CN110405058A - A kind of pipe end is pinched molding and dotting integrated machine - Google Patents
A kind of pipe end is pinched molding and dotting integrated machine Download PDFInfo
- Publication number
- CN110405058A CN110405058A CN201910691256.4A CN201910691256A CN110405058A CN 110405058 A CN110405058 A CN 110405058A CN 201910691256 A CN201910691256 A CN 201910691256A CN 110405058 A CN110405058 A CN 110405058A
- Authority
- CN
- China
- Prior art keywords
- blowing
- actuator
- molding
- rack
- precompressed
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D22/00—Shaping without cutting, by stamping, spinning, or deep-drawing
- B21D22/02—Stamping using rigid devices or tools
- B21D22/025—Stamping using rigid devices or tools for tubular articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D22/00—Shaping without cutting, by stamping, spinning, or deep-drawing
- B21D22/02—Stamping using rigid devices or tools
- B21D22/04—Stamping using rigid devices or tools for dimpling
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D35/00—Combined processes according to or processes combined with methods covered by groups B21D1/00 - B21D31/00
- B21D35/002—Processes combined with methods covered by groups B21D1/00 - B21D31/00
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D45/00—Ejecting or stripping-off devices arranged in machines or tools dealt with in this subclass
- B21D45/02—Ejecting devices
Abstract
The invention discloses a kind of pipe ends to be pinched molding and dotting integrated machine, comprising: rack;Index dial component is set to rack;Several blowing mould groups, several blowing mould groups are distributed in index dial component;Feed mechanism is set to rack;Precompressed mechanism is set to rack and adjacent with feed mechanism;Shaping mechanism is set to rack and adjacent with precompressed mechanism;First striking mechanism is set to rack and adjacent with shaping mechanism;Second striking mechanism is set to rack and adjacent with the first striking mechanism;Unloading mechanism is set to rack and adjacent with the second striking mechanism;Compared with prior art, pipe end of the invention is pinched molding and dotting integrated machine, feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism and the second striking mechanism successively carry out feeding, precompressed, molding and dent point to tubing, unloading mechanism is by the molding tubing of tube end maching from the blowing mould group material returned, high degree of automation, the precision of product can be improved, while ensuring the consistency of product.
Description
Technical field
The present invention relates to tube formings to get technical field ready, and in particular, to a kind of pipe end is pinched molding and gets one ready
Machine.
Background technique
Some circular pipes, when use needs for circular pipe to be processed into tool, and there are two the pipes in channel or multiple channels
Material, then in outer pipe wall raising concave point;When forming to these tubular object extrudings, type core is usually put into tubing, then
Tubing is squeezed with mold, tubing is made to become the shape of demand;But due to after tube extrusion height or width can change, finally at
When type, it is circular diameter that the distance between multiple channels, which are greater than tubing,;If by type core according to tubing shape after molding when processing
Shape setting, type core can be with the shape alignment on mold, but type core is then difficult to enter tubing, if adding type core not in tubing
Tubing can be entered before work, type core cannot be with the shape on mold to just when mold clamping;And to being pinched molding outer pipe wall
When raising concave point, often makes to be pinched pipe deformations after molding and need multiple sets of molds multiple devices in conventional processes
Realize form it is different want flat, moulding process.
Summary of the invention
The purpose of this invention is to solve the problems associated with the prior art, provides a kind of pipe end and is pinched molding and gets one ready
Machine.
A kind of pipe end is pinched molding and dotting integrated machine comprising:
Rack;
Index dial component is set to rack;
Several blowing mould groups, several blowing mould groups are distributed in index dial component;
Feed mechanism is set to rack;
Precompressed mechanism is set to rack and adjacent with feed mechanism;
Shaping mechanism is set to rack and adjacent with precompressed mechanism;
First striking mechanism is set to rack and adjacent with shaping mechanism;
Second striking mechanism is set to rack and adjacent with the first striking mechanism;
Unloading mechanism is set to rack and adjacent with the second striking mechanism;
Wherein, feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism, the second striking mechanism and unloading mechanism enclose
Be arranged around index dial component and with a blowing mould group to just, index dial component drive the rotation of blowing mould group and by blowing mould group according to
It is secondary to feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism, the second striking mechanism and unloading mechanism circulation conveying, on
Expect mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism and the second striking mechanism successively to tubing carry out feeding, precompressed, at
Type and dent point, unloading mechanism is by the molding tubing of tube end maching from the blowing mould group material returned.
