CN203599253U - Tube extrusion device and automatic tube extrusion equipment - Google Patents
Tube extrusion device and automatic tube extrusion equipment Download PDFInfo
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- CN203599253U CN203599253U CN201320732905.9U CN201320732905U CN203599253U CN 203599253 U CN203599253 U CN 203599253U CN 201320732905 U CN201320732905 U CN 201320732905U CN 203599253 U CN203599253 U CN 203599253U
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- extrusion die
- rotating shaft
- inner rotary
- roller
- extrusion
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- 238000001125 extrusion Methods 0.000 title claims abstract description 71
- 230000007246 mechanism Effects 0.000 claims abstract description 77
- 239000000463 material Substances 0.000 claims abstract description 34
- 230000005540 biological transmission Effects 0.000 claims abstract description 17
- 238000007599 discharging Methods 0.000 claims abstract description 10
- 230000003028 elevating effect Effects 0.000 claims description 9
- 238000000034 method Methods 0.000 claims description 9
- 230000008878 coupling Effects 0.000 claims description 5
- 238000010168 coupling process Methods 0.000 claims description 5
- 238000005859 coupling reaction Methods 0.000 claims description 5
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 claims description 4
- 239000000741 silica gel Substances 0.000 claims description 4
- 229910002027 silica gel Inorganic materials 0.000 claims description 4
- 238000003032 molecular docking Methods 0.000 claims description 3
- 239000002184 metal Substances 0.000 abstract description 27
- 230000015572 biosynthetic process Effects 0.000 abstract 1
- 238000003754 machining Methods 0.000 abstract 1
- 238000004519 manufacturing process Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 4
- 230000004888 barrier function Effects 0.000 description 2
- 230000000712 assembly Effects 0.000 description 1
- 238000000429 assembly Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
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Abstract
The utility model discloses a tube extrusion device and automatic tube extrusion equipment. The extrusion device comprises an inner rotating assembly, an outer rotating assembly, a shell body, an inner shaft motor and an outer shaft motor, or a transmission mechanism and a power motor, wherein the inner rotating assembly comprises an inner rotating shaft and at least one pair of extrusion mold heads; the formation parts of the extrusion mold heads form an extrusion mold cavity; the outer rotating assembly is rotatably connected with the inner rotating assembly coaxially and comprises an outer rotating sleeve and an even number of rollers; the rollers are uniformly arranged at the axial positions corresponding to the extrusion mold heads at equal distance annularly; the shell body is rotatably connected with the outer rotating sleeve; the transmission mechanism and the power motor drive the inner rotating shaft and the outer rotating sleeve simultaneously. According to the tube extrusion device disclosed by the utility model, the capacity formed by extrusion can be improved, noise is lowered, the clamping force of an extruded metal tube is also reduced, and realization of the automatic machining is benefited. According to the automatic tube extrusion equipment disclosed by the utility model, automatic material feeding and automatic material charging are realized; a fork-shaped baffle block is further adopted, so that automatic material retreating is realized; a material discharging mechanism is adopted, so that automatic material collection is realized.
Description
Technical field
The utility model relates to a kind of extrusion apparatus, more particularly refers to a kind of crowded pipe device and automatically squeezes tube apparatus.
Background technology
In prior art, when hollow metal tube is extruded into conical pipe, what adopt is rotary extrusion mould, extrusion die is made up of two die heads conventionally, die head is under the batch (-type) collision of the roller of periphery, metal tube in die cavity is carried out to extrusion molding, and metal tube is also advanced into the inside of die cavity step by step in this process, completes the tapered squeezing processing of metal tube.Because extrusion die is rotation status, and the production capacity of extrusion molding and the rotary speed of extrusion die be directly proportional, and the rotating speed of extrusion die is higher, and noise is larger.In addition, because extrusion die contacts with metal tube under rotation status, make the rotating speed of extrusion die can not be too high, also make traditional extrusion die cannot realize automation processing.
Therefore, be necessary to develop the crowded pipe device that a kind of production capacity is higher and automatically squeeze tube apparatus.
Utility model content
The purpose of this utility model is to overcome the defect of prior art, and the crowded pipe device that a kind of production capacity is higher is provided.
Another order of the present utility model is to provide a kind of tube apparatus that automatically squeezes, and can realize mechanization clamping metal tube, and further realize automatic charging and automatic feed.
