CN106239256A - Valve block manufacture - Google Patents
Valve block manufacture Download PDFInfo
- Publication number
- CN106239256A CN106239256A CN201510257336.0A CN201510257336A CN106239256A CN 106239256 A CN106239256 A CN 106239256A CN 201510257336 A CN201510257336 A CN 201510257336A CN 106239256 A CN106239256 A CN 106239256A
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- China
- Prior art keywords
- end points
- lamellar body
- valve block
- cutting edge
- cutting
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Abstract
The present invention is about a kind of valve block manufacture.This valve block manufacture comprises the following steps: provide at least one lamellar body, respectively this lamellar body have be positioned on thickness direction relative to one first side and one second side.This at least one lamellar body is fixed on a tool.One is provided to have a cutting edge transverse to the first side of this at least one lamellar body.Make this cutting edge close cutting path relative to this at least one lamellar body along one and cut this at least one lamellar body, relative one first end points that this closing cutting path includes laying respectively in two vertical direction of this at least one lamellar body and one second end points and one the 3rd relative end points and one the 4th end points.Wherein, this cutting edge along this closing cutting path cutting respectively this lamellar body with formed lay respectively at this first and second end points phase line both sides one towards this first side tilt the first side face and one towards this second side tilt the second side face.
Description
Technical field
The present invention relates to valve block manufacturing technology field, particularly with regard to a kind of valve block manufacture.
Background technology
Typically there is the device using fluid, a valve mechanism generally can be set in conveyance conduit and control stream
The flow of body.Wherein, valve mechanism is to arrange a valve block in conveyance conduit, next partly/complete by valve block
The circulation of full block fluid, reaches to control the purpose of flow.
Traditional valve block manufacture, is to go to cut according to conveyance conduit radial dimension size, valve block
Circumferential surface is identical and parallel with the outline direction of conveyance conduit, it will usually collocation plastic cement (or rubber) packing ring
It is located between valve block and conveying pipeline inner wall, to guarantee that valve block can be mutually the most closely sealed with the inwall of conveyance conduit,
The thereby circulation of complete block fluid.
The valve block that the most traditional valve block manufacture produces, only can be with conveying on same plane
Pipeline abuts against, once there being a little cannot cooperation with the radial dimension of conveyance conduit i.e. cannot intercept stream in size
Body, therefore plastic cement material of need arranging in pairs or groups.But, plastic cement (or rubber) material relatively cannot be used in hot environment,
Will go bad after using a period of time, need timing periodic replacement, not only work consuming expends the most again money,
Therefore the manufacture of known valve block, there is the scarce fraud urgently improved.
Therefore, it is necessary to provide a kind of novelty and there is the valve block manufacture of progressive, above-mentioned to solve
Problem.
Summary of the invention
It is an object of the invention to provide a kind of valve block manufacture, the circumferential surface of valve block is processed, makes valve
Sheet has the circumferential surface of continuous tilt, therefore circumferential surface can have the radial dimension of plane of multiple difference and come and conveying
Pipeline leans, and manufacture is the most simple and quick, more can process the most in a large number.It addition, thereby
When valve block manufactured by mode is installed to conveyance conduit, overall structure need not re-use rubber, mould
Glue material, therefore set-up time and the most cost-effective can be accelerated.
For achieving the above object, the present invention takes techniques below scheme:
The present invention provides a kind of valve block manufacture to comprise the following steps: provide at least one lamellar body, respectively this lamellar body
Have be positioned on thickness direction relative to one first side and one second side.This at least one lamellar body is fixed on
On one tool.One is provided to have a cutting edge transverse to the first side of this at least one lamellar body.Make this cutting
Sword is closed cutting path relative to this at least one lamellar body along one and is cut this at least one lamellar body, this closing cutting path
Including relative one first end points in two vertical direction laying respectively at this at least one lamellar body and one second end points,
And one the 3rd relative end points and one the 4th end points.Wherein, this cutting edge cuts along this closing cutting path
Respectively this lamellar body with formed the both sides that lay respectively at this first and second end points phase line one towards this first side
First side face of face inclination and second side face tilted towards this second side.
First and second side face described is continuous tilt change, has maximum at described 3rd and the 4th end points
Angle of inclination, and at first and second end points described, be perpendicular to described first side.
Described tool is provided with the inclined side of two relative surfaces, and first and second side of described at least one lamellar body is respectively
Offseting with described two inclined side and be fixedly arranged on this tool, this tool is located at one with an axial line as center of rotation
On board, this first side is staggered with described axial line obliquely, and described cutting edge closes cutting along described
This at least one lamellar body is cut in path.
