CN109838431A - Connector, connection component and vulcanizing machine - Google Patents
Connector, connection component and vulcanizing machine Download PDFInfo
- Publication number
- CN109838431A CN109838431A CN201711223651.7A CN201711223651A CN109838431A CN 109838431 A CN109838431 A CN 109838431A CN 201711223651 A CN201711223651 A CN 201711223651A CN 109838431 A CN109838431 A CN 109838431A
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- Prior art keywords
- connector
- hole
- end wall
- connection component
- internal cavities
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Abstract
The present invention relates to connector, connection component and vulcanizing machines.The connector includes circumferential side wall, and the circumferential side wall defines the internal cavities of the connector;First end wall, is provided with first through hole in first end wall, and the internal cavities and the external of the connector are connected to by the first through hole;Second end wall, is provided with the second through-hole in second end wall, and the internal cavities and the external of the connector are connected to by second through-hole, wherein the first through hole and second through-hole are non-circular shape.
Description
Technical field
The present invention relates to MACHINERY JOINT fields;Specifically, the present invention relates to connectors, and further to connection
Component and vulcanizing machine.
Background technique
Common part is tightly connected, such as is bolted, flanged joint etc., needs longer transition to guarantee to match
It closes, longer longitudinal space can be occupied by causing to be tightly connected this body structure, be unfavorable for the densification of structure;In addition, being needed when disassembly
Biggish operating space is wanted, can not achieve the assembly and disassembly in small space.
During other parts are tightly connected, often fitted position requirement is bigger for quick detachable part sealed connection, and structure
It is more complicated, and have the risk for being easy to deviate from.
Summary of the invention
An aspect of of the present present invention is designed to provide a kind of improved connector.
Another aspect of the present invention is designed to provide a kind of improved connection component.
Another aspect of the invention is designed to provide a kind of improved vulcanizing machine.
In order to realize that foregoing purpose, the first aspect of the present invention provide a kind of connector, wherein the connector tool
Have:
Circumferential side wall, the circumferential side wall define the internal cavities of the connector;
First end wall, is provided with first through hole in first end wall, and the first through hole is by the internal cavities and the company
The external connection of fitting;
Second end wall, is provided with the second through-hole in second end wall, and second through-hole is by the internal cavities and the company
The external connection of fitting, wherein
The first through hole and second through-hole are non-circular shape.
Optionally, in foregoing connector, the first through hole is including the first circular hole and in first circle
The first guiding groove on the periphery in hole, and/or, second through-hole includes the second circular hole and on the periphery of first circular hole
On the second guiding groove.
Optionally, in foregoing connector, the edge on the side in the internal cavities of first end wall
It is circumferential away from being provided with the first protrusion at a certain distance from first guiding groove, and/or, second end wall described internal empty
Circumferentially away from being provided with the second protrusion at a certain distance from second guiding groove on intracavitary side.
Optionally, in foregoing connector, the quantity of first guiding groove is more than one and along described
The circumferential direction of one circular hole is uniformly distributed, and/or, the quantity of second guiding groove is more than one and along the circumferential equal of second circular hole
Cloth.
Optionally, in foregoing connector, first end wall has the circumference for being formed in first circular hole
The circumferential spacing breach of the first of place, and/or, second end wall has the second week being formed at the circumference of second circular hole
To spacing breach.
Optionally, in foregoing connector, damper portion is formed on the periphery of the connector.
In order to realize that foregoing purpose, the second aspect of the present invention provide a kind of connection component, wherein the connection component
Including as described in any one of aforementioned first aspect connector and first in connecting component with the first through hole shape
Consistent first connector and second in connecting component with consistent second connector of second shape of through holes, described
One connector is adapted to pass through the first through hole, and into the internal cavities, second connector to be adapted to pass through described second logical
Hole enters the internal cavities, and after the connector rotates by a certain angle, in the internal cavities, first connection
Head is bonded to first end wall, second connector is bonded to second end wall.