For achieving the above object, the utility model is by the following technical solutions:
Squeeze pipe device, comprising:
Interior rotary components, described interior rotary components comprises interior rotating shaft, and radially slides with interior rotating shaft the extrusion die connecting, described extrusion die is at least a pair of; The inner of described extrusion die is provided with forming section, between the forming section of each extrusion die, forms extrusion die cavity, the squeeze bulb that the outer end of described extrusion die is circular arc;
Inner rotary assembly, described inner rotary assembly connects with interior rotary components concentric rotation, comprises inner rotary sleeve pipe, and is located at the even number roller on inner rotary sleeve pipe, and the evenly equidistant hoop of roller is located at the axial location corresponding with extrusion die;
Housing, described housing connects with inner rotary sleeve rotating;
And for driving the interior spindle motor of interior rotating shaft and for driving the outer spindle motor of inner rotary sleeve pipe; Or transmission mechanism and the power motor of rotating shaft, inner rotary sleeve pipe in simultaneously driving.
Its further technical scheme is: described extrusion die is that a pair of, described extrusion die is split-type structural, comprises the inner mould head that is provided with described forming section and the outer die head that is provided with described squeeze bulb; Described extrusion die cavity is conical die cavity.
Its further technical scheme is: one end of described inner rotary sleeve pipe is provided with even number for placing the roller enclosed slot of roller, and is fixed on the roller pin of roller enclosed slot both sides, and described roller pin connects with roller rotation by the bearing being provided with.
Its further technical scheme is: also at least comprise that two for rotating the outer bearing of coupling housing and inner rotary sleeve pipe; Also at least comprise that two for rotating the inner bearing that connects inner rotary sleeve pipe and interior rotating shaft.
Its further technical scheme is: one end of described interior rotating shaft is provided with the open slot for embedding extrusion die, and the outer end of described open slot is provided with the die head block being fixedly connected with interior rotating shaft.
Automatically squeeze tube apparatus, comprise base, described base is provided with aforesaid crowded pipe device, is also provided with and is positioned at the feeding assembly that squeezes pipe device front side on described base; The charging slide unit that described feeding assembly comprises the charging slide that is fixed on base, is slidably connected with charging slide, and for driving the feeding transmission mechanism of charging slide unit; Described charging slide unit is provided with the plug that is extruded pipe fitting for entangling.
Its further technical scheme is: on described base, be also provided be positioned at squeeze the horizontal balladeur train of pipe device top, with the horizontal slide unit that laterally balladeur train is slidably connected, and for driving the transverse transmission mechanism of horizontal slide unit; Laterally slide unit is provided with elevating mechanism, and the lower end of elevating mechanism is provided with feeding clip mechanism; One side of described base is also provided with feed mechanism, and described feed mechanism is provided with the material loading guide rail docking with feeding clip mechanism.
Its further technical scheme is: on described base, be also provided with the material jacking mechanism that is positioned at material loading guide rail end; Described material jacking mechanism comprises with the lifting platform of base sliding, for driving the liftout actuating unit of lifting platform; The upper surface of described lifting platform is provided with backstop and is extruded the backgauge side of pipe fitting.
Its further technical scheme is: the opposite side of described lifting platform is at least provided with an outer baffle, and described outer baffle slides up and down and connects with lifting platform, and described outer baffle lower end is also arranged with the spring of downward reset; Described outer baffle upper end is sharp structure; Described liftout actuating unit uphill process, first ejects outer baffle, blocks and is extruded pipe fitting, then eject lifting platform.
Its further technical scheme is: the opposite side of described base is provided with discharging mechanism, and described discharging mechanism comprises the drive being fixed on base, and with the conveyer belt of drive driving coupling; Described plug comprises mandrel, and fixed cover is located at the silica gel sheath of mandrel front end.
The utility model beneficial effect is compared with prior art: the utility model squeezes the mode of inner rotary in the employing of pipe device, make extrusion die in inner ring low speed rotation, roller is at outer ring High Rotation Speed, can improve the production capacity of extrusion molding, and reduce noise, also reduce the chucking power that is extruded metal tube, be conducive to realize automation processing.The utility model automatically squeezes tube apparatus and adopts feeding mechanism to realize the automatic feed having in crowded pipe process, adopt feed mechanism, realize the automatic charging that is extruded metal tube, and sent automatically to extrusion position by feeding clip mechanism and lateral dynamics mechanism, realized automatic charging and automatic feed; Also further adopt fork-shaped block, realized automatic material returning, adopted discharging mechanism, realized automatic material receiving.