Described axial line is perpendicular to ground level.
Described axis parallel is in ground level.
Described at least one lamellar body ovalize.
Described valve block manufacture separately includes at least one and wears described tool and described at least one lamellar body
Fixation kit, this tool and this at least one lamellar body are closely combined by described at least one fixation kit.
Described cutting edge is selected from a water cutter, a laser knife, a flame knife, a turning cutter, a milling cutter or
Grinding knife.
The definition of described each lamellar body has a reference center line being perpendicular to described first side, and described cutting edge is positioned at
This first side it is perpendicular to during first and second end points described;This cutting edge by described 4th end points by this
It is increasingly towards described reference center line inclination when end point is to described three end points;This cutting edge is by the 3rd end
It is gradually distance from this reference center line inclination when point is by this second end points to four end points.
The definition of described each lamellar body has a reference center line being perpendicular to described first side, and described cutting edge is positioned at
This first side it is perpendicular to during first and second end points described;This cutting edge is by this first end points to the described 3rd
Described reference center line inclination it is increasingly towards during end points;This cutting edge by the 3rd end points by this second end points
It is gradually distance from this reference center line inclination during to described four end points;This cutting edge by the 4th end points to this
This reference center line inclination it is increasingly towards during end point.
The invention has the beneficial effects as follows: valve block out manufactured by valve block manufacture of the present invention, it has even
The circumferential surface that continuous change tilts, therefore when valve block is installed on fluid passage, the circumferential surface of inclination provides multiple
Different radial dimension of planes abut against with fluid passage inwall, it is not necessary to use rubber (plastic cement) material,
Can effective barrier fluid.Additionally, valve block manufacture of the present invention is under same cutting path, can not only
Effectively simplify cutting operation flow process, and the valve block produced closely can be harmonious with fluid passage.Moreover it is possible to
The cutting of Shi Jinhang majority lamellar body so that production efficiency can significantly carry.
Accompanying drawing explanation
Fig. 1 is the axonometric chart of the valve block of a preferred embodiment of the present invention.
Fig. 2 is the manufacture assembly exploded view of a preferred embodiment of the present invention.
Fig. 3 is the manufacture components axonometric chart of a preferred embodiment of the present invention.
Fig. 4 is the cutting schematic diagram of a preferred embodiment of the present invention.
Fig. 5 is the cutter schematic diagram of a preferred embodiment of the present invention.
Fig. 6 is first operation chart of a preferred embodiment of the present invention.
Fig. 7 is second operation chart of a preferred embodiment of the present invention.
Fig. 8 is the 3rd operation chart of a preferred embodiment of the present invention.
Fig. 9 is the 4th operation chart of a preferred embodiment of the present invention.
Figure 10 is the manufacture components axonometric chart of another preferred embodiment of the present invention.
Figure 11 is the manufacture assembly exploded view of the another embodiment of the present invention.
Figure 12 is the cutting schematic diagram of still another preferred embodiment of the present invention.
Drawing reference numeral: 1: lamellar body;11: the first sides;12: the second sides;13: reference center line;2、
2A: tool;21: inclined side;3: milling pin cutter;31: cutting edge;32: turning cutter;33: grinding knife;
34: water cutter;4: initial position;5: fixation kit;6: valve block;61: the first end points;62: the second
End points;63: the three end points;64: the four end points;65: circumferential surface;651: the first side faces;652: the
Two side faces;7,7A: axial line.
Detailed description of the invention
Hereinafter only with embodiment, the enforcement aspect that the present invention is possible is described, so and be not used to limit the present invention and be intended to
The category of protection, conjunction is first chatted bright.
