CN205411194U - Three -dimensional mobile device of plumbous density detector of human bone - Google Patents
Three -dimensional mobile device of plumbous density detector of human bone Download PDFInfo
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- CN205411194U CN205411194U CN201520872168.1U CN201520872168U CN205411194U CN 205411194 U CN205411194 U CN 205411194U CN 201520872168 U CN201520872168 U CN 201520872168U CN 205411194 U CN205411194 U CN 205411194U
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- travel mechanism
- base plate
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- moving mechanism
- gripper shoe
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Abstract
The utility model discloses a three -dimensional mobile device of plumbous density detector of human bone, including the seat, set up the first bottom plate of seat bottom, with the second bottom plate of first bottom plate vertical fixation, still include the chassis, set up X orientation moving mechanism on the chassis, set up X orientation moving mechanism top with it sliding fit Y orientation moving mechanism, set up at Y orientation moving mechanism top sliding fit's Z orientation moving mechanism with it, Z direction moving mechanism's top and first bottom plate fixed connection. The utility model discloses a X direction moving mechanism, Y direction moving mechanism, Z direction moving mechanism combine together, can realize three dimensions's removal to be applicable to the plumbous density of the bone that detects different height patients, both increased the efficiency that detects, improved the accuracy of testing result again.
Description
Technical field
This utility model relates to medical apparatus and instruments application, in particular to a kind of Bone Lead density tester three-dimensional moving device.
Background technology
Detection Bone Lead density content at present, available isotopic radiation source or X-ray tube release X-ray and lead element and the atomic interaction of other trace element in skeleton, after the atom-exciting of various elements is sent out, the characteristic X-ray energies released during de excitation is different, can carry out qualitative analysis successively according to this characteristic.
Bone Lead density tester utilizes above-mentioned operation principle exactly, analyzes the bone lead density content in human body.Owing to skeleton is surrounded by muscle and skin, in order to general detection position easy to detect is chosen to be human tibia.But, the seat of existing Bone Lead density tester cannot realize three-dimensional mobile, is directed to the client need of different height and constantly adjusts sitting posture to coordinate detection, not only brings inconvenience to patient, also have impact on the speed of medical personnel's detection, and the accuracy of testing result.
Summary of the invention
The purpose of this utility model seeks to provide a kind of Bone Lead density tester three-dimensional moving device.This device is combined by X-direction travel mechanism, Y-direction travel mechanism, Z-direction travel mechanism, three-dimensional movement can be realized, thus it is applicable to detect the bone lead density of different height patient, both add the efficiency of detection, improve again the accuracy of testing result.
For achieving the above object, Bone Lead density tester three-dimensional moving device designed by this utility model, including seat, it is arranged on the first base plate of seat bottom fixing second base plate vertical with the first base plate, the X-direction travel mechanism that also include underframe, is arranged on underframe, be arranged on be slidably matched therewith above X-direction travel mechanism Y-direction travel mechanism, be arranged on the Z-direction travel mechanism being slidably matched therewith above Y-direction travel mechanism, the top of described Z-direction travel mechanism is fixing with the first base plate to be connected.
Further, described X-direction travel mechanism include being arranged on some first slide bars arranged in X direction on underframe, the first gripper shoe of being set on the first slide bar and along the first slide bar the first sliding ring slidably, can being fixed on the first sliding ring and for the first electric pushrod driving the first gripper shoe to move in X direction.
Further, described Y-direction travel mechanism includes being arranged in the first gripper shoe some second slide bars arranged along Y-direction, the second gripper shoe being set on the second slide bar and along the second slide bar the second sliding ring slidably, can being fixed on the second sliding ring and for the second electric pushrod driving the second gripper shoe to move along Y-direction.
Further, described Z-direction travel mechanism include being vertically set in the second gripper shoe arrange along Z-direction some bearing blocks, be set in bearing block in and can be along bearing block bearing slidably and for the 3rd electric pushrod driving the first base plate to move along Z-direction, the top of described bearing is fixed with the first base plate and is connected.
Yet further, the side of described second base plate is provided with the pedal travel mechanism being slidably matched therewith.
Further, described pedal travel mechanism include arranging arrange along Z-direction the second base plate side some 3rd slide bars, be set on the 3rd slide bar and can be along the 3rd slide bar the 3rd sliding ring slidably, the pedal being fixed on the 3rd sliding ring and for the 4th electric pushrod driving pedal to move along Z-direction.