Below in conjunction with the drawings and specific embodiments, the utility model is further described.
Accompanying drawing explanation
Fig. 1 is sectional structure schematic diagram and the partial enlarged drawing thereof that the utility model squeezes pipe device specific embodiment;
Fig. 2 is that the A-A of Fig. 1 is to enlarged drawing;
Fig. 3 is main TV structure schematic diagram and the partial enlarged drawing thereof that the utility model squeezes tube apparatus specific embodiment automatically;
Fig. 4 is the top view of Fig. 3;
Fig. 5 is the electrical control block diagram that the utility model squeezes tube apparatus specific embodiment automatically.
Reference numeral
The interior rotating shaft of 10 interior rotary components 11
111 open slot 12 extrusion dies
The outer die head of 12A inner mould head 12B
121 forming section 122 squeeze bulb
131 bearing 132 bearings
133 bearing 14 die head blocks
20 inner rotary assembly 21 inner rotary sleeve pipes
211 roller enclosed slot 212 roller pins
213 bearing 22 rollers
30 housing 31 outer bearings
The outer spindle motor of 41 interior spindle motor 42
50 base 58 fork-shaped blocks
59 material returned cylinder 60 feeding assemblies
61 charging slide 62 charging slide units
63 feeding transmission mechanism 631 charging motors
632 charging ball wire bar pair 64 plugs
641 mandrel 642 silica gel sheaths
The horizontal slide unit of 71 horizontal balladeur train 72
73 transverse transmission mechanism 731 cross motors
Secondary 74 elevating mechanisms of 732 transverse ball lead screws
75 feeding clip mechanism 751 folders refer to cylinder
752 clamping bar 80 feed mechanisms
81 material loading guide rail 82 material jacking mechanisms
821 lifting platform 822 liftout actuating units
823 backgauge side 8231 gap slots
824 outer baffle 825 springs
90 discharging mechanism 91 drives
92 conveyer belt R are extruded metal tube
S squeezes pipe device
The specific embodiment
In order to more fully understand technology contents of the present utility model, below in conjunction with specific embodiment, the technical solution of the utility model is further introduced and explanation, but be not limited to this.
As Figure 1-Figure 2, the utility model squeezes pipe device and squeezes pipe device S, comprising:
Inner rotary assembly 20, inner rotary assembly 20 and interior rotary components 10 concentrics rotate to connect and (between the two, are provided with three inner bearings, be respectively bearing 131,132,133), comprise inner rotary sleeve pipe 21, and be located at 8 rollers 22 on inner rotary sleeve pipe 21, the evenly equidistant hoop of roller 22 is located at the axial location corresponding with extrusion die 12; The inner side of roller 22 acts on squeeze bulb 122;
And for driving the interior spindle motor 41 of interior rotating shaft 11 and for driving the outer spindle motor 42 of inner rotary sleeve pipe 21.
Wherein, extrusion die 12 is split-type structural, comprises the inner mould head 12A that is provided with described forming section 121 and the outer die head 12B that is provided with described squeeze bulb 122; Between inner mould head 12A and outer die head 12B, establish the embedded structure that adopts rectangle.In the present embodiment, extrusion die cavity is conical die cavity, for pushing conical metal tube.
One end of inner rotary sleeve pipe 21 is provided with 8 for placing the roller enclosed slot 211 of roller 22, and the roller pin 212(that is fixed on roller enclosed slot both sides carries out axial location by jump ring), roller pin 212 connects with roller 22 rotations by the bearing 213 being provided with.
One end of interior rotating shaft 11 is provided with the open slot 111 for embedding extrusion die 12, the outer end of open slot 111 is provided with the die head block 14(being fixedly connected with interior rotating shaft 11 and plays the effect that limits extrusion die, when assembling, first extrusion die is packed between interior rotating shaft, then die head block and interior rotating shaft are fixedly connected).
In use procedure, the rotating speed of interior rotating shaft is low, and the rotating speed of inner rotary sleeve pipe is high.Can improve like this production capacity of extrusion molding, and reduce noise, and reduce the impact of extrusion die to metal tube; The clamping that is easy to realize squeezed pressure pipe, easily is automated processing.