Optionally, in foregoing connection component, in the state of the engagement, the first of first connector
Open end is hermetically put in the second open end of second connector.
Optionally, in foregoing connection component, first connector includes having first open end
First cylindrical portion and the first hangers being arranged in first cylindrical portion, and/or, it includes described second that the second connector, which has,
Second cylindrical portion of open end and the second hangers being arranged in second cylindrical portion.
Optionally, in foregoing connection component, the first circumferential limit is formed on the periphery of first cylindrical portion
Position protrusion, and/or, the second circumferential retention bead is formed on the periphery of second cylindrical portion.
In order to realize that foregoing purpose, the third aspect of the present invention provide a kind of vulcanizing machine, wherein set in the vulcanizing machine
It is equipped with the connection component such as any one of aforementioned second aspect.
Optionally, in foregoing vulcanizing machine, the vulcanizing machine has valve body, tyre repairing fluid connecting tube and air compression
Machine connecting tube, the tyre repairing fluid connecting tube and the air compressor connecting tube pass through the valve body respectively and are connected to the tire patching
The ejection nozzle of machine, and
The plug that can be slid back and forth is provided in the valve body;
Connected between the tyre repairing fluid connecting tube and the valve body by the connection component, the tyre repairing fluid connecting tube with it is described
Valve body respectively as described first to connecting component and described second to connecting component.
Detailed description of the invention
Referring to attached drawing, the disclosure be will be apparent.It is to be appreciated that the mesh that these attached drawings are merely illustrative
, and be not intended to limit the scope of protection of the present invention.In figure:
Fig. 1 is the schematic perspective view of connector according to embodiment of the present invention;
Fig. 2 and Fig. 3 is the schematic end at the connector both ends in Fig. 1 respectively;
Fig. 4 is the schematic side elevation of the connector in Fig. 1;
Fig. 5 is the cross-sectional view that A-A takes along Fig. 2;
Fig. 6 is the cross-sectional view that B-B takes along Fig. 3;
Fig. 7 is the cross-sectional view that C-C takes along Fig. 4;
Fig. 8 is the schematic diagram of connection component according to embodiment of the present invention, and wherein connection component is in dismantling state;
Fig. 9 is the schematic diagram of the connection component in Fig. 8, and wherein connection component is in connection status;
Figure 10 is the cross-sectional view of the connection component in Fig. 9 in connection status;
Figure 11 is the schematic diagram of a connector in the connection component in Fig. 8;And
Figure 12 is the schematic diagram of the output mechanism of vulcanizing machine according to embodiment of the present invention.
Specific embodiment
Explain a specific embodiment of the invention in detail with reference to the accompanying drawings.In the drawings, identical appended drawing reference
Indicate identical or corresponding technical characteristic.
Fig. 1 is the schematic perspective view of connector according to embodiment of the present invention.Fig. 2 and Fig. 3 is Fig. 1 respectively
In connector both ends schematic end.Fig. 4 is the schematic side elevation of the connector in Fig. 1.
It can be seen from the figure that the connector 10 can have circumferential side wall 11, the first end wall 12 and the second end wall 13.Such as
In embodiment shown in figure, the first end wall 12 and the second end wall 13 can be separately positioned on two ends of circumferential side wall 11
At position.First end wall 12 and the second end wall 13 are separately connected or are fixed to the circumferential side wall 11, such as are assembled in one with it
It rises, or is integrally formed.It will be seen that the connector 10 can be made of material appropriate such as plastics or metal, according to
Particular situation has thickness appropriate, rigidity, to meet the requirement of attachment force.
Circumferential hole (or hollow-out parts) 11a in figure in circumferential side wall 11 is for die sinking demand or work easy to process and increased
Skill hole, it may also be used for cutter is put in into internal cavities and is cut etc., procedure of processing is simplified, can advantageously reduce and be processed into
This.It is needed that technique hole shape appropriate can be used according to specific processing, the fabrication hole itself has no effect on connector 10
It uses.It will be seen that the fabrication hole can also be saved in the case where technological level allows.