Refer to Fig. 1 to Fig. 9, a preferred embodiment of its display present invention, the valve block manufacturer of the present invention
Formula comprises the following steps:
There is provided at least one lamellar body 1, respectively this lamellar body 1 have be positioned on thickness direction relative to one first side 11
And one second side 12.This at least one lamellar body 1 is fixed on a tool 2.There is provided one have one transverse to
The cutting edge 31 of the first side 11 of this at least one lamellar body 1.Make this cutting edge 31 the most a piece of relative to this
Body 1 is closed cutting path (scheme depending on) along one and is cut this at least one lamellar body 1, and this closing cutting path includes point
Relative one first end points 61 not being positioned in two vertical direction of this at least one lamellar body 1 and one second end points 62,
And one the 3rd relative end points 63 and one the 4th end points 64.Wherein, this cutting edge 31 cuts along this closing
Cutting respectively this lamellar body 1 in path is to form the both sides laying respectively at this first and second end points 61,62 phase line
First side face 651 tilted towards this first side 11 and tilt towards this second side 12 the
Two side faces 652.After completing cutting operation, i.e. available at least one valve block 6, wherein this first and second
Side face 651,652 i.e. forms a circumferential surface 65 of this at least one valve block 6, and this first and second side face 651,
652 change for continuous tilt, have the angle of inclination of maximum at the 3rd and the 4th end points 63,64, and
It is perpendicular to this first side 11 at this first and second end points 61,62.And in order to make this at least one lamellar body
1 in cutting process, can stably be fixedly arranged on this tool 2 and be difficult to vibrations, it is preferred that separately have at least
One fixation kit 5 wearing this tool 2 and this at least one lamellar body 1, this tool 2 and this at least one lamellar body 1
Closely combined by this at least one fixation kit 5.
In the present embodiment, this tool 2 is provided with the inclined side 21 of two relative surfaces, the of this at least one lamellar body 1
One and second side 11,12 offset with this two inclined side 21 respectively and pass through two these fixation kits 5 and be fixedly arranged on
On this tool 2, this tool 2 is located on a board with an axial line 7 as center of rotation, this first side
11 is staggered with this axial line 7 obliquely.Owing to this at least one lamellar body 1 is located on this tool 2 obliquely,
As long as therefore this at least one lamellar body 1 keeps contacting with this cutting edge 31, and with the axial line 7 of this tool 2
Centered by rotation turn around after, this cutting edge 31 has i.e. carried out once this closing relative to this at least one lamellar body 1
Cutting path cuts, and namely completes time processing circulation.Wherein, this axial line 7 is generally perpendicular to ground level,
In other words, this board of the present embodiment is a vertical processing machine.In other embodiments, it is contemplated that selection
Cutter difference can have different machine directions, for example, can be such as another preferred embodiment of Figure 10
Shown in, this axial line 7A can also generally be parallel to ground level, and namely this board is alternatively a horizontal processing
Machine.
Say in more detail, refer to as shown in Figures 6 to 9, as a example by cutting this lamellar body 1, this lamellar body
1 is placed on this tool 2 obliquely, therefore has a relative k level position and the highest relative plane position
Put, see it, if with this initial position 4 with the direction of this axial line 7 vertical and this first side 11 parallel
It is positioned at relative k level position (that is cutting by relative k level position), when this tool 2
While rotating with this axial line 7, this lamellar body 1 can be little by little with the position that milling cutter 3 phase is cut
Away from this initial position 4, and i.e. can be the most again near this initial position after arriving the highest relative plan-position
4, finally can return this initial position 4 as shown in Figure 6, the most i.e. complete time processing circulation, this sheet
Body 1 can make to cut into this valve block 6, and this valve block 6 have continuous tilt change this circumferential surface 65 (as
Shown in Fig. 1).Wherein, this cutting edge 31 is the cutting part of a cutter, therefore this cutting edge 31 is except such as originally
Embodiment is derived from outside this milling cutter 3, it is possible to as shown in Figure 5 selected from turning cutter 32, grinding knife
33 or a water cutter 34 (or a laser knife, a flame knife), as long as cutting operation can be carried out, do not limit to this cutter
Tool kind.And it is understood that the most at the beginning this initial position 4 be positioned at which plan-position, this sheet
The position that body 1 cuts with milling cutter 3 phase all can be in relative k level position and the highest relative plan-position
Between, this initial position about 4 relatively swings back and forth, and finally returns this initial position 4.Additionally producing
Time, it is possible to as shown in the another embodiment of Figure 11,4 (or more) this lamellar body 1 is set this tool 2
On cut.
So manufacture, can not only effectively simplify and accelerate manufacturing process, as long as and setting this cutting
Radial distance between sword 31 with the axial line 7 of this tool 2 and the internal diameter size phase of a fluid passage (not shown)
With, this valve block 6 of after having cut closely can fit with the inwall of this fluid passage to be arranged, therefore
Can not pass through plastic cement (or rubber) material can mutually closely sealed with this fluid passage come barrier fluid circulation.It addition,
This at least one valve block 6 after cutting can be generally oval in one, and this circumferential surface 65 on short axle this first
And second be generally perpendicular to this first side 11 at end points 61,62, and this circumferential surface 65 on major axis this
Three and the 4th end points 63,64 can have maximum tilt angle.It is preferred that this at least one lamellar body 1 is same general
Oval in one, so can effectively reduce institute must the part of cutting, saving process time and processing cost.
