CN206374158U - A kind of injection machine clasp mould mechanism - Google Patents
A kind of injection machine clasp mould mechanism Download PDFInfo
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- CN206374158U CN206374158U CN201621296433.7U CN201621296433U CN206374158U CN 206374158 U CN206374158 U CN 206374158U CN 201621296433 U CN201621296433 U CN 201621296433U CN 206374158 U CN206374158 U CN 206374158U
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- moving platen
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- pattern plate
- lock shaft
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Abstract
A kind of injection machine clasp mould mechanism; including the front template, moving platen and rear pattern plate being disposed in parallel on pull bar; moving platen can be moved along pull bar; the afterbody of rear pattern plate is provided with Mode-locking oil cylinder component; transmission component couples with the push rod of Mode-locking oil cylinder component and under push rod driving moving platen can be driven to be moved along pull bar; so as to realize die sinking or matched moulds, it is characterised in that:Transmission component includes:The thrust bearing between rear pattern plate and moving platen is arranged on, the push rod of Mode-locking oil cylinder component is fixedly connected with thrust bearing;Thrust bearing is connected with intermediate connecting rod, and intermediate connecting rod is connected with back link, and back link is also connected with front rod and rear pattern plate simultaneously, front rod connection moving platen, and antifriction metal (AFM) set is all arranged with the outside of the first, second, third, fourth, the 5th lock shaft;In rotary part rotation process, key wear antifriction metal (AFM) set slows down other connection members and moving platen, the abrasion of the connecting portion of rear pattern plate, and antifriction metal (AFM) set is dismantled and changed during maintenance, convenient and cost-effective.
Description
Technical field
The utility model belongs to injection machine mechanical field, specifically a kind of injection machine clasp mould mechanism.
Background technology
Manufacturing industry is molded in material, the injection machine of three-plate type is generally comprised on front template, moving platen and rear pattern plate, rear pattern plate
Folding mould oil cylinder is installed, folding mould oil cylinder drives moving platen folding and locked mode, described transmission Mould locking machine through being driven clamping mechanism
Structure is generally divided into crank connecting rod formula and direct press type, and the injection machine of crank connecting rod formula using crank connecting rod mechanism due to causing it to take
Small volume, open the advantages of closure pressing speed is fast and obtain a wide range of applications.
Chinese patent Authorization Notice No. discloses a kind of pair of oil cylinder built-in type injection for CN202318833U patent document
Machine clamping mechanism, including pull bar, moving platen, solid plate (i.e. front template), tailgate (i.e. rear pattern plate) and thrust bearing, tailgate are fixed on
Pull bar left end, solid plate, which is fixed on the pull bar on the left of the right-hand member of pull bar, solid plate, is provided with moving platen, thrust bearing rear and front end
One oil cylinder is respectively installed, the cylinder tube of oil cylinder is fixed on thrust bearing by oil cylinder front cover, the piston rod of oil cylinder passes through tailgate
And the left end of tailgate is fixed on by flange, the internal symmetry of tailgate is provided with two thrust bearing guide rods, thrust bearing guide rod
Through thrust bearing, the upper and lower ends of thrust bearing are respectively connected with two thrust bearing connecting rods, one end and the thrust bearing phase of thrust bearing connecting rod
Even, the other end is connected with the middle part of toggle, and the left end of toggle is connected with tailgate, and right-hand member is connected with two crank connecting rods, and toggle connects
One end of bar is connected with toggle, and the other end is connected with moving platen, and the connecting rod and tailgate and moving platen of this kind of clamping mechanism are all straight
Connect what is be hinged, during die sinking and matched moulds, rotary part frictional force is big, meeting heavy wear connecting rod so that its easy fracture is caused
Potential safety hazard and influence product quality, also can heavy wear tailgate and moving platen, and change tailgate and moving platen, not only change not
It is convenient, and considerably increase cost.
The content of the invention
Technical problem to be solved in the utility model is that there is provided a kind of connection not easy to wear for the present situation of prior art
Connecting portion on part and the template being connected with connection member, and for ease of maintenaince maintain a kind of injection machine folding of connection member
Mold mechanism.