It can be seen from the figure that circumferential side wall 11 defines the internal cavities 14 of connector 10.It is appreciated that optional
In embodiment, for the ease of processing, convenient for operation etc., the inside and outside circumferential surface of circumferential side wall 11 can be limited to round cylinder.?
In other optional embodiments, according to the specific needs such as such as space, the inside and outside circumferential surface of circumferential side wall 11 can also be designed to
Other shapes of cylinder;Or it is not limited to cylinder design, it can also be designed to the conical surface or irregular shape surface etc..
In the shown embodiment, it is distributed on the outer peripheral surface of connector along the axially extending, circumferentially of connector 10
The raised line 15 of distribution is suitable for manual operation or tool operation and provides certain damping when screwing connector 10, increases resistance, keeps away
Exempt from skidding when operation, so that operation is relatively reliable, enhancing user experience.About the specific connection type of connector 10, operation side
Formula can be described in detail below in association with Fig. 8-10.
In alternative embodiments, alternatively, other types of resistance can also be formed on the outer peripheral surface of connector
Buddhist nun portion substitutes raised line 15 with these other types of damper portions.For example, these raised lines can be designed to it is curvilinear, very
To being changed to indentation, groove, pattern concave or convex etc..For another example these other types of damper portions can be distributed across connector
Outer peripheral surface on dispersion dotted protrusion or recess portion.It in other embodiment, can also be by increasing connector
The surface roughness of outer peripheral surface is realized.
As shown in the figure, which can have the first end wall 12.It is logical that first can be provided in first end wall 12
Internal cavities 14 are connected to by hole 16, first through hole 16 with the external of connector 10.According to embodiment illustrated, the first through hole
16 may include the first circular hole 16a and the first guiding groove 16b on the periphery of the first circular hole 16a.
In alternative embodiments, the quantity of the first guiding groove 16b can be set into more than one and round along first
The circumferential direction of hole 16a is uniformly distributed.Two the first guiding groove 16b are shown in the example presented in the figure, and two the first guiding groove 16b are along
The diameter of one circular hole 16a is opposed to be distributed.It is appreciated that in other embodiments, if there are three, first guidance such as four
Slot 16a then can be circumferentially uniformly distributed every 120 degree, 90 degree etc..Distribution heterogeneous is also allowed.
In the shown embodiment, the first end wall 12 can also have first at the circumference for being formed in the first circular hole 16a
Circumferential spacing breach 19a.It will be seen that the first circumferential spacing breach 19a can also be not provided with according to specific embodiment,
Or the greater number of first circumferential spacing breach 19a also can be set.Hereinafter progress can be acted on it in conjunction with Fig. 8-10
It illustrates.
As shown in Figure 2, which can also have the second end wall 13.Second can be provided in second end wall 13
Internal cavities 14 are connected to by through-hole 17, the second through-hole 17 with the external of connector 10.According to embodiment illustrated, the second through-hole
17 include the second circular hole 17a and the second guiding groove 17b on the periphery of the first circular hole 17a.
In alternative embodiments, the quantity of the second guiding groove 17b can be set into more than one and round along second
The circumferential direction of hole 17a is uniformly distributed.Two the second guiding groove 17b are shown in the example presented in the figure, and two the second guiding groove 17b are along
The diameter of two circular hole 17b is opposed to be distributed.Can understand below, in other embodiments, if there are three, four etc. second draw
Guide groove 17b, then can be circumferentially every 120 degree, 90 degree of equal distributions.Distribution heterogeneous is also allowed.
It will be seen that the shape of the second through-hole 17 on the second end wall 13, size, distribution angle position etc. not necessarily with
The shape of first through hole 16 on first end wall 12, size, the angle position etc. of distribution are identical.
In the shown embodiment, the second end wall 13 can also have second at the circumference for being formed in the second circular hole 17a
Circumferential spacing breach 19b.It will be seen that the second circumferential spacing breach 19b can also be not provided with according to specific embodiment,
Or the greater number of second circumferential spacing breach 19b also can be set.The combination and work of second circumferential spacing breach 19b
Principle is similar to the first circumferential spacing breach 19a.