Compared with prior art, this utility model has the advantage that
One, this utility model is combined by X-direction travel mechanism, Y-direction travel mechanism, Z-direction travel mechanism, it is possible to achieve three-dimensional movement, thus is applicable to detect the bone lead density of different height patient;
Its two, this utility model is simple to operate, easy to use, both improve medical personnel detection speed, in turn ensure that the accuracy of testing result;
Its three, this utility model production cost is low, it is easy to make, maintenance is little, practical.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model;
Wherein: 1-seat, 1.1-the first base plate, 1.2-the second base plate, 2-underframe, 3-X direction travel mechanism, 3.1-the first slide bar, 3.2-the first sliding ring, 3.3-the first gripper shoe, 3.4-the first electric pushrod, 4-Y direction travel mechanism, 4.1-the second slide bar, 4.2-the second sliding ring, 4.3-the second gripper shoe, 4.4-the second electric pushrod, 5-Z direction travel mechanism, 5.1-bearing block, 5.2-bearing, 5.3-the 3rd electric pushrod, 6-pedal travel mechanism, 6.1-the 3rd slide bar, 6.2-the 3rd sliding ring, 6.3-pedal, 6.4-the 4th electric pushrod.
Detailed description of the invention
The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Bone Lead density tester three-dimensional moving device shown in Figure 1, including seat 1, it is arranged on fixing second base plate 1.2 vertical with the first base plate 1.1 of the first base plate 1.1 bottom seat 1, the X-direction travel mechanism 3 that also include underframe 2, is arranged on underframe 2, be arranged on be slidably matched therewith above X-direction travel mechanism 3 Y-direction travel mechanism 4, be arranged on the Z-direction travel mechanism 5 being slidably matched therewith above Y-direction travel mechanism 4, the top of Z-direction travel mechanism 5 is fixing with the first base plate 1.1 to be connected.
X-direction travel mechanism 3 includes being arranged on some first slide bars 3.1 arranged in X direction on underframe 2, is set on the first slide bar 3.1 and along the first slide bar 3.1 the first sliding ring 3.2 slidably, can be fixed on the first sliding ring 3.2 the first gripper shoe 3.3 and for the first electric pushrod 3.4 driving the first gripper shoe 3.3 to move in X direction.The electric cylinder of the first electric pushrod 3.4 is fixedly installed on underframe 2, the push rod of the first electric pushrod 3.4 and the first fixing connection of gripper shoe 3.3.Change the direct current generator sense of current of the first electric pushrod 3.4, the first electric pushrod 3.4 stretching motion can be controlled, thus drive the first gripper shoe 3.3 to move in X direction.Preferably, described first slide bar 3.1 is two, every first slide bar 3.1 is arranged with two the first sliding rings 3.2, thus ensures the stationarity that this device moves in X direction.
Y-direction travel mechanism 4 includes being arranged in the first gripper shoe 3.3 some second slide bars 4.1 arranged along Y-direction, the second gripper shoe 4.3 being set on the second slide bar 4.1 and along the second slide bar 4.1 the second sliding ring 4.2 slidably, can being fixed on the second sliding ring 4.2 and for the second electric pushrod 4.4 driving the second gripper shoe 4.3 to move along Y-direction.The electric cylinder of the second electric pushrod 4.4 is fixedly installed in the first gripper shoe 3.3, the push rod of the second electric pushrod 4.4 and the second fixing connection of gripper shoe 4.3.Change the direct current generator sense of current of the second electric pushrod 4.4, the second electric pushrod 4.4 stretching motion can be controlled, thus drive the second gripper shoe 4.3 to move along Y-direction.Preferably, described second slide bar 4.1 is two, every second slide bar 4.1 is arranged with two the second sliding rings 4.2, thus ensures the stationarity that this device moves along Y-direction.
Z-direction travel mechanism 5 include being vertically set in the second gripper shoe 4.3 arrange along Z-direction some bearing blocks 5.1, be set in bearing block 5.1 in and can be along bearing block 5.1 bearing 5.2 slidably and for the 3rd electric pushrod 5.3 driving the first base plate 1.1 to move along Z-direction, the top of bearing 5.2 is fixed with the first base plate 1.1 and is connected.The electric cylinder of the 3rd electric pushrod 5.3 is fixedly installed in the second gripper shoe 4.3, the push rod of the 3rd electric pushrod 5.3 and the first fixing connection of base plate 1.1.Change the direct current generator sense of current of the 3rd electric pushrod 5.3, the 3rd electric pushrod 5.3 stretching motion can be controlled, thus drive the first base plate 1.1 to move along Z-direction.Preferably, described bearing block 5.1 and bearing 5.2 are four, are evenly distributed on the surrounding of the first base plate 1.1, thus ensure the stationarity that this device moves along Z-direction.