The utility model solve the technical scheme that is used of above-mentioned technical problem for:A kind of injection machine clasp mould mechanism, bag
Front template, moving platen and rear pattern plate are included, front template and rear pattern plate are fixedly installed on pull bar, and moving platen is then movably arranged on pull bar
On, and moving platen, positioned between front template and rear pattern plate, the afterbody of the rear pattern plate is provided with Mode-locking oil cylinder component, the moving platen
Coupled by transmission component with rear pattern plate, transmission component couples with the push rod of Mode-locking oil cylinder component and can driven under push rod driving
Moving platen is moved along pull bar, so as to realize die sinking or the matched moulds of front template and moving platen, it is characterised in that:The transmission component bag
Include:
Thrust bearing, is arranged between rear pattern plate and moving platen, and the push rod of Mode-locking oil cylinder component is fixedly connected with thrust bearing;
Intermediate connecting rod, the first end of intermediate connecting rod is rotated with thrust bearing by the first lock shaft to be connected;
Back link, the second end of intermediate connecting rod is rotated by the middle part of the second lock shaft and back link and connected, and the of back link
One end is rotated with rear pattern plate by the 3rd lock shaft and is connected;
Front rod, the first end of front rod is rotated by the second end of the 4th lock shaft and back link and connected, and the of front rod
Two ends are rotated with moving platen by the 5th lock shaft and are connected.
Described first, second, third, fourth, it is arranged with antifriction metal (AFM) set on the outside of the 5th lock shaft.
The symmetrical side of the thrust bearing, which is respectively arranged with a pair of engaging lugs being arranged in pairs, each pair engaging lug, to be provided with pair
The connecting shaft hole of title, the first end of intermediate connecting rod is arranged between a pair of engaging lugs, and the first end of intermediate connecting rod is provided with first
Intermediate shaft hole, the first lock shaft and the antifriction metal (AFM) set being enclosed on outside the first lock shaft run through connecting shaft hole and the centre for being arranged on engaging lug
In first intermediate shaft hole of connecting rod.
The both sides of the thrust bearing are symmetrically arranged with two thrust bearing guide rods, and the corresponding both sides of thrust bearing are respectively arranged with
First guide hole and the second guide hole, it is movable that the thrust bearing guide rod is each passed through the first guide hole, the second guide hole and the thrust bearing
It must connect so that the thrust bearing can be slided along thrust bearing guide rod, play a part of being oriented to thrust bearing.
Second end of the intermediate connecting rod is provided with the second intermediate shaft hole, and the middle part of back link is provided with connecting rod intermediate shaft hole, the
Two lock shafts and the antifriction metal (AFM) set being enclosed on outside the second lock shaft, which run through, to be arranged in the second intermediate shaft hole and connecting rod intermediate shaft hole.
The first end of back link is provided with back link front-axle hole, and the second end of back link is provided with axis hole after back link;Front rod
First end be provided with front rod front-axle hole, the second end of front rod is provided with axis hole after front rod;Rear pattern plate is provided with rear pattern plate
Linking arm, rear pattern plate linking arm is provided with rear pattern plate axis hole;It is provided with moving platen on moving platen linking arm, moving platen linking arm
Provided with moving platen axis hole;3rd lock shaft and the antifriction metal (AFM) set being enclosed on outside the 3rd lock shaft connect with after through being arranged on rear pattern plate axis hole
In bar front-axle hole;4th lock shaft and the antifriction metal (AFM) set being enclosed on outside the 4th lock shaft, which run through, is arranged on axis hole and front rod after back link
In front-axle hole;5th lock shaft and the antifriction metal (AFM) set being enclosed on outside the 5th lock shaft, which run through, is arranged on axis hole and dynamic model board shaft after front rod
In hole.
Further, the symmetrical side of the moving platen is provided with multigroup moving platen linking arm, and the middle part of the moving platen is provided with company
The connecting bridge of the multigroup moving platen linking arm of symmetrical side is connect, the setting of connecting bridge strengthens the intensity of moving platen linking arm, makes it not
Easy fracture.
