CN109394215A - A kind of medical instrument die body and fixture and processing technology - Google Patents
A kind of medical instrument die body and fixture and processing technology Download PDFInfo
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- CN109394215A CN109394215A CN201811368884.0A CN201811368884A CN109394215A CN 109394215 A CN109394215 A CN 109394215A CN 201811368884 A CN201811368884 A CN 201811368884A CN 109394215 A CN109394215 A CN 109394215A
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- component
- ontology
- die body
- medical instrument
- fixture
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/05—Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves
- A61B5/055—Detecting, measuring or recording for diagnosis by means of electric currents or magnetic fields; Measuring using microwaves or radio waves involving electronic [EMR] or nuclear [NMR] magnetic resonance, e.g. magnetic resonance imaging
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/58—Testing, adjusting or calibrating apparatus or devices for radiation diagnosis
- A61B6/582—Calibration
- A61B6/583—Calibration using calibration phantoms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P15/00—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25B—TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
- B25B11/00—Work holders not covered by any preceding group in the subclass, e.g. magnetic work holders, vacuum work holders
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2560/00—Constructional details of operational features of apparatus; Accessories for medical measuring apparatus
- A61B2560/02—Operational features
- A61B2560/0223—Operational features of calibration, e.g. protocols for calibrating sensors
Abstract
The present invention relates to a kind of medical instrument die body and fixture and processing technologys, die body moves up the precision of moving axis for correction on large medical apparatus, and X-ray or nuclear magnetic resonance light equivalent, including ontology, and it is arranged in parallel in the first component and second component at the ontology both ends;A reference line is equipped in the ontology, the reference line is vertical with the first component and the second component respectively.A kind of fixture, including a pedestal are vertically set on a pair of of positioning column of the pedestal two sides;The pair of positioning column bottom end is connect with the pedestal, and top end is also connected with a positioning plate, and the positioning plate is moved up and down along the pair of positioning column.A kind of processing technology of medical instrument die body, mainly processes above-mentioned medical instrument die body.The structure of die body of the present invention is simple, and processing program is simple, and the made precision for causing each components is high, and bonding precision, adhesive fastness, bonding aesthetics between each component etc. efficiently control overall precision and reduce deformation.
Description
Technical field
The present invention relates to medical instrument processing technique field, especially a kind of die body for being calibrated to medical instrument
And fixture and processing technology.
Background technique
Die body is used on large medical apparatus the precision of shifting axle and X-ray or nuclear magnetic resonance light on calibrator (-ter) unit and works as
Die body is measured, it finally determines the service precision of medical instrument.
Currently, due to not having to control the accuracy of manufacture of each components well when doing die body at the beginning, and use on artificial
The method of glue, so, causing the die body molding of production latter is that precision is low, and the mutual bonding of each components is unreliable, and
And the case where there are also degumming, to occur.In addition, there is also overall deformation after a period of use.
Therefore, how to improve the accuracy of manufacture of each components of die body, improve bonding precision between each components, bonding jail
Degree, bonding aesthetics and deformation is reduced, the problems such as overall precision after efficiently controlling bonding/assembly.According to this, system how is improved
The quality for making die body is particularly important.
Summary of the invention
The purpose of the present invention is a kind of medical instrument die body and fixture and processing technology to solve the above problem, die bodys
Structure is simple, simplifies processing program, guarantees that the precision of manufactured each components is high, bonding precision, bonding jail between components
Degree, bonding aesthetics etc., efficiently control overall precision and reduce deformation.
Technical solution provided by the invention is as follows:
A kind of medical instrument die body, the die body is for the precision of calibration shifting axle on large medical apparatus and X-ray or nuclear-magnetism
Resonance light equivalent, comprising:
Ontology, and it is arranged in parallel in the first component and second component at the ontology both ends;
A reference line is equipped in the ontology, the reference line hangs down with the first component and the second component respectively
Directly.
Preferably, the ontology is cylindrical structure, runs through the reference line at the ontology axle center of the cylindrical structure;
A groove, the shape of the groove and the cylindrical body knot are equipped on the first component and the second component
The body cross-section shape of structure is identical, and diameter is identical;
After the ontology of the cylindrical structure is connect with the first component and the second component, the first component
There are certain distances between the second component.
