CN205192870U - Biological soft tissue mechanics characteristic test appearance - Google Patents
Biological soft tissue mechanics characteristic test appearance Download PDFInfo
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- CN205192870U CN205192870U CN201520833189.2U CN201520833189U CN205192870U CN 205192870 U CN205192870 U CN 205192870U CN 201520833189 U CN201520833189 U CN 201520833189U CN 205192870 U CN205192870 U CN 205192870U
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Abstract
The utility model relates to a biological soft tissue mechanics characteristic test appearance, which comprises a base, the setting is the anchor clamps in order to fix biological soft tissue on the base, be connected and apply the horizontal force applying device of transverse force with anchor clamps on anchor clamps, the vertical force applying device who is connected and applys the vertical force with anchor clamps on anchor clamps, the centre gripping anchor clamps detect vertical tensile testing device of the longitudinal force that anchor clamps bore, the setting is the displacement detection device in order to detect anchor clamps displacement volume on the base, collection system and computer, horizontal force applying device is including the lateral pull detection device who detects the transverse force of apply on anchor clamps, vertical force applying device is including the vertical tensile testing device who detects the vertical force of apply on anchor clamps, collection system gathers the longitudinal force, transverse force and vertical force and displacement volume, computer and collection system signal connection, and analysis longitudinal force, transverse force and vertical force and displacement volume.
Description
Technical field
The utility model relates to a kind of Constitutive Relation of Soft Tissue tester, belongs to organizational project, biomedical engineering field.
Background technology
The mechanical property testing of biological tissue is important link in the research and development process of organizational project, medicine equipment.Because biologic soft tissue is according to the difference of the difference of itself and form, feature, its mechanical characteristic is also different, biological tissue's mechanical property testing main at present comprises extruding test, extension test and shearing test, but, for the testing experiment instrument in shearing test, all there are the following problems existing: existing shear tester is mainly used in isotropic medium, test function is single, can not measure the material response under complicated shear mode.
Utility model content
The purpose of this utility model is to provide a kind of Constitutive Relation of Soft Tissue tester, and it can realize the shearing test to biologic soft tissue, realizes the material response under the complicated shear mode of measurement.
In order to achieve the above object, the technical scheme that adopts of the utility model is as follows, a kind of Constitutive Relation of Soft Tissue tester, in order to detect the mechanical characteristic of biologic soft tissue, comprise pedestal, be arranged on described pedestal with the fixture of fixed biologically soft tissue, be connected with described fixture and on described fixture, apply the horizontal force application apparatus of transverse force, be connected with described fixture and on described fixture, apply the vertical force application apparatus of vertical force, clamp described fixture and detect the longitudinal pulling force pick-up unit of the longitudinal force that described fixture bears, be arranged on described pedestal to detect the displacement detector of fixture displacement, harvester and computing machine, described horizontal force application apparatus comprise detect be applied to the lateral pull pick-up unit of the transverse force on fixture, described vertical force application apparatus comprise detect be applied to the vertical tension pick-up unit of the vertical force on fixture, described harvester gathers longitudinal force, transverse force and vertical force and displacement, described computing machine is connected with harvester signal, and analyze longitudinal force, transverse force and vertical force and displacement.
Further, institute's displacement sensing device comprise detecting fixture displacement in the vertical Y-axis displacement detector, in order to detect the X-axis displacement detector of fixture displacement in the horizontal and the Z axis displacement detector in order to detect the displacement of fixture on vertical.
Further, described pedestal is provided with the fixed mount of fixing described Y-axis displacement detector.
Further, described Y-axis displacement detector is positioned at the top of described fixture, the securing member that described fixed mount comprises the fixed bar of vertical described pedestal setting, the mounting rod of vertical described fixed bar setting and is fixed on by described mounting rod on fixed bar, described mounting rod offers the microscler waist hole extended along described mounting rod, described securing member is located in described microscler waist hole.
