slewing Support Mechanism 10 is connected with lifter plate 20, the rear end face of lifter plate 20 is connected with lifting slider 19, the facade of lifting frame mechanism 9 is connected with lifting sliding rail 18, lifting slider 19 is slidably connected on lifting sliding rail 18, the top of lifting frame mechanism 9 is connected with C-arm lift drive mechanism 21, is connected before tilting mechanism 8 with transverse arm mechanism 7, and the right flank of tilting mechanism 8 is connected with lifter plate 20.
the beneficial effects of the utility model: the structure that the utility model adopts meets user's requirement completely, on the basis of C-arm integral elevating movement, the front end of C-arm increases the rack support linkage that can be elevated separately, under the prerequisite not increasing outfit of equipment height, increase the lifting travel of X-ray tube and flat panel detector, strengthen and detect stroke, increase sensing range, X-ray tube or flat panel detector can be deep into the inside certain depth of tested parts by the rack support linkage of downward elongation, detect more exactly to workpiece.Reduce the height in the plumbous room of radiation protection simultaneously, decrease and take up an area space, also save cost.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the left view of Fig. 1;
Fig. 3 is the vertical view of Fig. 1.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described further.
An x-ray detection device for Double-lifting function C-arm is housed, as shown in Figure 1 to Figure 3, utilizes X ray to detect aluminium casting, be applicable to carry out Real-time Imaging more extended than conventional part with cost little as far as possible and occupation of land space.Its primary object both to have made C-arm device entirety do lifting moving, and the mechanism of C-arm device front end can be made again to be elevated separately, increases and detect stroke.Concrete structure is: by X-ray tube 1, ray tube fixed mount 2, rack support linkage 3, ray tube up-down servo-actuating device 4, ray tube transverse adjusting mechanism 5, ray tube support component 6, transverse arm mechanism 7, flat bracket component 11, dull and stereotyped transverse adjusting mechanism 12, dull and stereotyped up-down servo-actuating device 13, flat panel detector 14, ray tube lifting slider 15, ray tube lifting sliding rail 16, dull and stereotyped lifting slider 22 and dull and stereotyped lifting sliding rail 23 form C-arm device 17, wherein: the rear end of ray tube support component 6 is connected with transverse arm mechanism 7 by ray tube transverse adjusting mechanism 5, the end face of ray tube support component 6 front end is connected with ray tube lifting slider 15, the side of ray tube support component 6 is connected with ray tube up-down servo-actuating device 4, the rear end of flat bracket component 11 is connected with transverse arm mechanism 7 by dull and stereotyped transverse adjusting mechanism 12, the end face of flat bracket component 11 front end is connected with dull and stereotyped lifting slider 22, the side of flat bracket component 11 is connected with dull and stereotyped up-down servo-actuating device 13, X-ray tube 1 is arranged on ray tube fixed mount 2, ray tube fixed mount 2 is arranged on rack support linkage 3, rack support linkage 3 connects ray tube lifting sliding rail 16, the ray tube lifting slider 15 be connected with ray tube support component 6 front end is slidably connected on ray tube lifting sliding rail 16, rack support linkage 3 is driven to do lifting moving along being slidably matched of being made up of ray tube lifting slider 15 and ray tube lifting sliding rail 16 by ray tube up-down servo-actuating device 4, flat panel detector 14 is connected with rack support linkage 3, and rack support linkage 3 is connected with dull and stereotyped lifting sliding rail 23, and the dull and stereotyped lifting slider 22 be connected with flat bracket component 11 front end is slidably connected on dull and stereotyped lifting sliding rail 23, rack support linkage 3 is driven to do lifting moving along being slidably matched of being made up of dull and stereotyped lifting slider 22 and dull and stereotyped lifting sliding rail 23 by dull and stereotyped up-down servo-actuating device 13, dull and stereotyped transverse adjusting mechanism 12 drives flat bracket component 11, drives flat panel detector about 14 transverse shifting, X-ray tube 1 and the synchronism of flat panel detector 14 when being elevated separately are ensured by ray tube up-down servo-actuating device 4 and dull and stereotyped up-down servo-actuating device 13, constitute C-arm device 17 with upper-part.The centre position of C-arm device 17 is connected with the front end face of Slewing Support Mechanism 10, the rear end face of Slewing Support Mechanism 10 is connected with lifter plate 20, the rear end face of lifter plate 20 is connected with lifter plate slide block 19, the facade of lifting frame mechanism 9 is connected with lifter plate slide rail 18, lifter plate slide block 19 is slidably connected on lifter plate slide rail 18, slide rail 18 and slide block 19 composition are slidably matched, the top of lifting frame mechanism 9 is connected with C-arm lift drive mechanism 21, drives C-arm device 17 lifting moving by C-arm lift drive mechanism 21.Be connected with transverse arm mechanism 7 before tilting mechanism 8, the right flank of tilting mechanism 8 is connected with lifter plate 20, controls C-arm device 17 entirety does certain angle swing around Slewing Support Mechanism 10.