The side of the second base plate 1.2 is provided with the pedal travel mechanism 6 being slidably matched therewith.Pedal travel mechanism 6 include arranging arrange along Z-direction the second base plate 1.2 side some 3rd slide bars 6.1, be set on the 3rd slide bar 6.1 and can be along the 3rd slide bar 6.1 the 3rd sliding ring 6.2 slidably, the pedal 6.3 being fixed on the 3rd sliding ring 6.2 and for the 4th electric pushrod 6.4 driving pedal 6.3 to move along Z-direction.The electric cylinder of the 4th electric pushrod 6.4 is fixedly installed on the second base plate 1.2, and the push rod of the 4th electric pushrod 6.4 is fixing with pedal 6.3 to be connected.Change the direct current generator sense of current of the 4th electric pushrod 6.4, the 4th electric pushrod 6.4 stretching motion can be controlled, thus drive pedal 6.3 to move along Z-direction.Preferably, described 3rd slide bar 6.1 is two, every 3rd slide bar 6.1 is arranged with two the 3rd sliding rings 6.2, thus ensures the stationarity that pedal moves along Z-direction.
The above, detailed description of the invention the most of the present utility model, it is noted that any those of ordinary skill in the art in the technical scope disclosed by this utility model, the change that can readily occur in or replacement, all should contain within protection domain of the present utility model.
Claims (6)
1. a Bone Lead density tester three-dimensional moving device, including seat (1), it is arranged on first base plate (1.1) of seat (1) bottom, fixing second base plate (1.2) vertical with the first base plate (1.1), it is characterized in that: also include underframe (2), the X-direction travel mechanism (3) being arranged on underframe (2), it is arranged on the Y-direction travel mechanism (4) that X-direction travel mechanism (3) top is slidably matched therewith, it is arranged on the Z-direction travel mechanism (5) that Y-direction travel mechanism (4) top is slidably matched therewith, the top of described Z-direction travel mechanism (5) is fixing with the first base plate (1.1) to be connected.
Bone Lead density tester three-dimensional moving device the most according to claim 1, it is characterised in that: described X-direction travel mechanism (3) include being arranged on underframe (2) arrange in X direction some first slide bars (3.1), be set in that the first slide bar (3.1) is upper and the first gripper shoe (3.3) that along the first slide bar (3.1) the first sliding ring (3.2) slidably, can be fixed on the first sliding ring (3.2) and for the first electric pushrod (3.4) driving the first gripper shoe (3.3) to move in X direction.
Bone Lead density tester three-dimensional moving device the most according to claim 1, it is characterized in that: described Y-direction travel mechanism (4) includes being arranged in the first gripper shoe (3.3) some second slide bars (4.1) arranged along Y-direction, it is set in the second slide bar (4.1) upper and can be along the second slide bar (4.1) the second sliding ring (4.2) slidably, the second gripper shoe (4.3) being fixed on the second sliding ring (4.2), and for the second electric pushrod (4.4) driving the second gripper shoe (4.3) to move along Y-direction.
Bone Lead density tester three-dimensional moving device the most according to claim 1, it is characterized in that: described Z-direction travel mechanism (5) include being vertically set in the second gripper shoe (4.3) arrange along Z-direction some bearing blocks (5.1), be set in bearing block (5.1) in and can be along bearing block (5.1) bearing (5.2) slidably and for the 3rd electric pushrod (5.3) driving the first base plate (1.1) to move along Z-direction, the top of described bearing (5.2) is fixed with the first base plate (1.1) and is connected.
Bone Lead density tester three-dimensional moving device the most according to claim 1, it is characterised in that: the side of described second base plate (1.2) is provided with the pedal travel mechanism (6) being slidably matched therewith.
Bone Lead density tester three-dimensional moving device the most according to claim 5, it is characterised in that: described pedal travel mechanism (6) include arranging arrange along Z-direction the second base plate (1.2) side some 3rd slide bars (6.1), to be set in the 3rd slide bar (6.1) upper and can be along the 3rd slide bar (6.1) the 3rd sliding ring (6.2), the pedal (6.3) being fixed on the 3rd sliding ring (6.2) slidably and be used for the 4th electric pushrod (6.4) driving pedal (6.3) to move along Z-direction.
Priority Applications (1)
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CN201520872168.1U CN205411194U (en) | 2015-11-04 | 2015-11-04 | Three -dimensional mobile device of plumbous density detector of human bone |
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CN201520872168.1U CN205411194U (en) | 2015-11-04 | 2015-11-04 | Three -dimensional mobile device of plumbous density detector of human bone |
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CN201520872168.1U Expired - Fee Related CN205411194U (en) | 2015-11-04 | 2015-11-04 | Three -dimensional mobile device of plumbous density detector of human bone |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107854131A (en) * | 2017-11-03 | 2018-03-30 | 武汉瑞博恩科技发展有限公司 | The noninvasive method of testing of tissue multielement and its device |
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2015
- 2015-11-04 CN CN201520872168.1U patent/CN205411194U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107854131A (en) * | 2017-11-03 | 2018-03-30 | 武汉瑞博恩科技发展有限公司 | The noninvasive method of testing of tissue multielement and its device |
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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: 20160803 Termination date: 20171104 |