It is preferred that, the back link is provided with N number of side by side, and N is the natural number more than or equal to 2, and the setting of multiple rows of back link adds
The strong strength and stability of back link, makes back link not easy to break, and uniform force application makes to be difficult to rock in template motion process,
Help to obtain more preferable product quality.
It is preferred that, the front rod is integrated part, and the first end of front rod is provided with N number of neck, and front rod front-axle hole is opened
It is located at the side wall of N number of neck;Second end of N number of back link corresponds to be fastened in N number of neck respectively, and the Integral design of front rod adds
Its strong intensity, and uniform force application makes to be difficult to rock in template motion process.
Compared with prior art, the utility model has the advantage of:First, in the rotary part of clasp mould mechanism
2nd, antifriction metal (AFM) set is both provided with the outside of the three, the four, the 5th lock shafts, in rotary part rotation process, key wear is wear-resisting
Metallic sheath, slows down the abrasion of the connecting portion of other connection members, moving platen and rear pattern plate, it is necessary to repair or only needed to when maintaining
Dismounting and antifriction metal (AFM) set is changed, not only convenient disassembly and greatly save cost.
Brief description of the drawings
Fig. 1 is the mode-lock status schematic diagram of the utility model embodiment;
Fig. 2 is the schematic diagram in another direction of Fig. 1;
Fig. 3 is the die opening state schematic diagram of the utility model embodiment;
Fig. 4 is Fig. 1 cross section structure diagram;
Fig. 5 is the cross section structure diagram in Fig. 1 another direction;
Fig. 6 is Fig. 3 cross section structure diagram;
Fig. 7 is thrust bearing structural representation;
Fig. 8 is front rod structural representation;
Fig. 9 is back link structural representation;
Figure 10 is intermediate connecting rod structural representation;
Figure 11 is mould structure schematic diagram.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing embodiment.
As shown in Fig. 1~Figure 11, injection machine clasp mould mechanism, including front template 1, moving platen 2 and rear pattern plate 3, front template 1
It is fixedly installed on rear pattern plate 3 on pull bar 4, moving platen 2 is then movably arranged on pull bar 4, and moving platen 2 is located at the He of front template 1
Between rear pattern plate 3, the afterbody of rear pattern plate 3 is provided with Mode-locking oil cylinder component 5, and moving platen 2 is coupled by transmission component 6 with rear pattern plate 3,
Transmission component 6 couples with the push rod 51 of Mode-locking oil cylinder component 5 and under the driving of push rod 51 moving platen 2 can be driven to be moved along pull bar 4,
So as to realize die sinking or matched moulds of the front template 1 with moving platen 2, transmission component 6 includes:
Thrust bearing 7, is arranged between rear pattern plate 3 and moving platen 2, and the push rod 51 of Mode-locking oil cylinder component 5 passes through thrust bearing 7
It is fixedly connected after afterbody with thrust bearing 7;
Intermediate connecting rod 8, the first end of intermediate connecting rod 8 is rotated with thrust bearing 7 by the first lock shaft A to be connected;
Back link 9, the second end of intermediate connecting rod 8 is rotated by the second lock shaft B with the middle part of back link 9 to be connected, back link 9
First end rotated and be connected by the 3rd lock shaft C and rear pattern plate 3;
Front rod 10, the first end of front rod 10 is rotated by the 4th lock shaft D with the second end of back link 9 to be connected, preceding company
Second end of bar 10 is rotated with moving platen 2 by the 5th lock shaft E and is connected.
First, second, third, fourthth, antifriction metal (AFM) set 11 is both provided with the outside of the 5th lock shaft.
The symmetrical side of thrust bearing 7 is respectively arranged with a pair of engaging lugs 12 being arranged in pairs, each pair engaging lug 12 and is provided with
Symmetrical connecting shaft hole 12a, the first end of intermediate connecting rod 8 is arranged between a pair of engaging lugs 12, and the first end of intermediate connecting rod 8
Run through provided with the first intermediate shaft hole 8a, the first lock shaft A and the antifriction metal (AFM) being enclosed on outside the first lock shaft set and be arranged on engaging lug 12
In first intermediate shaft hole 8a of connecting shaft hole 12a and intermediate connecting rod 8.