According to an embodiment of the present invention, blowing mould group includes blowing mold fixed plate, blowing guide rod, blowing mold pressure
Plate, blowing pressure spring, blowing lower die, blowing upper mold, core rod seat and blowing core bar, blowing mold fixed plate are set to index dial component,
Blowing guide rod is connect with blowing mold fixed plate, and the blowing guide rod other end passes through blowing clamping cap, and blowing pressure spring is arranged
In blowing guide rod and positioned at the part of blowing guide rod stretching blowing clamping cap, blowing lower die is set to blowing mold fixed plate, puts
Expect that upper mold is set to blowing clamping cap, core rod seat is set to blowing mold fixed plate, blowing core bar one end and blowing mold fixed plate
Connection, the blowing core bar other end are placed between blowing lower die and blowing upper mold.
According to an embodiment of the present invention, feed mechanism includes vibrating disk, hopper, feeding bracket, feeding mould and feeding
Component, vibrating disk are set to rack, and the feed end of hopper is connected to the discharge end of vibrating disk, and feeding branch is set up in rack, feeding mould
Set on feeding bracket, feeding mould is connected to the discharge end of hopper, and loading assemblies include feeding actuator and feeding bar, feeding driving
Part sets feeding bracket, and feeding bar one end is connect with feeding actuator, and the feeding bar other end protrudes into feeding mould.
According to an embodiment of the present invention, precompressed mechanism includes that pre-pressing die seat, two pre-pressing dies and pre-pressing die drive
Dynamic component, pre-pressing die seat are set to rack, and two pre-pressing dies include precompressed angled-lift splits, pre- pressing die head and elastic component, two precompressed
Angled-lift splits are symmetrically set in pre-pressing die seat and stretch out from pre-pressing die seat one end, and two pre- pressing die heads are divided into two precompressed and tiltedly slide
One end of block stretching pre-pressing die seat;Elastic component is set between two precompressed angled-lift splits;Pre-pressing die driving assembly includes that precompressed is driven
Moving part, sliding block jam plate and two slide roofs, precompressed actuator are set to the pre-pressing die seat other end, sliding block jam plate and precompressed actuator
Connection, two slide roofs are symmetrically set to sliding block jam plate and protrude into pre-pressing die seat, and two precompressed angled-lift splits are placed in two sliding block jam plates
Between.
According to an embodiment of the present invention, shaping mechanism includes shaped support, the first core package and molding assembly, at
Type branch is set up in rack, and the first core package is set to shaped support, and the first core package includes the first type core actuator, the first type
Core sliding block and the first type core, the first type core actuator are set to shaped support, and the first type core sliding block is connect with the first type core actuator,
First type core is set to the first type core sliding block;Molding assembly include shaping upper actuator, shaping upper, molding lower die actuator and
Lower die is formed, shaping upper actuator is set to shaped support, and shaping upper is connect with shaping upper actuator, molding lower die driving
Part is set to rack, and molding lower die is connect with molding lower die actuator, and shaping upper is oppositely arranged with molding lower die.
According to an embodiment of the present invention, the first striking mechanism includes that red needle component, red needle driving assembly and tubing are solid
Determine component, red needle component includes red needle pressing plate and first gets red needle ready, and red needle pressing plate is set to blowing mold fixed plate, red needle pressing plate
Equipped with red needle hole, first gets red needle ready set on red needle hole, and blowing lower die is equipped with the avoid holes being connected to red needle hole;Red needle driving group
Part includes getting fixed plate ready, get actuator ready and getting bolt ready, gets fixed plate ready set on rack, it is solid set on getting ready to get actuator ready
Fixed board is got bolt ready and is connect with actuator is got ready, and tubing fixation kit includes fixed bracket, fixed actuator and fixes push plate,
Fixed branch is set up in rack, and fixed actuator is set to fixed bracket, and fixed push plate is connect with fixed actuator.
According to an embodiment of the present invention, the second striking mechanism includes getting bracket, the second core package ready and getting group ready
Part gets branch ready and is set up in rack, and the second core package, which is set to, gets bracket ready, the second core package include second type core actuator,
Second type core sliding block and second type core, second type core actuator, which is set to, gets bracket ready, and second type core sliding block and second type core drive
Part connection, second type core are set to second type core sliding block;Getting component ready includes red pin actuator, red pin seat, red pin, undershoot
Needle actuator, undershoot needle stand and undershoot needle, red pin actuator, which is set to, gets bracket ready, and red pin seat and red pin actuator connect
It connects, red pin is set to red pin seat, and undershoot needle actuator is set to rack, and undershoot needle stand is connect with undershoot needle actuator, undershoot needle
Set on undershoot needle stand, red pin is oppositely arranged with undershoot needle.
According to an embodiment of the present invention, unloading mechanism includes material returned fixed plate, material returned actuator, stripper, the material returned
Loop bar and receiving hopper, material returned fixed plate are set to index dial component, and material returned actuator is set to material returned fixed plate, and stripper and the material returned are driven
Moving part connection, material returning sleeve rod set are set to blowing core bar, and receiving hopper is set to rack, and receiving hopper is oppositely arranged with stripper.