When detecting workpiece, downward detection from the top of workpiece, first C-arm device 17 is elevated to extreme higher position by C-arm lift drive mechanism 21, X-ray tube 1 and flat panel detector 14 is driven to be raised to extreme higher position, according to the different focal length being regulated X-ray tube 1 and flat panel detector 14 by ray tube transverse adjusting mechanism 5 and dull and stereotyped transverse adjusting mechanism 12 of the size of workpiece, by C-arm lift drive mechanism 21 drives C-arm device 17 to drive X-ray tube 1 and flat panel detector 14, detection workpiece is moved down after adjusting, after C-arm device 17 goes to minimum point, X-ray tube 1 and flat panel detector 14 is driven to continue downward synchronizing moving respectively by ray tube up-down servo-actuating device 4 and dull and stereotyped up-down servo-actuating device 13 again, the part of workpiece remainder has been detected.In addition, X-ray tube 14 or flat panel detector 14 can be deep into the certain depth of hollow parts inside by the rack support linkage 3 extended downwards, detect more exactly to workpiece.
Claims (1)
1. one kind is equipped with the x-ray detection device of Double-lifting function C-arm, it is characterized in that: by X-ray tube (1), ray tube fixed mount (2), rack support linkage (3), ray tube up-down servo-actuating device (4), ray tube transverse adjusting mechanism (5), ray tube support component (6), transverse arm mechanism (7), flat bracket component (11), dull and stereotyped transverse adjusting mechanism (12), dull and stereotyped up-down servo-actuating device (13), flat panel detector (14), ray tube lifting slider (15), ray tube lifting sliding rail (16), dull and stereotyped lifting slider (22) and dull and stereotyped lifting sliding rail (23) form C-arm device (17), wherein: the rear end of ray tube support component (6) is connected with transverse arm mechanism (7) by ray tube transverse adjusting mechanism (5), the end face of ray tube support component (6) front end is connected with ray tube lifting slider (15), the side of ray tube support component (6) is connected with ray tube up-down servo-actuating device (4), the rear end of flat bracket component (11) is connected with transverse arm mechanism (7) by dull and stereotyped transverse adjusting mechanism (12), the end face of flat bracket component (11) front end is connected with dull and stereotyped lifting slider (22), the side of flat bracket component (11) is connected with dull and stereotyped up-down servo-actuating device (13), X-ray tube (1) is arranged on ray tube fixed mount (2), ray tube fixed mount (2) is arranged on rack support linkage (3), rack support linkage (3) is upper connects ray tube lifting sliding rail (16), the ray tube lifting slider (15) be connected with ray tube support component (6) front end is slidably connected on ray tube lifting sliding rail (16), flat panel detector (14) is connected with rack support linkage (3), rack support linkage (3) is connected with dull and stereotyped lifting sliding rail (23), the dull and stereotyped lifting slider (22) be connected with flat bracket component (11) front end is slidably connected on dull and stereotyped lifting sliding rail (23), the centre position of C-arm device (17) is connected with the front end face of Slewing Support Mechanism (10), the rear end face of Slewing Support Mechanism (10) is connected with lifter plate (20), the rear end face of lifter plate (20) is connected with lifting slider (19), the facade of lifting frame mechanism (9) is connected with lifting sliding rail (18), lifting slider (19) is slidably connected on lifting sliding rail (18), the top of lifting frame mechanism (9) is connected with C-arm lift drive mechanism (21), be connected with transverse arm mechanism (7) before tilting mechanism (8), the right flank of tilting mechanism (8) is connected with lifter plate (20).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420799214.5U CN204269573U (en) | 2014-12-18 | 2014-12-18 | The x-ray detection device of Double-lifting function C-arm is housed |
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CN201420799214.5U CN204269573U (en) | 2014-12-18 | 2014-12-18 | The x-ray detection device of Double-lifting function C-arm is housed |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104502373A (en) * | 2014-12-18 | 2015-04-08 | 丹东奥龙射线仪器集团有限公司 | X-ray detection device with dual-lifting function C-shaped arm |
CN105004743A (en) * | 2015-09-02 | 2015-10-28 | 苏州科耐视智能科技有限公司 | Efficient nondestructive detection equipment |
CN105092615A (en) * | 2015-09-02 | 2015-11-25 | 苏州科耐视智能科技有限公司 | X-ray nondestructive detection equipment |
CN105115997A (en) * | 2015-09-02 | 2015-12-02 | 苏州科耐视智能科技有限公司 | Nondestructive testing device |
WO2021078218A1 (en) * | 2019-10-22 | 2021-04-29 | Shanghai United Imaging Healthcare Co., Ltd. | C-arms and x-ray devices |
-
2014
- 2014-12-18 CN CN201420799214.5U patent/CN204269573U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104502373A (en) * | 2014-12-18 | 2015-04-08 | 丹东奥龙射线仪器集团有限公司 | X-ray detection device with dual-lifting function C-shaped arm |
CN104502373B (en) * | 2014-12-18 | 2017-01-11 | 丹东奥龙射线仪器集团有限公司 | X-ray detection device with dual-lifting function C-shaped arm |
CN105004743A (en) * | 2015-09-02 | 2015-10-28 | 苏州科耐视智能科技有限公司 | Efficient nondestructive detection equipment |
CN105092615A (en) * | 2015-09-02 | 2015-11-25 | 苏州科耐视智能科技有限公司 | X-ray nondestructive detection equipment |
CN105115997A (en) * | 2015-09-02 | 2015-12-02 | 苏州科耐视智能科技有限公司 | Nondestructive testing device |
WO2021078218A1 (en) * | 2019-10-22 | 2021-04-29 | Shanghai United Imaging Healthcare Co., Ltd. | C-arms and x-ray devices |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150415 Termination date: 20161218 |