Further, described longitudinal pulling force pick-up unit comprises the sub-longitudinal pressure detecting device that the folder of the described fixture of some clampings and some and described folder are arranged one to one, the longitudinal force of the fixture on the folder position point corresponding to each described sub-longitudinal pressure detecting device detects.
Further, described folder is four, and described fixture is quadrilateral, and described four folders clamp four end pin of described fixture respectively.
Further, each described folder has the train wheel bridge and lower plate and the web joint being connected train wheel bridge and lower plate that are oppositely arranged, and described train wheel bridge, formation clamping chamber between lower plate and web joint, described fixture is C-shaped.
Further, described horizontal force application apparatus also comprises the lateral traction line connecting lateral pull pick-up unit and fixture, and described vertical force application apparatus also comprises the vertical draught line connecting vertical tension pick-up unit and fixture.
Further, described horizontal force application apparatus also comprises the lateral driver device of traction lateral traction line, one end of described lateral pull pick-up unit connects lateral traction line, the other end connects lateral driver device, described vertical force application apparatus also comprises the vertical drive of drawing vertical draught line, one end of described vertical tension pick-up unit connects vertical draught line, and the other end connects vertical drive.
Further, the first sliding seat described pedestal being provided with mount pad and be fixed on described mount pad and the second sliding seat, described mount pad comprises the jig-attachment part of stationary fixture, from two adjacent side of described jig-attachment part stretch out formed the first extension board and the second extension board, the bearing of trend that described first extension board is provided with transversely draught line extends and the first orbit portion coordinated with described first sliding seat, described lateral pull pick-up unit is arranged on the first sliding seat, the bearing of trend that described second extension board is provided with along described vertical draught line extends and the second orbit portion coordinated with described second sliding seat, described vertical tension pick-up unit is arranged on described second sliding seat.
By such scheme, the utility model at least has the following advantages: Constitutive Relation of Soft Tissue tester of the present utility model is by arranging the fixture of fixed biologically soft tissue, horizontal force application apparatus fixture being applied to power is set, vertical force application apparatus is to make biologic soft tissue generation detrusion, simultaneously by longitudinal pulling force pick-up unit, lateral pull pick-up unit, vertical tension pick-up unit and displacement detector detect longitudinal force respectively, transverse force and vertical force and displacement are also analyzed, to realize the shearing test to biologic soft tissue, realize the material response under the complicated shear mode of measurement.
Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of instructions, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model Constitutive Relation of Soft Tissue tester;
Fig. 2 is part-structure schematic diagram in the utility model;
Fig. 3 is the exploded view of mount pad in Fig. 2, the first sliding seat and the second sliding seat.
Embodiment
Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples for illustration of the utility model, but are not used for limiting scope of the present utility model.
See Fig. 1 to Fig. 3, a kind of Constitutive Relation of Soft Tissue tester described in the utility model one preferred embodiment is in order to detect the mechanical characteristic of biologic soft tissue, it comprises pedestal 10, be arranged on described pedestal 10 with the fixture 20 of fixed biologically soft tissue, be connected with described fixture 20 and on described fixture 20, apply the horizontal force application apparatus 40 of transverse force, be connected with described fixture 20 and on described fixture 20, apply the vertical force application apparatus 50 of vertical force, clamp described fixture 20 and detect the longitudinal pulling force pick-up unit 30 of the longitudinal force that described fixture 20 bears, be arranged on described pedestal 10 to detect the displacement detector of fixture 20 displacement, harvester (not shown) and computing machine (not shown).