As in Figure 3-5, the utility model squeezes tube apparatus automatically, comprises base 50, and base 50 is provided with aforesaid crowded pipe device S, is also provided with and is positioned at the feeding assembly 60 that squeezes pipe device S front side on base 50; The charging slide unit 62 that feeding assembly 60 comprises the charging slide 61 that is fixed on base 50, is slidably connected with charging slide 61, and for driving feeding transmission mechanism 63(the present embodiment of charging slide unit 62, formed by charging motor 631 and charging ball wire bar pair 632); Charging slide unit 62 is provided with the plug 64 that is extruded metal tube R for entangling.
On base 50, be also provided be positioned at squeeze the horizontal balladeur train 71 of pipe device S top, with horizontal slide unit 72 that laterally balladeur train 71 is slidably connected, and for driving transverse transmission mechanism 73(the present embodiment of horizontal slide unit 72, formed by cross motor 731 and transverse ball lead screw pair 732); Laterally slide unit 72 is provided with elevating mechanism 74, and the lower end of elevating mechanism 74 is provided with feeding clip mechanism 75; It is vibrator feeder that one side of base 50 is also provided with what in feed mechanism 80(the present embodiment, adopt), feed mechanism 80 is provided with the material loading guide rail 81 docking with feeding clip mechanism 75.In the present embodiment, feeding clip mechanism 75 comprises that folder refers to cylinder 751 and is located at the clamping bar 752 that folder refers to cylinder movable end; Elevating mechanism 74 is realized by two bar cylinders.
In order to realize more reliable feeding, on base 50, be also provided with the material jacking mechanism 82 that is positioned at material loading guide rail 81 ends; Material jacking mechanism 82 comprises the lifting platform 821 that slides with base 50, for driving liftout actuating unit 822(the present embodiment of lifting platform 821, be material ejection cylinder, also can adopt other versions such as motor); The upper surface of lifting platform 821 is provided with backstop and is extruded the backgauge side 823 of pipe fitting.The opposite side of lifting platform 821 is provided with 2 outer baffles 824, outer baffle 824 slides up and down and connects with lifting platform 821, when the spring 825(that outer baffle lower end is also arranged with downward reset is not subject to external force, under the effect of spring, outer baffle is pulled down all the time, can not hinder metal tube to move to lifting platform from material loading guide rail); Outer baffle 824 upper ends are sharp structure (easily between two metal tubes by jack-up); In liftout actuating unit 822 uphill process, first eject outer baffle 824, outer baffle 824 rises, block and be extruded metal tube R, the metal tube R that is extruded of outermost end is stuck between outer baffle 824 and backgauge side 823, liftout actuating unit 822 withstands the lower end of lifting platform 821 again, ejects lifting platform 821, is delivered to the operating position of feeding clip mechanism.For the ease of the movement of clamping bar 752, be provided with gap slot 8231 at backgauge side 823.
For the ease of rewinding, be provided with discharging mechanism 90 at the opposite side of base, discharging mechanism 90 comprises the drive 91 being fixed on base 50, and with the conveyer belt 92 of drive 91 driving coupling.Plug 64 wherein comprises mandrel 641, and fixed cover is located at the silica gel sheath 642 of mandrel 641 front ends.
Withdraw from plug for the ease of the metal tube after extrusion molding, below feeding mechanism, be provided with a material returned cylinder 59(and can adopt two bar cylinders) and be fixed on the fork-shaped block 58 of material returned cylinder movable end, when the material returned, fork-shaped block is risen, and two sides of fork-shaped block keep off in plug both sides, and charging slide unit moves forward, metal tube is under the barrier effect of fork-shaped block, from plug, withdraw, drop on conveyer belt, be sent to the station of next operation.
In order to realize the reliability service in automatic process, the original position of each moving component (such as cylinder, transmission, slide unit etc.) all can increase position sensor as required, to realize the accurate control of range of movement.