It addition, can there be other different cutting modes in other embodiments, as Figure 12 another preferably
After this at least one lamellar body 1 is flatly fixed by the tool 2A shown in embodiment, this milling cutter 3 relative to
After this axial line 7 bearing of trend constant tilt one angle, this at least one lamellar body 1 that detours cuts.But,
Can also be that this at least one lamellar body 1 swings back and forth when rotating relative to this milling cutter 3 (or other cutters).
Or, this at least one lamellar body 1 is flatly fixed motionless, and this cutting edge 31 is with relative to this first side
The horizontal plane in face 11 carries out continually varying angle of inclination to cut this at least one lamellar body 1, says in more detail,
Respectively the definition of this lamellar body 1 has a reference center line 13 being perpendicular to this first side 11, and this cutting edge 31 is positioned at
It is perpendicular to this first side 11 during these first and second end points 61,62, and this cutting edge 31 is by the 4th end
Point 64 by this first end points 61 to three end points 63 time be increasingly towards this reference center line 13 inclination,
Finally, this cutting edge 31 by the 3rd end points 63 by this second end points 62 to during four end points 64 by
Gradually away from this reference center line 13 inclination, the most i.e. complete cycle of operation once.
It is of course also possible to be separated into multiple cutting processing action, such as: this cutting edge 31 is by this first end
Being increasingly towards this reference center line 13 inclination when point 61 is to three end points 63, and this cutting edge 31 is by this
3rd end points 63 by this second end points 62 to four end points 64 time be gradually distance from this reference center line 13
Inclination;Finally, this cutting edge 31 by the 4th end points 64 to this first end points 61 time be increasingly towards this ginseng
Examine centrage 13 inclination, the most i.e. complete cycle of operation once.
By above-mentioned citing, can know clearly to be able to this ring week making this valve block 6 have continuous tilt
Face 65 (this first and second side face 651,652), as long as this cutting edge 31 is relative to this at least one lamellar body 1
This closing cutting path formed is identical, in other words, as long as this valve block 6 that can cut out has
This first and second side face 651,652, can have multiple different cutting mode.
To sum up, valve block out manufactured by valve block manufacture of the present invention, it has the ring that consecutive variations tilts
Side face, therefore when valve block is installed on fluid passage, it is radial dimension of that the circumferential surface of inclination provides multiple difference
Plane abuts against with fluid passage inwall, it is not necessary to uses rubber (plastic cement) material, can effectively intercept stream
Body.
Additionally, valve block manufacture of the present invention is under same cutting path, can not only effectively simplify cutting and make
Industry flow process, and produce valve block closely can be harmonious with fluid passage.Moreover it is possible to carry out most lamellar body simultaneously
Cutting so that production efficiency can significantly carry.
In sum, in the overall construction design of the present invention, practicality and benefit, strictly comply fully with product
In industry, development is required, and disclosed architecture invention is also to have unprecedented innovative structure, so its tool
Have novelty should without doubt, again the present invention can than the enhancement of known structure more effect, the most also have into
Step property.
Claims (10)
1. a valve block manufacture, it is characterised in that it comprises the following steps:
At least one lamellar body is provided, respectively this lamellar body have be positioned on thickness direction relative to one first side and one the
Two side faces;
This at least one lamellar body is fixed on a tool;
One is provided to have a cutting edge transverse to the first side of this at least one lamellar body;
Make this cutting edge close cutting path relative to this at least one lamellar body along one and cut this at least one lamellar body, should
Close relative one first end points that cutting path includes laying respectively in two vertical direction of this at least one lamellar body
And one second end points and one the 3rd relative end points and one the 4th end points;
Wherein, this cutting edge along this closing cutting path cutting respectively this lamellar body with formed lay respectively at this first and
The first side face that the one of the both sides of the second end points phase line tilts towards this first side and one towards this second
The second side face that side tilts.
2. valve block manufacture as claimed in claim 1, it is characterised in that first and second side face described
Change for continuous tilt, there is at described 3rd and the 4th end points the angle of inclination of maximum, and described the
One and second is perpendicular to described first side at end points.
3. valve block manufacture as claimed in claim 1, it is characterised in that it is relative that described tool is provided with two
The inclined side in face, and first and second side of described at least one lamellar body offsets with described two inclined side respectively consolidates
Being located at this tool, this tool is located at an axial line as center of rotation on a board, and this first side tilts
Ground is staggered with described axial line, and described cutting edge cuts this at least one lamellar body along described closing cutting path.