The both sides of thrust bearing 7 are symmetrically arranged with two thrust bearing guide rods 13, and the corresponding both sides of thrust bearing 7 are respectively arranged with
First guide hole 7a and the second guide hole 7b, thrust bearing guide rod 13 is each passed through the first guide hole 7a, the second guide hole 7b and the thrust bearing 7
It is movable to connect so that the thrust bearing 7 can be slided along thrust bearing guide rod 13, play a part of being oriented to thrust bearing 7.
Second end of intermediate connecting rod 8 is provided with the second intermediate shaft hole 8b, and the middle part of back link 9 is provided with connecting rod intermediate shaft hole 9a,
Second lock shaft B and the antifriction metal (AFM) set being enclosed on outside the second lock shaft, which run through, is arranged on the second intermediate shaft hole 8b and connecting rod intermediate shaft hole 9a
It is interior.
The first end of back link 9 is provided with back link front-axle hole 9b, and the second end of back link 9 is provided with axis hole 9c after back link;
The first end of front rod 10 is provided with front rod front-axle hole 10a, and the second end of front rod 10 is provided with axis hole 10b after front rod;Rear mold
Rear pattern plate linking arm 31 is provided with plate 3, rear pattern plate linking arm 31 is provided with rear pattern plate axis hole 3a;It is provided with moving platen 2 dynamic
Template linking arm 21, moving platen linking arm 21 is provided with moving platen axis hole 2a;3rd lock shaft C and it is enclosed on wear-resisting outside the 3rd lock shaft
Metallic sheath, which runs through, to be arranged in rear pattern plate axis hole 3a and back link front-axle hole 10b;4th lock shaft D and it is enclosed on resistance to outside the 4th lock shaft
Mill metallic sheath, which runs through, to be arranged on after back link in axis hole 9c and front rod front-axle hole 10b;5th lock shaft E and it is enclosed on outside the 5th lock shaft
Antifriction metal (AFM) set through being arranged on after front rod in axis hole 10b and moving platen axis hole 2a.
The symmetrical side of moving platen 2 is provided with two groups of connected symmetrical dendrimer side provided with two groups of moving platen linking arms 21, the middle part of moving platen
The connecting bridge 22 of moving platen linking arm, the setting of connecting bridge 22 strengthens the intensity of moving platen linking arm 21, makes its not easy to break.
Back link 9 can be arranged side by side multiple, and provided with two back links 9 in this implementation, the setting of multiple rows of back link 9 is strengthened
The strength and stability of back link 9, makes back link 9 not easy to break, and uniform force application makes to be difficult to rock in template motion process, has
Help obtain more preferable product quality.
The front rod 10 of the present embodiment is preferably integral piece, and the first end of front rod 10 is provided with two neck 10c, front rod
Front-axle hole 10a is opened in neck 10c side wall;Second end of two back links 9 corresponds to be fastened in two neck 10c respectively,
Second end of front rod 10 has between two front rod linking arm 10d, front rod linking arm 10d insertion moving platens linking arm 21
In groove, it is connected with moving platen linking arm 21, the Integral design of front rod 10 strengthens its intensity, and uniform force application transports template
It is difficult to rock during dynamic, in addition, front rod 10 is also designed to the Split type structure similar to the present embodiment back link 9.
This kind of injection machine clasp mould mechanism, such as Fig. 3 is die opening state, during matched moulds, starts Mode-locking oil cylinder component 5, push rod 51
Promote forward, drive thrust bearing 7 to be moved forward together under the guiding of thrust bearing guide rod 13, thrust bearing 7 drives 8 turns of intermediate connecting rod
It is dynamic, drive back link 9, front rod 10 to rotate therewith, and promote moving platen 2 to be moved forward along pull bar 4, until matched moulds in place,
As shown in Figure 2.