Preferably, the ontology is tubular structure, and the ontology both ends of the tubular structure are respectively equipped with and described first
First cover board of part connection, and the second cover board being connect with the second component, and first cover board and second lid
A reference line is vertically connected between plate.
Preferably, the diameter of first cover board and second cover board is in 8mm or so;
The body diameter of the tubular structure is identical as the outer diameter size of the first component and the second component.
In the technical program, by the difference of body construction, the setting of reference line is realized in different ways, it is therefore an objective to
The tensile force for improving reference line, improves its straightness, guarantees the accuracy of correction.
The present invention also provides a kind of fixtures, are used for clamping medical instrument die body described above, comprising:
One pedestal is vertically set on a pair of of positioning column of the pedestal two sides;
The pair of positioning column bottom end is connect with the pedestal, and top end is also connected with a positioning plate, and the positioning plate is along institute
A pair of of positioning column is stated to move up and down.
In the technical program, by the setting of positioning column, guarantee the planarization of the first component and second component edge, simultaneously
There can be a pressuring action to the first component, ontology and second component by the positioning plate of setting, improve bonding strength.
Preferably, the edge of the pedestal is arranged with several isometry blocks, and the isometry block is for being fastened on described the
Between one component and the second component.
In the technical program, by the setting of isometry block, the positional relationship between the first component and second component is defined,
The collimation for further improving the two, to improve the straightness of reference line.
A kind of processing technology of medical instrument die body is additionally provided in the present invention, the medical instrument die body is described above
Medical instrument die body, comprising the following steps:
S01: according to ontology, the first component and second component choose corresponding raw material;
S02: the every kind raw material formulate corresponding production parameter, process described respectively by corresponding production parameter
Body, the first component and the second component;
S03: the ontology of processing is glued with the first component and the second component respectively by bonding technology
It connects;
S04: shaped article is annealed after bonding;
S05: product is subjected to airtight test.
Preferably, in step S03, the bonding technology the following steps are included:
S031: selected glue;
S032: the temperature and humidity in control operating environment;
S033: the ontology is carried out with the first component and the second component respectively using selected glue be bonded;
S034: molding bonded product is removed from fixture, removes the glue of spilling, and the fixture is claim 5-6
Described in any item fixtures;
S035: the shaped article removed is labelled;
S036: it tests according to product of the standard to label.
It is further preferred that in step S033: by the ontology respectively with the first component and the second component into
Row bonding the following steps are included:
S0331: by the ontology, the first component and the second component and the fixture carry out preliminary trial assembly, really
Protecting between each component mutually to assemble, and the ontology, and there are between certain between the first component and the second component
Gap;
S0332: being polished with abrasive paper for metallograph is uniform in the direction of the clock in the groove of the first component, grinding homogeneity
Afterwards, then with cloth it is wiped clean in groove;
S0333: described ontology one end paster is torn, and the form that glue has been drawn a circle uniformly is overstock in the ontology
On, and glue is struck off;
S0334: the described ontology one end for smearing glue being assembled in groove, and firmly pushes down the ontology, and to
Its left and right irregularly rotates, and the ontology is bonded completely with the first component;
S0335: S0332-S0334 is repeated, the ontology is bonded completely with the second component;
S0335: the shaped article assembled is put into the fixture, makes its described first component and the second component
Side contacted with positioning column, the mutual alignment relation of the positioning plate fixed first component and the second component;
S0336: isometry block is encased inside between the first component and the second component;
S0337: it must observe whether the first component and the second component have glue spilling;
S0338: whether anti-body inspection, determining has bubble, gap in groove;
S0339: shaped article being put into togerther in curing room with fixture and is solidified, curing time >=20 hour.
Preferably, in step S02, when the ontology of processing is tubular structure, specifically includes the following steps:
S021: first cover board at the ontology both ends of the tubular structure and the depth of parallelism of the second cover board are controlled;
S022: first cover board, second cover board, the first component and second component coaxial arrangement;
S023: the both ends setting of the reference line is coaxially being located.