Described horizontal force application apparatus 40 comprises and detects institute and be applied to the lateral traction line 42 of the lateral pull pick-up unit 41 of the transverse force on fixture 20, connection lateral pull pick-up unit 41 and fixture 20 and draw the lateral driver device 43 of described lateral traction line 42.The transverse force that described lateral pull pick-up unit 41 detects is transverse traction force.The bearing of trend of described lateral traction line 42, lateral pull pick-up unit 41 and lateral driver device 43 transversely draught line 42 is connected successively, one end of lateral pull pick-up unit 41 connects lateral traction line 42, the other end connects lateral driver device 43, and described lateral driver device 43 affects the bearing of trend of described lateral traction line 42, lateral pull pick-up unit 41 transversely draught line 42 to move.In the present embodiment, described lateral driver device 43 is motor, and described lateral driver device 43 has the first housing 431 be arranged on pedestal 10.Described vertical force application apparatus 50 comprises and detects institute and be applied to the vertical draught line 52 of the vertical tension pick-up unit 51 of the vertical force on fixture 20, connection vertical tension pick-up unit 51 and fixture 20 and draw the vertical drive 53 of described vertical draught line 52.The vertical force that described vertical tension pick-up unit 51 detects is vertical tractive force.The bearing of trend of described vertical draught line 52, vertical tension pick-up unit 51 and vertical drive 53 vertically draught line 52 is connected successively, one end of described vertical tension pick-up unit 51 connects vertical draught line 52, the other end connects vertical drive 53, and described vertical drive 53 affects the bearing of trend of described vertical draught line 52 and vertical tension pick-up unit 51 vertically draught line 52 to move.In the present embodiment, described vertical drive 53 is motor, and described vertical drive 53 has the second housing 531 be arranged on pedestal 10.Described lateral traction line 42 and vertical draught line 52 are separately fixed on adjacent two sides of quadrilateral fixture 20.
Described longitudinal pulling force pick-up unit 30 comprises the sub-longitudinal pressure detecting device 31 that the folder 32 of the described fixture of some clampings 20 and some and described folder 32 are arranged one to one, and each described sub-longitudinal pressure detecting device 31 detects the longitudinal force of the fixture 20 on corresponding folder 31 position point.Each described folder 32 has the train wheel bridge 321 and lower plate 322 and the web joint 323 being connected train wheel bridge 321 and lower plate 322 that are oppositely arranged, and described train wheel bridge 321, formation clamping chamber 324 between lower plate 322 and web joint 323, described fixture 20 is C-shaped.In the present embodiment, described folder 32 is four, and described fixture 20 is quadrilateral, and is transparent organic glass, and described four folders 32 clamp four end pin of described fixture 20 respectively.Described sub-longitudinal pressure detecting device 31 is positioned at the below of described fixture 20.
The first sliding seat 12 and the second sliding seat 13 described pedestal 10 being provided with mount pad 11 and being fixed on described mount pad 11.Described mount pad 11 comprise stationary fixture 20 jig-attachment part 111, from two adjacent side of described jig-attachment part 111 stretch out formed the first extension board 112 and the second extension board 113.Described jig-attachment part 111 is square, and on longitudinally, the upper surface (non-label) of upper surface (non-label) higher than the first extension board 112 of described jig-attachment part 111 and the upper surface (non-label) of the second extension board 113.The bearing of trend that described first extension board 112 is provided with transversely draught line 42 extends and the first orbit portion 114 coordinated with described first sliding seat 12, and the bearing of trend that described second extension board 113 is provided with along described vertical draught line 52 extends and the second orbit portion 115 coordinated with described second sliding seat 13.Described first orbit portion 114, second orbit portion 115 is the conduit be opened on the first extension board 112, second extension board 113.Described lateral pull pick-up unit 41 is arranged on the first sliding seat 12, and described vertical tension pick-up unit 51 is arranged on described second sliding seat 13.The first antetheca 122 and the first rear wall 123 that described first sliding seat 12 has the first diapire 121 and upwards extends to form from the both sides, front and back of described first diapire 121, described first diapire 121 and the first antetheca 122 and the first rear wall 123 enclose formation first mounting groove 124, described lateral pull pick-up unit 41 is fixed in described first mounting groove 124, and the first diapire 121 projection downwards of described first sliding seat 12 is formed with the first slide block 125 inserted in described first orbit portion 114.Described second sliding seat 13 drives the bearing of trend of its opposite base 10 vertically draught line 52 to move by vertical drive 53.The second antetheca 132 and the second rear wall 133 that described second sliding seat 13 has the second diapire 131 and upwards extends to form from the both sides, front and back of described second diapire 131, described second diapire 131 and the second antetheca 132 and the second rear wall 133 enclose formation second mounting groove 134, described vertical tension pick-up unit 51 is fixed in described second mounting groove 134, and the second diapire 131 projection downwards of described second sliding seat 13 is formed with the second slide block 134 inserted in described second orbit portion 115.Coordinated with the first orbit portion 114 by the first sliding seat 12, second sliding seat 13 coordinates with the second orbit portion 115, and lateral pull pick-up unit 41 is fixed in the first sliding seat 13, vertical tension pick-up unit 51 is fixed in the second sliding seat 13, thus lateral pull pick-up unit 41 and vertical tension pick-up unit 51 steadily movement can be made, and the most important thing is, lateral pull pick-up unit 41 can be prevented, vertical tension pick-up unit 51 sinks due to the weight of self, and transverse force detected by impact and vertical force inaccurate.