According to an embodiment of the present invention, pipe end is pinched molding and dotting integrated machine further includes Chui Xie mechanism, blows bits machine
Structure is set between the second striking mechanism and unloading mechanism, and Chui Xie mechanism includes blowing bits support base, blowing bits tube head and gas-tpe fitting, is blown
It considers support base to be worth doing and is set to rack, blow bits tube head and be set to and blow bits support base, blow the outlet side of bits tube head towards index dial component and with one
A blowing mould group is connected to the inlet end for just, blowing bits tube head with gas-tpe fitting.
According to an embodiment of the present invention, rack is equipped with hood, and hood is by blowing mould group, feed mechanism, preformer
Structure, shaping mechanism, the first striking mechanism, the second striking mechanism and unloading mechanism mask.
Compared with prior art, a kind of pipe end of the invention is pinched molding and dotting integrated machine has the advantage that
A kind of pipe end of the invention is pinched molding and dotting integrated machine, feed mechanism, precompressed mechanism, shaping mechanism, first
Striking mechanism, the second striking mechanism and unloading mechanism are arranged and with a blowing mould group to just around index dial component, index dial
Component drives blowing mould group to rotate and blowing mould group is expected mechanism, precompressed mechanism, shaping mechanism, the first dotting machine upwards in turn
Structure, the second striking mechanism and unloading mechanism conveying, feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism and second dozen
Point mechanism successively carries out feeding, precompressed, molding and dent point to tubing, and unloading mechanism is by the molding tubing of tube end maching from blowing
The mould group material returned, the precision of product can be improved in high degree of automation, while ensuring the consistency of product.
Detailed description of the invention
Fig. 1 is the structural schematic diagram that pipe end of the invention is pinched molding and dotting integrated machine;
Fig. 2 is that pipe end of the invention is pinched molding and dotting integrated machine removes the structural schematic diagram after hood;
Fig. 3 is the structural schematic diagram for the blowing mould group that pipe end of the invention is pinched molding and dotting integrated machine;
Fig. 4 is that pipe end of the invention is pinched molding and the feed mechanism of dotting integrated machine removes the structural representation after vibrating disk
Figure;
Fig. 5 is the structural schematic diagram for the precompressed mechanism that pipe end of the invention is pinched molding and dotting integrated machine;
Fig. 6 is the expanded view for the precompressed mechanism that pipe end of the invention is pinched molding and dotting integrated machine;
Fig. 7 is the structural schematic diagram for the shaping mechanism that pipe end of the invention is pinched molding and dotting integrated machine;
Fig. 8 be pipe end of the invention be pinched the first striking mechanism of molding and dotting integrated machine and the structure of Chui Xie mechanism and
Location diagram on the rack;
Fig. 9 is the structural schematic diagram of the second striking mechanism of the structural schematic diagram of precompressed mechanism of the invention;
Figure 10 is the structural schematic diagram of the unloading mechanism of precompressed mechanism of the invention;
Figure 11 is the mechanism and location diagram of blowing core bar and material returned loop bar;
In figure: 1. racks, 11. hoods, 2. index dial components, 3. blowing mould groups, 31. blowing mold fixed plates, 32. blowings
Guide rod, 33. blowing clamping caps, 34. blowing pressure springs, 35. blowing lower dies, 36. blowing upper molds, 37. core rod seats, 38. blowing cores
Bar, 381. core bar caps, 382. core bar ontologies, 3821. first escape groove, 3822. arc bumps, 39. positioning screws, 4. feeders
Structure, 41. vibrating disks, 42. hoppers, 43. feeding brackets, 431. feeding sliding rails, 44. feeding moulds, 45. loading assemblies, 451. feedings
Actuator, 452. feeding bars, 453. feeding connecting plates, 454. feeding sliding blocks, 5. precompressed mechanisms, 51. pre-pressing die seats, 511. one-tenth
Type sliding slot, 52. pre-pressing dies, 521. precompressed angled-lift splits, 5211. forming parts, 5212. sliding parts, 5213. beveling blocks, 5214. one-tenth
Type sliding block, 522. pre- pressing die heads, 53. pre-pressing die driving assemblies, 531. precompressed actuators, 532. sliding block jam plates, 533. sliding blocks
Top plate, 5331. sliding slots, 6. shaping mechanisms, 61. shaped supports, 62. first core packages, 621. first type core actuators, 622.
First type core sliding block, 623. first type cores, 624. first type core slides, 63. molding assemblies, 631. shaping upper actuators,
632. shaping uppers, 633. molding lower die actuators, 634. molding lower dies, 7. first striking mechanisms, 71. red needle components, 711.