The technical program, it is easy to operate, guarantee the accuracy of each step operation sequence, improves the essence for manufacturing each components
Degree improves bonding precision, adhesive fastness, bonding aesthetics etc. between each component, to efficiently control overall precision reduction
Deformation.
In conclusion a kind of having the characteristics that for the processing technology of medical instrument die body provided by the invention is following:
1, in the present invention, the die body product that need to be processed is simple, specifically according to the difference of body construction, using different sides
The setting of formula realization reference line, it is therefore an objective to which the tensile force for improving reference line improves its straightness, guarantees the accuracy of correction.
2, in the present invention, the first component and second component side are guaranteed using the positioning column in fixture by the fixture of setting
The planarization of edge, while the positioning plate by being arranged can have a pressuring action to the first component, ontology and second component,
Improve bonding strength.
3, in the present invention, entire processing program simplifies, improve it is high to the precision of manufactured each components, guarantee components it
Between bonding precision, adhesive fastness, bonding aesthetics etc., efficiently control overall precision and reduce deformation.
Detailed description of the invention
Below by clearly understandable mode, preferred embodiment is described with reference to the drawings, to a kind of medical instrument die body
Above-mentioned characteristic, technical characteristic, advantage and its implementation of processing technology are further described.
Fig. 1 is a kind of a kind of structural schematic diagram of medical instrument die body of the present invention;
Fig. 2 is a kind of another structural schematic diagram of medical instrument die body of the present invention;
Fig. 3 is a kind of structural schematic diagram of fixture of the present invention.
Drawing reference numeral:
Ontology 1;
The first component 21;Second component 22;
Reference line 3;
First cover board 41;Second cover board 42;
Fixture 5;Pedestal 51;Positioning column 52;Positioning plate 53;Isometry block 54;Jacking block 55.
Specific embodiment
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, Detailed description of the invention will be compareed below
A specific embodiment of the invention.It should be evident that drawings in the following description are only some embodiments of the invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Embodiment.
In the embodiment of medical instrument die body of the present invention, referring to shown in Fig. 1,2, a kind of medical instrument die body, the die body
It is mainly used for correcting the precision for moving up moving axis and X-ray or nuclear magnetic resonance light equivalent on large medical apparatus, specifically includes ontology
1, and it is arranged in parallel in the first component 21 and second component 22 at 1 both ends of ontology;A reference line 3 is equipped in ontology 1 simultaneously,
So that reference line 3 is vertical with the first component 21 and second component 22 respectively.The purpose being arranged in this way is to improve the straight line of reference line 3
Degree makes it meet the correction to large medical apparatus, avoids generating excessive deviation in correction course.
In the embodiment one of this die body, referring again to shown in Fig. 1, wherein the ontology 1 of setting be cylindrical structure, i.e., in
The heart is solid;It, i.e., can be by benchmark in processing sets up ontology 1 through reference line 3 is equipped at 1 axle center of ontology of cylindrical structure
Line 3 is set up directly in the ontology 1 of cylindricity structure, while being equipped with a groove on the first component 21 and second component 22,
And the shape of groove is identical as 1 cross-sectional shape of ontology of cylindrical structure, diameter is identical.Purpose be guarantee ontology 1 with
The fitness of the first component 21 and second component 22, and when the ontology 1 and the first component 21 and second component 22 of cylindrical structure
After connection, there are certain distance between the first component 21 and the second component 22, which is determined by the height of ontology 1, two
Guarantee collimation is carried out between a component.
In the embodiment two of this die body, referring again to shown in Fig. 2, the difference with embodiment one is: where setting
Ontology 1 is tubular structure, i.e., center is hollow structure;Therefore for reference line 3 is arranged in the ontology 1 of hollow tubular structure,
For the tension for improving reference line 3, guarantee the straightness of reference line 3.Further it is respectively equipped at 1 both ends of the ontology of tubular structure
The first cover board 41 being connect with the first component 21, and the second cover board 42 being connect with second component 22, and 41 He of the first cover board
A reference line 3 is vertically connected between second cover board 42.