Institute's displacement sensing device comprise detecting fixture 20 displacement in the vertical Y-axis displacement detector 61, in order to detect the X-axis displacement detector 62 of fixture 20 displacement in the horizontal and the Z axis displacement detector 63 in order to detect the displacement of fixture 20 on vertical.Described Y-axis displacement detector 61 is positioned at the top of described fixture 20, and is oppositely arranged on the both sides up and down of jig-attachment part 111 with described longitudinal pulling force pick-up unit 30.Described pedestal 10 is provided with the fixed mount 70 of fixing described Y-axis displacement detector 61, in the present embodiment, described fixed mount 70 comprises the fixed bar 71 that vertical described pedestal 10 is arranged, the mounting rod 72 that vertical described fixed bar 71 is arranged and the securing member 73 described mounting rod 72 is fixed on fixed bar 71, described mounting rod 72 offers the microscler waist hole 721 extended along described mounting rod 72, described securing member 73 is located in described microscler waist hole 721, coordinated with securing member 73 by described microscler waist hole 721, so that regulate Y-axis displacement detector 61 position in the horizontal direction.Really, the fixed mount 70 of fixing described Y-axis displacement detector 61 can be also other structures, as elevating bracket; And the mode realizing the movement of Y-axis displacement detector 61 on horizontal level also can be other structures, as realized by the mode of employing guide assembly.Described X-axis displacement detector 62 and horizontal force application apparatus 40 are oppositely arranged on the both sides of mount pad 11, and described Z axis displacement detector 63 and vertical force application apparatus 50 are oppositely arranged on the both sides of mount pad 11.
Described harvester gathers longitudinal force, transverse force and vertical force and gathers displacement, and described computing machine is connected with harvester signal, and analyzes longitudinal force, transverse force and vertical force and displacement to obtain the mechanical characteristic of biologic soft tissue.
The mechanical measuring and calculation method of biologic soft tissue of the present utility model is applied to above-mentioned Constitutive Relation of Soft Tissue tester, the mechanical measuring and calculation method of this biologic soft tissue is alternatively the method for work of above-mentioned Constitutive Relation of Soft Tissue tester, because Constitutive Relation of Soft Tissue tester describes, therefore repeat no more.The mechanical measuring and calculation method of described biologic soft tissue comprises the steps:
S1: be fixed on by biologic soft tissue on the fixture 20 of Constitutive Relation of Soft Tissue tester, clamps this fixture 20 by folder 32;
S2: start horizontal force application apparatus 40 and vertical force application apparatus 50 to exert a force to two adjacent edges of fixture 20, be subjected to displacement to make fixture 20, because biologic soft tissue is fixed on fixture 20, while fixture 20 is subjected to displacement, biologic soft tissue generation detrusion; Be specially: the described lateral driver device 43 of horizontal force application apparatus 40 and the vertical drive 53 of vertical force application apparatus 50 start the power to apply fixture 20 dorsad respectively at lateral traction line 42 and vertical draught line 52 respectively, thus fixture 20 is stretched out by lateral traction line 42 and vertical draught line 52;
S3: when described fixture 20 displacement, vertical tension pick-up unit 51 and the displacement detector of the sub-longitudinal pressure detecting device 31 of described longitudinal pulling force pick-up unit 30, the lateral pull pick-up unit 41 of horizontal force application apparatus 40, vertical force application apparatus 50 detect longitudinal force, transverse force and vertical force and displacement respectively; Harvester gathers longitudinal force, transverse force and vertical force and gathers displacement the longitudinal force, transverse force and the vertical force that this are collected and displacement are sent to computing machine, and the longitudinal force that Computer Analysis is collected by harvester, transverse force and vertical force and displacement are to obtain the mechanical characteristic of this biological tissue.