Matched moulds state is illustrated in figure 2, during die sinking, starts Mode-locking oil cylinder component 5, push rod 51 is pulled back, band dynamicthrust
Seat 7 is moved rearwards by under the guiding of thrust bearing guide rod 13 together, and thrust bearing 7 drives intermediate connecting rod 8 to rotate, and back link is driven therewith
9th, front rod 10 is rotated, and pulls moving platen 2 to be moved rearwards by along pull bar, until molding in place, as shown in Figure 3.
During folding mould, because rotary part is designed with antifriction metal (AFM) set 11, the key wear in rotation process
Antifriction metal (AFM) set 11, slows down the abrasion to transmission component 6 and moving platen 2, rear pattern plate 3 and the connecting portion of transmission component 6, changes
Not only cost is high for template and transmission component, and replacing is more wasted time and energy, and this kind is designed, it is necessary to when maintaining, it is only necessary to torn open
The situation that safely and steadily runs of mechanism can just be maintained for a long time by unloading antifriction metal (AFM) set 11, can be cost-effective and convenient and swift.
Claims (8)
1. a kind of injection machine clasp mould mechanism, including front template (1), moving platen (2) and rear pattern plate (3), front template (1) and rear mold
Plate (3) is fixedly installed on pull bar (4), and moving platen (2) is then movably arranged on pull bar (4), and moving platen (2) is located at front template
(1) between rear pattern plate (3), the afterbody of the rear pattern plate (3) is provided with Mode-locking oil cylinder component (5), and the moving platen (2) is by passing
Dynamic component (6) couples with rear pattern plate (3), and transmission component (6) couples with the push rod (51) of Mode-locking oil cylinder component (5) and can be in push rod
(51) drive moving platen (2) mobile along pull bar (4) under driving, so as to realize the die sinking or conjunction of front template (1) and moving platen (2)
Mould, it is characterised in that:The transmission component (6) includes:
Thrust bearing (7), is arranged between rear pattern plate (3) and moving platen (2), the push rod (51) and thrust of Mode-locking oil cylinder component (5)
Seat (7) is fixedly connected;
Intermediate connecting rod (8), the first end of intermediate connecting rod (8) is rotated with thrust bearing (7) by the first lock shaft (A) to be connected;
Back link (9), the second end of intermediate connecting rod (8) is rotated by the second lock shaft (B) with the middle part of back link (9) to be connected, after
The first end of connecting rod (9) is rotated with rear pattern plate (3) by the 3rd lock shaft (C) and is connected;
Front rod (10), the first end of front rod (10) is rotated by the 4th lock shaft (D) with the second end of back link (9) to be connected,
Second end of front rod (10) is rotated with moving platen (2) by the 5th lock shaft (E) and is connected;
Antifriction metal (AFM) set (11) is arranged with the outside of the first, second, third, fourth, the 5th described lock shaft.
2. injection machine clasp mould mechanism according to claim 1, it is characterised in that:The symmetrical side of the thrust bearing (7) point
It is not provided with the engaging lug (12) being arranged in pairs for a pair, each pair engaging lug (12) and is provided with symmetrical connecting shaft hole (12a), in
Between the first end of connecting rod (8) be arranged between a pair of engaging lugs (12), and the first end of intermediate connecting rod (8) is provided with the first jackshaft
Hole (8a), the first lock shaft (A) and is enclosed on the antifriction metal (AFM) set (11) of the first lock shaft (A) outside and runs through and be arranged on the companies of engaging lug (12)
In the first intermediate shaft hole (8a) of spindle hole (12a) and intermediate connecting rod (8).
3. injection machine clasp mould mechanism according to claim 2, it is characterised in that:The both sides of the thrust bearing (7) are symmetrical
Two thrust bearing guide rods (13) are provided with, the corresponding both sides of thrust bearing (7) are respectively arranged with the first guide hole (7a) and second and led
Hole (7b), the thrust bearing guide rod (13) is each passed through the first guide hole (7a), the second guide hole (7b) and the thrust bearing (7) activity
Connection.