The present embodiment is arranged at 8mm or so in actual use, by the diameter of the first cover board 41 and the second cover board 42, together
When for guarantee tubular structure 1 both ends of ontology the first component 21 and second component 22 collimation, further by tubulose knot
1 outer diameter of ontology of structure and the outer diameter of the first component 21 and second component 22 be sized to it is identical, and outer diameter setting 54mm a left side
It is right.Wherein, it should be noted that reference line 3 is using steel wire, and gauge of wire control is in 0.2mm or so.
Each component of above-mentioned die body mainly uses CNC (Computerized Numerical Control: computer numerical control
Technology) equipment processed, and there are many connection types between each component after processing is completed, and glue is preferably used in the application
Water is bonded, while to guarantee adhesive strength, further that a fixture 5 is arranged, shown referring to Fig. 3, specifically includes a bottom
Seat 51, is vertically set on a pair of of positioning column 52 of 51 two sides of pedestal;A pair of of 52 bottom end of positioning column is connect with pedestal 51 simultaneously, and
The top end of a pair of of positioning column 52 connects a positioning plate 53, and positioning plate 53 is moved up and down along a pair of of positioning column 52.Purpose is
By the elevating movement of positioning column 52, its positioning plate 53 is made to be pressed on the top of the first component 21, by pressure accelerate each component it
Between adhesive strength.
It improves, and thes improvement is that on the basis of above-mentioned fixture 5: being also arranged in the edge of pedestal 51 several
A isometry block 54 is fastened on the using isometry block 54 mainly when the first component 21 and second component are greater than the diameter of ontology 1
Between one component 21 and the second component, to ensure that the collimation of the two.Certainly in actual use, isometry block 54
Highly and distributed quantity can do setting adjustment according to actual needs.
The present invention also provides a kind of processing technologys of medical instrument die body, wherein medical instrument die body is above-mentioned medical treatment
Instrument die body, specifically includes the following steps:
S01: according to ontology 1, the first component 21 and second component choose corresponding raw material;
S02: every kind raw material formulate corresponding production parameter, avoid different production parameters using same mode of operation
Lead to scrapping for product, ontology 1, the first component 21 and second component are processed by corresponding production parameter respectively in this way;
S03: 1 both ends of ontology of processing are carried out with the first component 21 and second component be bonded respectively by bonding technology;
S04: forming final die body product and anneal after bonding, and the purpose annealed is to reduce hardness, eliminates remaining
Stress, stable dimensions reduce deformation and crackle tendency;
S05: product is subjected to airtight test, it is therefore an objective to the leakproofness for guaranteeing product by air tightness test, to guarantee
Quality.
In the step S03 of this processing technology, 1 both ends of ontology and the bonding technology of the first component 21 and second component are specific
Include the following steps:
S031: selected glue, wherein the selection of glue be selected after many experiments and analysis compare it is optimal a
Existing glue in the market, is directly bought;
S032: controlling the temperature and humidity in operating environment, and preferred temperature controls between 18 °~30 ° in the application,
And production quality of the humid control between 50 °~80 °, in this way from environmentally guarantee product;
S033: ontology 1 is carried out with the first component 21 and second component respectively using selected glue it is be bonded, when practical operation
It first connect, is connect afterwards with second component, sequencing is without limitation, it is only necessary to complete 1 both ends of ontology with the first component 21
Connection;
S034: molding bonded product is removed from fixture 5, and the glue overflowed, fixture 5 therein are removed with clean cloth
For above-mentioned fixture 5;
S035: labelling on the shaped article removed, real to carry out when subsequent use referring to the standard of label
Border uses;
S036: it tests according to product of the standard to label, guarantees the quality of each product.