In sum, above-mentioned Constitutive Relation of Soft Tissue tester is by arranging the fixture 20 of fixed biologically soft tissue, arrange and the horizontal force application apparatus 40 of power, vertical force application apparatus 50 are applied to make biologic soft tissue generation detrusion to fixture 20, simultaneously detect longitudinal force, transverse force and vertical force and displacement respectively by longitudinal pulling force pick-up unit 30, lateral pull pick-up unit 41, vertical tension pick-up unit 51 and displacement detector and analyze, to realize the shearing test to biologic soft tissue, realize the material response under the complicated shear mode of measurement; Additionally by adopting the mechanical measuring and calculation method of biologic soft tissue can to the shearing test of biologic soft tissue, can realize measuring the material response under complicated shear mode.
The above is only preferred implementation of the present utility model; be not limited to the utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.
Claims (10)
1. a Constitutive Relation of Soft Tissue tester, in order to detect the mechanical characteristic of biologic soft tissue, it is characterized in that: comprise pedestal, be arranged on described pedestal with the fixture of fixed biologically soft tissue, be connected with described fixture and on described fixture, apply the horizontal force application apparatus of transverse force, be connected with described fixture and on described fixture, apply the vertical force application apparatus of vertical force, clamp described fixture and detect the longitudinal pulling force pick-up unit of the longitudinal force that described fixture bears, be arranged on described pedestal to detect the displacement detector of fixture displacement, harvester and computing machine, described horizontal force application apparatus comprise detect be applied to the lateral pull pick-up unit of the transverse force on fixture, described vertical force application apparatus comprise detect be applied to the vertical tension pick-up unit of the vertical force on fixture, described harvester gathers longitudinal force, transverse force and vertical force and displacement, described computing machine is connected with harvester signal, and analyze longitudinal force, transverse force and vertical force and displacement.
2. Constitutive Relation of Soft Tissue tester according to claim 1, is characterized in that: institute's displacement sensing device comprise detecting fixture displacement in the vertical Y-axis displacement detector, in order to detect the X-axis displacement detector of fixture displacement in the horizontal and the Z axis displacement detector in order to detect the displacement of fixture on vertical.
3. Constitutive Relation of Soft Tissue tester according to claim 2, is characterized in that: the fixed mount described pedestal being provided with fixing described Y-axis displacement detector.
4. Constitutive Relation of Soft Tissue tester according to claim 3, it is characterized in that: described Y-axis displacement detector is positioned at the top of described fixture, the securing member that described fixed mount comprises the fixed bar of vertical described pedestal setting, the mounting rod of vertical described fixed bar setting and is fixed on by described mounting rod on fixed bar, described mounting rod offers the microscler waist hole extended along described mounting rod, described securing member is located in described microscler waist hole.
5. Constitutive Relation of Soft Tissue tester according to claim 1 and 2, it is characterized in that: described longitudinal pulling force pick-up unit comprises the sub-longitudinal pressure detecting device that the folder of the described fixture of some clampings and some and described folder are arranged one to one, the longitudinal force of the fixture on the folder position point corresponding to each described sub-longitudinal pressure detecting device detects.