It will be seen that in alternative embodiments, first through hole 16 and the second through-hole 17 are not limited to such as institute in figure
The concrete shape shown.As long as can realize axial connection function for example, first through hole 16 and the second through-hole 17 are non-circular shape
Energy.
Fig. 5 is the cross-sectional view that A-A takes along Fig. 2.Fig. 6 is the cross-sectional view that B-B takes along Fig. 3.Fig. 7 is along Fig. 4
The cross-sectional view that C-C takes.
It can be seen that in this embodiment in conjunction with these cross-sectional views, one in internal cavities 14 of the first end wall 12
Circumferentially away from the first protrusion 18 can be set at a certain distance from the first guiding groove 16b on side.
Similarly, it will be understood that in alternative embodiments, the second end wall 13 on the side in internal cavities 14
Circumferentially away from the second protrusion (not shown) also can be set at a certain distance from the second guiding groove 17b.
It can also be seen that in this embodiment, the thickness of the first end wall 12 and the second end wall 13 is simultaneously from Fig. 5 and Fig. 6
It is not identical.It is appreciated that in alternative embodiments, can consider to be such as, but not limited to attachment force according to specific needs
The various situations such as degree, manufacture material, installation space design the first end wall 12, the second end wall 13 and the respective thickness of circumferential side wall 11
Degree.
One aspect of the present invention additionally provides the connection component including the connector in aforementioned any embodiment.It is this
Connection component can also include first on connecting component (not shown) with consistent first connector of first through hole shape and
Second on connecting component (not shown) with consistent second connector of the second shape of through holes.The shape of first through hole and the second through-hole
Shape is suitable for non-circular shape, thus the first connector may be adapted to enter internal cavities, the second connector across first through hole
It may be adapted to enter internal cavities across the second through-hole, and engaged respectively in internal cavities after connector rotates by a certain angle
To the first end wall, the second end wall, to realize that first connects to connecting component and second to the reliable axial direction between connecting component
It connects.
In conjunction with connection component of the Fig. 8 into Figure 10 example will become apparent to this aspect connection component structure, original
Reason and advantage.
Fig. 8 is the schematic diagram of connection component according to embodiment of the present invention, and wherein connection component is in dismantling
State.Fig. 9 is the schematic diagram of the connection component in Fig. 8, and wherein connection component is in connection status.Figure 10 is in connection status
Fig. 9 in connection component cross-sectional view.
As illustrated, connection component 100 may include the connector 10 such as aforementioned any embodiment.In addition,
Connection component 100 further includes first to consistent with 16 shape of first through hole of connector 10 on connecting component (not entirely shown)
First connector 20 and second on connecting component (not entirely shown) with consistent second connector of 17 shape of the second through-hole
30。
More specifically, what is illustrated in Fig. 8 into Figure 10 is the connection component in a kind of vulcanizing machine, wherein first wait connect
Component is that the tyre repairing fluid connecting tube 210(in vulcanizing machine is shown in Figure 12), and second is the valve body 220 in vulcanizing machine to connecting component
(see Figure 12).
It can be seen from the figure that the first connector 20 may include first with the first open end in the embodiment
Cylindrical portion 21 and the first hangers 22 being arranged in the first cylindrical portion;Second connector 30 can have including the second open end
Second cylindrical portion 31 and the second hangers 32 being arranged in the second cylindrical portion;It could be formed on the periphery of first cylindrical portion 21
One circumferential retention bead 23;It could be formed with the second circumferential retention bead 33 on the periphery of the second cylindrical portion 31.