An extrusion process that is extruded metal tube is: from vibrator feeder vibration feeding to material loading guide rail, move to again on the lifting platform of material jacking mechanism, lifting platform rises, and feeding clip mechanism will be extruded metal tube at lower position and clamp, and elevating mechanism is pulled upwardly feeding clip mechanism; By transverse transmission mechanism, the metal tube that is extruded on feeding clip mechanism is moved to the front end that squeezes pipe device again, plug on feeding mechanism moves backward, plug is inserted and is extruded in metal tube, feeding clip mechanism unclamps and clamps and remove, feeding mechanism will be extruded pipe fitting and push extrusion die cavity, squeeze pipe device and will start extruding work, now, feeding clip mechanism rollback, to the material jacking mechanism top on material loading rail-sides limit, enters next operation cycle.After having pushed, plug exits from extrusion die cavity, now fork-shaped block is risen, two sides of fork-shaped block keep off in plug both sides, charging slide unit continues to exit (moving forward), and metal tube, under the barrier effect of fork-shaped block, withdraws from plug, drop on conveyer belt, be sent to the station of next operation.
Fig. 5 is the electrical control block diagram that automatically squeezes tube apparatus, adopts unified controller (such as PLC controller) to carry out centralized Control to each power part.
In other embodiment, in crowded pipe device, can be same motor for driving the motor of interior rotating shaft, inner rotary sleeve pipe, by two output shafts of transmission mechanism, export different turning to and the rotary power of rotating speed.
In other embodiment, in crowded pipe device, roller can be also other even number.
In other embodiment, automatically squeeze in tube apparatus, also can not adopt material jacking mechanism.
In other embodiment, automatically squeeze in tube apparatus, feeding transmission mechanism, transverse transmission mechanism also can adopt the versions such as cylinder.
In sum, the utility model squeezes the mode of inner rotary in the employing of pipe device, makes extrusion die in inner ring low speed rotation, roller, at outer ring High Rotation Speed, can improve the production capacity of extrusion molding, and reduces noise, also reduce the chucking power that is extruded metal tube, be conducive to realize automation processing.The utility model automatically squeezes tube apparatus and adopts feeding mechanism to realize the automatic feed having in crowded pipe process, adopt feed mechanism, realize the automatic charging that is extruded metal tube, and sent automatically to extrusion position by feeding clip mechanism and lateral dynamics mechanism, realized automatic charging and automatic feed; Also further adopt fork-shaped block, realized automatic material returning, adopted discharging mechanism, realized automatic material receiving.
Above-mentionedly only further illustrate technology contents of the present utility model with embodiment; so that reader is easier to understand; but do not represent that embodiment of the present utility model only limits to this, any technology of doing according to the utility model is extended or recreation, is all subject to protection of the present utility model.Protection domain of the present utility model is as the criterion with claims.
Claims (10)
1. squeeze pipe device, it is characterized in that comprising:
Interior rotary components, described interior rotary components comprises interior rotating shaft, and radially slides with interior rotating shaft the extrusion die connecting, described extrusion die is at least a pair of; The inner of described extrusion die is provided with forming section, between the forming section of each extrusion die, forms extrusion die cavity, the squeeze bulb that the outer end of described extrusion die is circular arc;
Inner rotary assembly, described inner rotary assembly connects with interior rotary components concentric rotation, comprises inner rotary sleeve pipe, and is located at the even number roller on inner rotary sleeve pipe, and the evenly equidistant hoop of roller is located at the axial location corresponding with extrusion die;
Housing, described housing connects with inner rotary sleeve rotating;
And for driving the interior spindle motor of interior rotating shaft and for driving the outer spindle motor of inner rotary sleeve pipe; Or transmission mechanism and the power motor of rotating shaft, inner rotary sleeve pipe in simultaneously driving.
2. crowded pipe device according to claim 1, is characterized in that described extrusion die is that a pair of, described extrusion die is split-type structural, comprises the inner mould head that is provided with described forming section and the outer die head that is provided with described squeeze bulb; Described extrusion die cavity is conical die cavity.
3. crowded pipe device according to claim 1, the one end that it is characterized in that described inner rotary sleeve pipe is provided with even number for placing the roller enclosed slot of roller, and being fixed on the roller pin of roller enclosed slot both sides, described roller pin connects with roller rotation by the bearing being provided with.
4. crowded pipe device according to claim 1, is characterized in that also at least comprising that two for rotating the outer bearing of coupling housing and inner rotary sleeve pipe; Also at least comprise that two for rotating the inner bearing that connects inner rotary sleeve pipe and interior rotating shaft.
5. crowded pipe device according to claim 1, is characterized in that one end of described interior rotating shaft is provided with the open slot for embedding extrusion die, and the outer end of described open slot is provided with the die head block being fixedly connected with interior rotating shaft.