In the step S033 of this processing technology: specifically carrying out ontology 1 with the first component 21 and second component respectively
Bonding the following steps are included:
S0331: by ontology 1, the first component 21 and second component and fixture 5 carry out preliminary trial assembly, it is ensured that between each component
It can mutually assemble, so that ontology 1, there are certain gap between the first component 21 and second component, gap therein must not be small
It is to guarantee that glue has the space of spilling in the purpose of 0.2mm;
S0332: being polished with abrasive paper for metallograph is uniform in the direction of the clock in the groove of the first component 21, grinding homogeneity
Afterwards, then with cloth it is wiped clean in groove, guarantees the cleaning on surface and smooth;
S0333: 1 one end paster of ontology being torn, the form that glue has been drawn a circle uniformly is overstock on ontology 1, and will
Glue strikes off;Wherein, specific glue is coated with mode and does not limit, and the form drawn a circle in the application mainly guarantees to be coated with glue
Uniformity.
S0334: 1 one end of ontology for smearing glue being assembled in groove, and firmly pushes down ontology 1, and to its left and right
Irregular rotation, ontology 1 is bonded completely with the first component 21;
S0335: step S0332-S0334 is repeated, ontology 1 is bonded completely with second component;
S0335: the shaped article assembled is put into fixture 5, make the side of its first component 21 and second component with
The positioning column 52 of fixture 5 contacts, and positioning pin (is not indicated, set according to the demand of product) in insertion second component, positioning plate
53 mutual alignment relation to fix between two components of the first component 21 and second component.Jacking block 55 is scheduled on two up and down again
On component (being folded on the upper surface of the first component 21 and the lower surface of second component), it is ensured that two components do not move
It is dynamic.Wherein, it should be noted that jacking block 55 can be directly fixed on the pedestal 51 of fixture 5, it is only necessary to realize to the first component
21 and second component be fixedly clamped.
S0336: isometry block 54 is encased inside between the first component 21 and second component;
S0337: it must observe whether the first component 21 and second component have glue spilling, it is necessary to reach glue at ontology 1 week
Enclosing has spilling, cannot there is local empty leakage;
S0338: whether anti-body inspection, determining has bubble, gap in groove;
S0339: shaped article being put into togerther in curing room with fixture 5 and is solidified, curing time >=20 hour.
Wherein, it should be noted that it is cylindrical structure that the step of above-mentioned processing technology, which is directed to ontology 1, due to cylinder
There is certain area to be used as adhesive surface at the both ends of body structure, and when processing only needs the both ends of the ontology 1 of guarantee cylindrical structure to have base
Directrix 3 is reserved.And when the ontology 1 to tubular structure is processed, it needs first to process the reference line 3 in ontology 1,
Specific steps are as follows:
S021: first cover board 41 at 1 both ends of ontology of tubular structure and the depth of parallelism of the second cover board 42 are controlled;
S022: so that the first cover board 41, the second cover board 42, the first component 21 and second component coaxial arrangement;
S023: the both ends setting of reference line 3 is coaxially being located.The tensile force that can guarantee reference line 3 in this way, it is subsequent in progress
Component between bonding (specific bonding process is same as described above), can further improve the quality of product.
It should be noted that above-described embodiment can be freely combined as needed.The above is only of the invention preferred
Embodiment, it is noted that for those skilled in the art, in the premise for not departing from the principle of the invention
Under, several improvements and modifications can also be made, these modifications and embellishments should also be considered as the scope of protection of the present invention.
Claims (10)
1. a kind of medical instrument die body, precision and X-ray or nuclear-magnetism of the die body for the positive shifting axle of large medical apparatus colonel are total
Shake light equivalent characterized by comprising
Ontology, and it is arranged in parallel in the first component and second component at the ontology both ends;
A reference line is equipped in the ontology, the reference line is vertical with the first component and the second component respectively.
2. a kind of medical instrument die body according to claim 1, it is characterised in that:
The ontology is cylindrical structure, runs through the reference line at the ontology axle center of the cylindrical structure;
A groove, the shape of the groove and the cylindrical structure are equipped on the first component and the second component
Body cross-section shape is identical, and diameter is identical;
After the ontology of the cylindrical structure is connect with the first component and the second component, the first component and institute
State between second component that there are certain distances.
3. a kind of medical instrument die body according to claim 1, it is characterised in that:
The ontology is tubular structure, and the ontology both ends of the tubular structure are respectively equipped with connect with the first component first
Cover board, and the second cover board being connect with the second component, and vertically connect between first cover board and second cover board
Connect a reference line.