6. Constitutive Relation of Soft Tissue tester according to claim 5, is characterized in that: described folder is four, and described fixture is quadrilateral, and described four folders clamp four end pin of described fixture respectively.
7. Constitutive Relation of Soft Tissue tester according to claim 5, it is characterized in that: each described folder has the train wheel bridge and lower plate and the web joint being connected train wheel bridge and lower plate that are oppositely arranged, described train wheel bridge, between lower plate and web joint formed clamping chamber, described fixture is C-shaped.
8. Constitutive Relation of Soft Tissue tester according to claim 1, it is characterized in that: described horizontal force application apparatus also comprises the lateral traction line connecting lateral pull pick-up unit and fixture, described vertical force application apparatus also comprises the vertical draught line connecting vertical tension pick-up unit and fixture.
9. Constitutive Relation of Soft Tissue tester according to claim 8, it is characterized in that: described horizontal force application apparatus also comprises the lateral driver device of traction lateral traction line, one end of described lateral pull pick-up unit connects lateral traction line, the other end connects lateral driver device, described vertical force application apparatus also comprises the vertical drive of drawing vertical draught line, one end of described vertical tension pick-up unit connects vertical draught line, and the other end connects vertical drive.
10. Constitutive Relation of Soft Tissue tester according to claim 9, it is characterized in that: described pedestal is provided with mount pad and the first sliding seat be fixed on described mount pad and the second sliding seat, described mount pad comprises the jig-attachment part of stationary fixture, from two adjacent side of described jig-attachment part stretch out formed the first extension board and the second extension board, the bearing of trend that described first extension board is provided with transversely draught line extends and the first orbit portion coordinated with described first sliding seat, described lateral pull pick-up unit is arranged on the first sliding seat, the bearing of trend that described second extension board is provided with along described vertical draught line extends and the second orbit portion coordinated with described second sliding seat, described vertical tension pick-up unit is arranged on described second sliding seat.
Priority Applications (1)
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CN201520833189.2U CN205192870U (en) | 2015-10-26 | 2015-10-26 | Biological soft tissue mechanics characteristic test appearance |
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CN201520833189.2U CN205192870U (en) | 2015-10-26 | 2015-10-26 | Biological soft tissue mechanics characteristic test appearance |
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CN201520833189.2U Withdrawn - After Issue CN205192870U (en) | 2015-10-26 | 2015-10-26 | Biological soft tissue mechanics characteristic test appearance |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105300812A (en) * | 2015-10-26 | 2016-02-03 | 苏州大学张家港工业技术研究院 | Biological soft tissue mechanical property testing instrument and biological soft tissue mechanical testing method |
CN107941613A (en) * | 2017-11-15 | 2018-04-20 | 江苏铂影数据科技有限公司 | Biological respinse and soft tissue mechanics multifunctional testing integrated instrument |
-
2015
- 2015-10-26 CN CN201520833189.2U patent/CN205192870U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105300812A (en) * | 2015-10-26 | 2016-02-03 | 苏州大学张家港工业技术研究院 | Biological soft tissue mechanical property testing instrument and biological soft tissue mechanical testing method |
WO2017070975A1 (en) * | 2015-10-26 | 2017-05-04 | 苏州大学张家港工业技术研究院 | Mechanical property testing instrument for biological soft tissues and mechanical testing method for biological soft tissues |
CN105300812B (en) * | 2015-10-26 | 2017-11-28 | 苏州大学 | The mechanical measuring and calculation method of Constitutive Relation of Soft Tissue tester and biologic soft tissue |
US9995727B2 (en) | 2015-10-26 | 2018-06-12 | Soochow University | Mechanical property tester and testing method of biological soft tissue |
CN107941613A (en) * | 2017-11-15 | 2018-04-20 | 江苏铂影数据科技有限公司 | Biological respinse and soft tissue mechanics multifunctional testing integrated instrument |
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Granted publication date: 20160427 Effective date of abandoning: 20171128 |
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