4. injection machine clasp mould mechanism according to claim 2, it is characterised in that:Second end of the intermediate connecting rod (8)
Provided with the second intermediate shaft hole (8b), the middle part of back link (9) is provided with connecting rod intermediate shaft hole (9a), the second lock shaft (B) and is enclosed on the
The antifriction metal (AFM) set (11) of two lock shafts (B) outside, which runs through, to be arranged in the second intermediate shaft hole (8b) and connecting rod intermediate shaft hole (9a).
5. injection machine clasp mould mechanism according to claim 2, it is characterised in that:After the first end of back link (9) is provided with
Connecting rod front-axle hole (9b), the second end of back link (9) is provided with axis hole (9c) after back link;Before the first end of front rod (10) is provided with
Connecting rod front-axle hole (10a), the second end of front rod (10) is provided with axis hole (10b) after front rod;Rear pattern plate is provided with rear mold on (3)
Plate linking arm (31), rear pattern plate linking arm (31) is provided with rear pattern plate axis hole (3a);Moving platen connection is provided with moving platen (2)
Arm (21), moving platen linking arm (21) is provided with moving platen axis hole (2a);3rd lock shaft (C) and it is enclosed on the 3rd lock shaft (C) outside
Antifriction metal (AFM) set (11) is interior with back link front-axle hole (10b) through rear pattern plate axis hole (3a) is arranged on;4th lock shaft (D) and it is enclosed on
The antifriction metal (AFM) set (11) of 4th lock shaft (D) outside is interior with front rod front-axle hole (10b) through axis hole after back link (9c) is arranged on;
5th lock shaft (E) and be enclosed on the antifriction metal (AFM) set (11) of the 5th lock shaft (E) outside through be arranged on axis hole after front rod (10b) with it is dynamic
In template axis hole (2a).
6. injection machine clasp mould mechanism according to claim 5, it is characterised in that:The symmetrical side of the moving platen (2) is set
There is multigroup moving platen linking arm (21), the middle part of the moving platen (2) is provided with the multigroup moving platen linking arm (21) in connected symmetrical dendrimer side
Connecting bridge (22).
7. injection machine clasp mould mechanism according to claim 5, it is characterised in that:The back link (9) is provided with N side by side
Individual, N is the natural number more than or equal to 2.
8. injection machine clasp mould mechanism according to claim 7, it is characterised in that:The front rod (10) is integrated part,
And the first end of front rod (10) is provided with N number of neck (10c), front rod front-axle hole (10a) is opened in N number of neck (10c) side
Wall;Second end of N number of back link (9) corresponds to be fastened in N number of neck (10c) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621296433.7U CN206374158U (en) | 2016-11-30 | 2016-11-30 | A kind of injection machine clasp mould mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621296433.7U CN206374158U (en) | 2016-11-30 | 2016-11-30 | A kind of injection machine clasp mould mechanism |
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Publication Number | Publication Date |
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CN206374158U true CN206374158U (en) | 2017-08-04 |
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ID=59405976
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CN201621296433.7U Active CN206374158U (en) | 2016-11-30 | 2016-11-30 | A kind of injection machine clasp mould mechanism |
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CN (1) | CN206374158U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106626290A (en) * | 2016-11-30 | 2017-05-10 | 宁波欧意莱机械制造有限公司 | Mould opening/closing mechanism of injection moulding machine |
-
2016
- 2016-11-30 CN CN201621296433.7U patent/CN206374158U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106626290A (en) * | 2016-11-30 | 2017-05-10 | 宁波欧意莱机械制造有限公司 | Mould opening/closing mechanism of injection moulding machine |
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TR01 | Transfer of patent right |
Effective date of registration: 20190403 Address after: 315000 Chaosheng North Road 399, Cixi Binhai Economic Development Zone, Zhejiang Province Patentee after: Zhejiang first force Intelligent Equipment Co., Ltd. Address before: 315311 Lingxu Road 288, Cidong Binhai District, Cixi City, Zhejiang Province Patentee before: NINGBO OUYILAI MACHINERY MANUFACTURING CO., LTD. |
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TR01 | Transfer of patent right |