4. valve block manufacture as claimed in claim 3, it is characterised in that described axial line is perpendicular to ground
Plane.
5. valve block manufacture as claimed in claim 3, it is characterised in that described axis parallel is in ground
Plane.
6. valve block manufacture as claimed in claim 1, it is characterised in that described at least one lamellar body is ellipse
Circular.
7. valve block manufacture as claimed in claim 1, it is characterised in that separately include at least and wear
Described tool and the fixation kit of described at least one lamellar body, this tool and this at least one lamellar body by described at least
One fixation kit closely combines.
8. valve block manufacture as claimed in claim 1, it is characterised in that described cutting edge is selected from a water
Cutter, a laser knife, a flame knife, a turning cutter, a milling cutter or a grinding knife.
9. valve block manufacture as claimed in claim 1, it is characterised in that the definition of described each lamellar body has
Being perpendicular to the reference center line of described first side, described cutting edge hangs down when being positioned at first and second end points described
Straight in this first side;This cutting edge by described 4th end points by this first end points to described three end points time
It is increasingly towards described reference center line inclination;This cutting edge by the 3rd end points by this second end points to this
This reference center line inclination it is gradually distance from during four end points.
10. valve block manufacture as claimed in claim 1, it is characterised in that the definition of described each lamellar body has
The one reference center line being perpendicular to described first side, when described cutting edge is positioned at first and second end points described
It is perpendicular to this first side;It is increasingly towards described ginseng when this cutting edge is by this first end points to described three end points
Examine centrage inclination;This cutting edge by the 3rd end points by this second end points to described four end points time gradually
Away from this reference center line inclination;It is increasingly towards this ginseng when this cutting edge is by the 4th end points to this first end points
Examine centrage inclination.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510257336.0A CN106239256A (en) | 2015-05-20 | 2015-05-20 | Valve block manufacture |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510257336.0A CN106239256A (en) | 2015-05-20 | 2015-05-20 | Valve block manufacture |
Publications (1)
Publication Number | Publication Date |
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CN106239256A true CN106239256A (en) | 2016-12-21 |
Family
ID=57626293
Family Applications (1)
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CN201510257336.0A Pending CN106239256A (en) | 2015-05-20 | 2015-05-20 | Valve block manufacture |
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Citations (7)
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---|---|---|---|---|
US20020056823A1 (en) * | 2000-11-14 | 2002-05-16 | Hideharu Hironaka | Solenoid valve |
CN2517932Y (en) * | 2002-01-11 | 2002-10-23 | 林润泉 | One-way steering exhauster for fume duct of house |
CN2801957Y (en) * | 2005-07-05 | 2006-08-02 | 耿利江 | Air exhaust duct with valve for preventing smoke-back |
CN201677039U (en) * | 2010-06-01 | 2010-12-22 | 万泰机电工业(昆山)有限公司 | Special tool for turning throttle valve |
CN202220888U (en) * | 2011-09-05 | 2012-05-16 | 安徽荣达阀门有限公司 | Butterfly check valve |
CN102574221A (en) * | 2010-04-19 | 2012-07-11 | 山崎马扎克公司 | Cutting method and cutting device |
CN103241460A (en) * | 2013-05-20 | 2013-08-14 | 贵州省产品质量监督检验院 | Container for vacuum drying |
-
2015
- 2015-05-20 CN CN201510257336.0A patent/CN106239256A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20020056823A1 (en) * | 2000-11-14 | 2002-05-16 | Hideharu Hironaka | Solenoid valve |
CN2517932Y (en) * | 2002-01-11 | 2002-10-23 | 林润泉 | One-way steering exhauster for fume duct of house |
CN2801957Y (en) * | 2005-07-05 | 2006-08-02 | 耿利江 | Air exhaust duct with valve for preventing smoke-back |
CN102574221A (en) * | 2010-04-19 | 2012-07-11 | 山崎马扎克公司 | Cutting method and cutting device |
CN201677039U (en) * | 2010-06-01 | 2010-12-22 | 万泰机电工业(昆山)有限公司 | Special tool for turning throttle valve |
CN202220888U (en) * | 2011-09-05 | 2012-05-16 | 安徽荣达阀门有限公司 | Butterfly check valve |
CN103241460A (en) * | 2013-05-20 | 2013-08-14 | 贵州省产品质量监督检验院 | Container for vacuum drying |
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Application publication date: 20161221 |