The first cylindrical portion 21 of the first connector 20 and the shape point of the first hangers 22 are appreciated that in conjunction with Fig. 8 to Figure 10
It is not consistent with the first circular hole 16a of connector 10 and the first guiding groove 16b shape.When needing to connect, the first cylinder can be made
Portion 21 and the first hangers 22 pass through the first circular hole 16a and the first guiding groove 16b, the after connector 10 rotates by a certain angle later
One hangers 22 can be bonded on the inner surface of the first end wall 12 in internal cavities, realize the first connector 20 with connect
Axial connection between part 10.In the example presented in the figure, connector 10 is rotated by 90 ° can be realized and be reliably connected.
Similarly, the second cylindrical portion 31 of the second connector 30 and the shape of the second hangers 32 respectively with connector 10
Two circular hole 17a and the second guiding groove 17b shape are consistent.When needing to connect, the second cylindrical portion 31 and the second hangers 32 can be made
Across the second circular hole 17a and the second guiding groove 17b, rear connectors 10 rotate by a certain angle after the second hangers 32 can including
It is bonded in portion's cavity on the inner surface of the second end wall 13, realizes the connection between the second connector 30 and connector 10.
It will be seen that in actual operation, can be and the first connector 20 and the second connector 30 are first protruded into connector
In 10, then connector 10 is rotated by a certain angle again to realize connection.
The first protrusion 18 of 12 inside of the first end wall is described above in conjunction with Fig. 5 and Fig. 7, and is referred in the second end wall 13
Second protrusion of side.When the first hangers 22 and the second hangers 32 are bonded in connector 10, first protrusion and the second protrusion
Connector can be limited relative to the first connector and the second connector and engaging respectively with the first hangers and the second hangers
Circumferentially engage position, allow them to effectively engage with the first end wall of connector 10 and the second end wall.Specifically, first
Hangers and the second hangers can stop first protrusion and the second protrusion when connector goes to circumferential position appropriate, thus
Further relative rotation of the connector relative to the first connector and/or the second connector is limited, optimal company is held it in
Connect position.No matter being appreciated that the quantity of the first hangers and the second hangers, can only be arranged first protrusion and/
Or the second protrusion of only one, it equally can be realized good locating effect.
As shown in Figure 10, due in the embodiment first to connecting component be vulcanizing machine in tyre repairing fluid connecting tube,
And second is the valve body in vulcanizing machine to connecting component, so, the first connector 20 can have the first open end, and second
Connector 30 can have the second open end.Specifically, in this embodiment, the first open end is located at the first cylindrical portion 21
End, the second open end are located at the end of the second cylindrical portion 31.In this way, in the first connector 20, the second connector 30 and connecting
In the state that part 10 engages, the first open end of the first connector can hermetically put in the second opening of second connector
In end, thus, the first open end and the second open end can connect to form fluid passage.
Figure 11 is the schematic diagram of a connector in the connection component in Fig. 8.It can be seen from figure 11 that in the first connection
A circle groove 24 has can be set in first 20 the first cylindrical portion on the excircle of proximal end, can be used for embedding sealing wherein
Circle 40(is shown in Figure 10), it realizes the Fluid Sealing of itself and the inner periphery of the second connector 30, prevents dielectric leakage, guarantees coupling part
Reliable operation.
The first circumferential limit is respectively provided in Fig. 8 and Figure 11 on the peripheral side of the first connector 20 and the second connector 30
Position protrusion 23 and the second circumferential retention bead 33.When the first connector 20 is connected to connector 10, first the first connector
20 put in the first through hole 16 of connector 10, then along the direction rotary connector 10 of setting, when engaging in place, first week
In the first circumferential spacing breach 19a in the first circular hole 16a that the first end wall 12 can be slightly connected to retention bead 23,
Generate instruction of the feel as aligned in position in place.It is appreciated that similar design is equally applicable to the second connector 33
The second circumferential spacing breach 19b in first circular hole 17a of the second circumferential retention bead and the second end wall 12.First circumferential limit
Protrusion, the quantity of the second circumferential retention bead be suitable for the circumferential spacing breach of tool first respectively, the quantity of the second circumferential spacing breach,
Circumferentially distributed position is corresponding.