6. automatically squeeze tube apparatus, comprise base, it is characterized in that described base is provided with crowded pipe device claimed in claim 1, on described base, be also provided with and be positioned at the feeding assembly that squeezes pipe device front side; The charging slide unit that described feeding assembly comprises the charging slide that is fixed on base, is slidably connected with charging slide, and for driving the feeding transmission mechanism of charging slide unit; Described charging slide unit is provided with the plug that is extruded pipe fitting for entangling.
7. the tube apparatus that automatically squeezes according to claim 6, it is characterized in that being also provided with on described base be positioned at squeeze the horizontal balladeur train of pipe device top, with the horizontal slide unit that laterally balladeur train is slidably connected, and for driving the transverse transmission mechanism of horizontal slide unit; Laterally slide unit is provided with elevating mechanism, and the lower end of elevating mechanism is provided with feeding clip mechanism; One side of described base is also provided with feed mechanism, and described feed mechanism is provided with the material loading guide rail docking with feeding clip mechanism.
8. the tube apparatus that automatically squeezes according to claim 7, is characterized in that being also provided with on described base the material jacking mechanism that is positioned at material loading guide rail end; Described material jacking mechanism comprises with the lifting platform of base sliding, for driving the liftout actuating unit of lifting platform; The upper surface of described lifting platform is provided with backstop and is extruded the backgauge side of pipe fitting.
9. the tube apparatus that automatically squeezes according to claim 8, is characterized in that the opposite side of described lifting platform is at least provided with an outer baffle, and described outer baffle slides up and down and connects with lifting platform, and described outer baffle lower end is also arranged with the spring of downward reset; Described outer baffle upper end is sharp structure; Described liftout actuating unit uphill process, first ejects outer baffle, blocks and is extruded pipe fitting, then eject lifting platform.
10. the tube apparatus that automatically squeezes according to claim 7, is characterized in that the opposite side of described base is provided with discharging mechanism, and described discharging mechanism comprises the drive being fixed on base, and with the conveyer belt of drive driving coupling; Described plug comprises mandrel, and fixed cover is located at the silica gel sheath of mandrel front end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320732905.9U CN203599253U (en) | 2013-11-19 | 2013-11-19 | Tube extrusion device and automatic tube extrusion equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320732905.9U CN203599253U (en) | 2013-11-19 | 2013-11-19 | Tube extrusion device and automatic tube extrusion equipment |
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CN203599253U true CN203599253U (en) | 2014-05-21 |
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CN201320732905.9U Expired - Lifetime CN203599253U (en) | 2013-11-19 | 2013-11-19 | Tube extrusion device and automatic tube extrusion equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103658212A (en) * | 2013-11-19 | 2014-03-26 | 雷宇 | Pipe extruding device and automatic pipe extruding equipment |
CN113290903A (en) * | 2021-04-20 | 2021-08-24 | 太田机械江苏有限公司 | High-precision single-column hydraulic machine |
-
2013
- 2013-11-19 CN CN201320732905.9U patent/CN203599253U/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103658212A (en) * | 2013-11-19 | 2014-03-26 | 雷宇 | Pipe extruding device and automatic pipe extruding equipment |
CN103658212B (en) * | 2013-11-19 | 2016-01-20 | 雷宇 | Squeeze pipe device and automatically squeeze tube apparatus |
CN113290903A (en) * | 2021-04-20 | 2021-08-24 | 太田机械江苏有限公司 | High-precision single-column hydraulic machine |
CN113290903B (en) * | 2021-04-20 | 2021-12-31 | 太田机械江苏有限公司 | High-precision single-column hydraulic machine |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20180108 Address after: Fenggang town of bamboo village 518000 Guangdong city of Dongguan Province under deep pit Industrial Zone Technology Park Haiyong A1 Building 5 floor, 6 floor, 8-11 lattice and 8-11 lattice Patentee after: DONGGUAN HUANHAI HARDWARE PRODUCTS Co.,Ltd. Address before: 518000 Li Yuan District, Xuefu Road, Nanshan District, Shenzhen, Guangdong 104, 104 Patentee before: Lei Yu |
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TR01 | Transfer of patent right | ||
CX01 | Expiry of patent term |
Granted publication date: 20140521 |
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CX01 | Expiry of patent term |