4. a kind of medical instrument die body according to claim 3, it is characterised in that:
The diameter of first cover board and second cover board is in 8mm or so;
The body diameter of the tubular structure is identical as the outer diameter size of the first component and the second component.
5. a kind of fixture is used for medical instrument die body described in any one of clamping claim 1-4 characterized by comprising
One pedestal is vertically set on a pair of of positioning column of the pedestal two sides;
The pair of positioning column bottom end is connect with the pedestal, and top end is also connected with a positioning plate, and the positioning plate is along described one
Positioning column is moved up and down.
6. a kind of fixture according to claim 5, it is characterised in that:
The edge of the pedestal is arranged with several isometry blocks, and the isometry block is for being fastened on the first component and described
Between second component.
7. a kind of processing technology of medical instrument die body, the medical instrument die body is to cure described in any one of claim 1-4
Treat instrument die body, which comprises the following steps:
S01: according to ontology, the first component and second component choose corresponding raw material;
S02: the every kind raw material formulate corresponding production parameter, process the ontology respectively by corresponding production parameter,
The first component and the second component;
S03: the ontology of processing is carried out with the first component and the second component be bonded respectively by bonding technology;
S04: shaped article is annealed after bonding;
S05: product is subjected to airtight test.
8. the processing technology of medical instrument die body according to claim 7, it is characterised in that:
In step S03, the bonding technology the following steps are included:
S031: selected glue;
S032: the temperature and humidity in control operating environment;
S033: the ontology is carried out with the first component and the second component respectively using selected glue be bonded;
S034: molding bonded product is removed from fixture, removes the glue of spilling, and the fixture is that claim 5-6 is any
Fixture described in;
S035: the shaped article removed is labelled;
S036: it tests according to product of the standard to label.
9. the processing technology of medical instrument die body according to claim 8, it is characterised in that:
In step S033: the ontology being carried out respectively Nian Jie including following step with the first component and the second component
It is rapid:
S0331: by the ontology, the first component and the second component and the fixture carry out preliminary trial assembly, it is ensured that each
It can mutually be assembled between component, and the ontology, there are certain gaps between the first component and the second component;
S0332: being polished with abrasive paper for metallograph is uniform in the direction of the clock in the groove of the first component, after grinding homogeneity,
It is wiped clean in groove with cloth again;
S0333: described ontology one end paster is torn, and the form that glue has been drawn a circle uniformly is overstock on the body, and
Glue is struck off;
S0334: the described ontology one end for smearing glue is assembled in groove, and firmly pushes down the ontology, and is left to it
Right irregular rotation, the ontology is bonded completely with the first component;
S0335: S0332-S0334 is repeated, the ontology is bonded completely with the second component;
S0335: the shaped article assembled is put into the fixture, makes the side of its first component and the second component
Face is contacted with positioning column, the mutual alignment relation of the positioning plate fixed first component and the second component;
S0336: isometry block is encased inside between the first component and the second component;
S0337: it must observe whether the first component and the second component have glue spilling;
S0338: whether anti-body inspection, determining has bubble, gap in groove;
S0339: shaped article being put into togerther in curing room with fixture and is solidified, curing time >=20 hour.
10. the processing technology of medical instrument die body according to claim 7, it is characterised in that:
In step S02, when the ontology of processing is tubular structure, specifically includes the following steps:
S021: first cover board at the ontology both ends of the tubular structure and the depth of parallelism of the second cover board are controlled;
S022: first cover board, second cover board, the first component and second component coaxial arrangement;
S023: the both ends setting of the reference line is coaxially being located.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113081008A (en) * | 2021-03-24 | 2021-07-09 | 上海京悦机械有限公司 | Medical instrument die body |
CN113103187A (en) * | 2021-03-31 | 2021-07-13 | 上海京悦机械有限公司 | Manufacturing device and manufacturing method of medical instrument die body |
CN113081008B (en) * | 2021-03-24 | 2024-04-19 | 上海京悦机械有限公司 | Medical instrument die body |
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