In this respect it is to be noted that when the first through hole of the first end wall and/or the second through-hole of the second end wall are respectively it
When its non-circular shape, such as ellipse, polygon, irregular shape etc., the first connector and the second connector can also use
Corresponding shape to allow the first connector and the second connector to pass through first through hole and the second through-hole, and is revolved in connector
Turn to form reliable axial connect with engaging on the inside of the first end wall and the second end wall by it after certain angle.
It is appreciated that in alternative embodiments, when connection component is not intended in vulcanizing machine, can equally set
The individual features such as corresponding first open end, the second open end are equipped with, reliably trandfer fluid is suitable for.
Another aspect provides a kind of vulcanizing machines.It can be set in the vulcanizing machine and implement just like any one of aforementioned
The connection component of mode.
For example, vulcanizing machine can have valve body, tyre repairing fluid connecting tube and air compression in an optional embodiment
Machine connecting tube, tyre repairing fluid connecting tube and air compressor connecting tube pass through the ejection nozzle that valve body can be connected to vulcanizing machine respectively,
And it can be connected by connection component between tyre repairing fluid connecting tube and valve body.At this point, tyre repairing fluid connecting tube can divide with valve body
Not Zuo Wei first to connecting component and second to connecting component.As can be seen that being provided that a kind of dual-purpose tire repair unit in this way, pass through
Ejection nozzle can either be discharged tyre repairing fluid and carry out tire patching, and air can be discharged and be inflated to tire.
Figure 12 shows the schematic diagram of the output mechanism of the vulcanizing machine of the embodiment.
According to the illustration in figure, in the output mechanism 200, one end of tyre repairing fluid connecting tube 210 and air compressor connect
One end of adapter tube 230 is respectively connected to valve body 220.The other end of tyre repairing fluid connecting tube 210 can connect to tire patching liquid container (not
Diagram), the other end of air compressor connecting tube 230 can connect to air compressor (not shown).It can be set in valve body 220
It is equipped with plug 260, plug 260 can slide back and forth in valve body 220, to realize valve body connection in tire patching liquid container and air
Switching between compressor.When pressure at air compressor connecting tube 230 is greater than the pressure at tyre repairing fluid connecting tube 210,
Plug 260 moves on at tyre repairing fluid connecting tube 210, and ejection nozzle 250 is suitable for tyre inflating;At air compressor connecting tube 230
Pressure be less than tyre repairing fluid connecting tube 210 at pressure when, plug 260 moves on at air compressor connecting tube 230, ejection nozzle
250 are suitable for discharge tyre repairing fluid, carry out tire patching operation.
In Figure 12, the aforementioned reality it is advantageous to use of the invention is connected between tyre repairing fluid connecting tube 210 and valve body 220
The connection component in mode is applied, connector 240 is connected between tyre repairing fluid connecting tube 210 and valve body 220.Tyre repairing fluid is connected
This easy structure design of the sealing assembly and disassembly of pipe and valve body, for assemble and disassemble in the smaller space of vulcanizing machine this kind of product
It is convenient to provide.
Although it is appreciated that describe the application of connector and connection component in conjunction with the example of vulcanizing machine in this specification,
But about connector and connection component required by the application and be not limited to the use of in vulcanizing machine, but it is suitable for any need
In the equipment axially to connect.
Technical scope of the invention is not limited solely to the content in above description, and those skilled in the art can not take off
Under the premise of from technical thought of the invention, many variations and modifications are carried out to above embodiment, and these deformations and modification are equal
It should belong in the scope of the present invention.
Claims (12)
1. a kind of connector, which is characterized in that the connector includes
Circumferential side wall, the circumferential side wall define the internal cavities of the connector;
First end wall, is provided with first through hole in first end wall, and the first through hole is by the internal cavities and the company
The external connection of fitting;
Second end wall, is provided with the second through-hole in second end wall, and second through-hole is by the internal cavities and the company
The external connection of fitting, wherein
The first through hole and second through-hole are non-circular shape.
2. connector as described in claim 1, wherein the first through hole is including the first circular hole and in first circular hole
Periphery on the first guiding groove, and/or, second through-hole includes the second circular hole and on the periphery of first circular hole
The second guiding groove.
3. connector as claimed in claim 2, wherein first end wall on the side in the internal cavities along week
Be provided with the first protrusion at a certain distance from away from first guiding groove, and/or, second end wall in the internal cavities
Circumferentially away from being provided with the second protrusion at a certain distance from second guiding groove on interior side.
4. connector as claimed in claim 2 or claim 3, wherein the quantity of first guiding groove is more than one and along described
The circumferential direction of first circular hole is uniformly distributed, and/or, the quantity of second guiding groove is more than one and circumferential direction along second circular hole
It is uniformly distributed.
5. connector as claimed in claim 2, wherein first end wall, which has, to be formed at the circumference of first circular hole
The first circumferential spacing breach, and/or, second end wall has be formed at the circumference of second circular hole second circumferential
Spacing breach.
6. connector as described in claim 1, wherein be formed with damper portion on the periphery of the connector.
7. a kind of connection component, which is characterized in that the connection component includes such as company described in any one of claims 1 to 6
Fitting and first in connecting component with consistent first connector of the first through hole shape and second to connecting component
Upper and consistent second connector of second shape of through holes, first connector are adapted to pass through the first through hole and enter institute
State internal cavities, second connector is adapted to pass through second through-hole into the internal cavities, and in the connector
After rotating by a certain angle, in the internal cavities, first connector is bonded to first end wall, second connection
Head is bonded to second end wall.
8. connection component as claimed in claim 7, wherein in the state of the engagement, the first of first connector
Open end is hermetically put in the second open end of second connector.
9. connection component as claimed in claim 8, wherein first connector includes with first open end
One cylindrical portion and the first hangers being arranged in first cylindrical portion, and/or, the second connector has to be opened including described second
Second cylindrical portion at mouth end and the second hangers being arranged in second cylindrical portion.
10. connection component as claimed in claim 9, wherein be formed with the first circumferential limit on the periphery of first cylindrical portion
Position protrusion, and/or, the second circumferential retention bead is formed on the periphery of second cylindrical portion.
11. a kind of vulcanizing machine, which is characterized in that be arranged in the vulcanizing machine just like described in any one of claim 7 to 10
Connection component.
12. vulcanizing machine as claimed in claim 11, wherein the vulcanizing machine has valve body, tyre repairing fluid connecting tube and air pressure
Contracting machine connecting tube, the tyre repairing fluid connecting tube and the air compressor connecting tube are connected to the benefit by the valve body respectively
The ejection nozzle of tire machine, and
The plug that can be slid back and forth is provided in the valve body;
Connected between the tyre repairing fluid connecting tube and the valve body by the connection component, the tyre repairing fluid connecting tube with it is described
Valve body respectively as described first to connecting component and described second to connecting component.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711223651.7A CN109838431A (en) | 2017-11-29 | 2017-11-29 | Connector, connection component and vulcanizing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711223651.7A CN109838431A (en) | 2017-11-29 | 2017-11-29 | Connector, connection component and vulcanizing machine |
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Publication Number | Publication Date |
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CN109838431A true CN109838431A (en) | 2019-06-04 |
Family
ID=66881837
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Application Number | Title | Priority Date | Filing Date |
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CN201711223651.7A Pending CN109838431A (en) | 2017-11-29 | 2017-11-29 | Connector, connection component and vulcanizing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021136115A1 (en) * | 2020-01-03 | 2021-07-08 | 黄骅市康田医疗器械有限公司 | Material cylinder connection chuck for mixer, and mixer |
-
2017
- 2017-11-29 CN CN201711223651.7A patent/CN109838431A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021136115A1 (en) * | 2020-01-03 | 2021-07-08 | 黄骅市康田医疗器械有限公司 | Material cylinder connection chuck for mixer, and mixer |
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