Red needle pressing plate, 12. first get red needle ready, 72. red needle driving assemblies, 721. get fixed plate ready, 722. get actuator, 723. dozens ready
Point bolt, 73. tubing fixation kits, 731. fixed brackets, 732. fixed actuators, 733. fixed push plates, 8. second dotting machines
Structure, 81. get bracket, 82. second core packages, 821. second type core actuators, 822. second type core sliding blocks, 823. second types ready
Core, 8231. second escape groove, 824. second type core slides, 83. get component, 831. red pin actuators, 832. red pins ready
Seat, 833. red pins, 834. undershoot needle actuators, 835. undershoot needle stands, 836. undershoot needles, 9. unloading mechanisms, 91. materials returned are fixed
Plate, 92. material returned actuators, 93. strippers, 94. material returned loop bars, 941. sets of heads, 942. first curved portions, 943. second arcs
Portion, 944. arc notch, 95. receiving hoppers, 10. Chui Xie mechanisms, 101. blow bits support base, 102. blow bits tube head, 103. tracheaes and connect
Head
The embodiments will be further described with reference to the accompanying drawings for the realization of function of the present invention and advantage.
Specific embodiment
Multiple embodiments of the invention will be disclosed with schema below, as clearly stated, the details in many practices
It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also
It is to say, in some embodiments of the invention, the details in these practices is non-essential.In addition, for the sake of simplifying schema,
Some known usual structures and component will be painted it in the drawings in simply illustrative mode.
It is to be appreciated that institute's directional instruction (such as above and below, control, is forward and backward ...) is only used in the embodiment of the present invention
It explains in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if the spy
When determining posture and changing, then directionality instruction also correspondingly changes correspondingly.
In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, not especially censure
The meaning of order or cis-position, also non-to limit the present invention, the component described just for the sake of difference with same technique term
Or operation, it is not understood to indicate or imply its relative importance or implicitly indicates the number of indicated technical characteristic
Amount." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one of the features.In addition, each
Technical solution between a embodiment can be combined with each other, but must can be implemented as base with those of ordinary skill in the art
Plinth will be understood that the combination of this technical solution is not present when conflicting or cannot achieve when occurs in the combination of technical solution,
Also not the present invention claims protection scope within.
For that can further appreciate that the contents of the present invention, feature and effect, the following examples are hereby given, and cooperates attached drawing detailed
It is described as follows:
Fig. 1, Fig. 2 are please referred to, Fig. 1 is the structural schematic diagram that pipe end of the invention is pinched molding and dotting integrated machine;Fig. 2 is
Pipe end of the invention is pinched molding and dotting integrated machine removes the structural schematic diagram after hood.As shown, pipe end is pinched molding
And dotting integrated machine includes rack 1, index dial component 2, several blowing mould groups 3, feed mechanism 4, precompressed mechanism 5, shaping mechanism
6, the first striking mechanism 7, the second striking mechanism 8 and unloading mechanism 9, index dial component 2 are set to rack 1, and several blowing mould groups 3 are
It is distributed in index dial component 2;It feed mechanism 4, precompressed mechanism 5, shaping mechanism 6, the first striking mechanism 7, the second striking mechanism 8 and moves back
Material mechanism 9 is set to rack 1 and sets gradually around index dial component 2, feed mechanism 4, precompressed mechanism 5, shaping mechanism 6, first
Striking mechanism 7, the second striking mechanism 8 and unloading mechanism 9 are with a blowing mould group 3 to just, precompressed mechanism 5 and feed mechanism 4
It is adjacent;Shaping mechanism 6 is adjacent with precompressed mechanism 5;First striking mechanism 7 is adjacent with shaping mechanism 6;Second striking mechanism 8 and
One striking mechanism 7 is adjacent;Unloading mechanism 9 is adjacent with the second striking mechanism 8;Index dial component 2 drives the rotation of blowing mould group 3 and will
Blowing mould group 3 is expected mechanism 4, precompressed mechanism 5, shaping mechanism 6, the first striking mechanism 7, the second striking mechanism 8 upwards in turn and is moved back
Expect 9 circulation conveying of mechanism, feed mechanism 4, precompressed mechanism 5, shaping mechanism 6, the first striking mechanism 7 and the second striking mechanism 8 according to
It is secondary that tubing progress feeding, precompressed, molding and dent point, unloading mechanism 9 are moved back the molding tubing of tube end maching from blowing mould group 3
Material.
Referring to Fig. 3, Fig. 3 is the structural representation for the blowing mould group that pipe end of the invention is pinched molding and dotting integrated machine
Figure;As shown, in the present embodiment, blowing mould group 3 includes blowing mold fixed plate 31, blowing guide rod 32, blowing mold pressure
Plate 33, blowing pressure spring 34, blowing lower die 35, blowing upper mold 36, core rod seat 37 and blowing core bar 38, blowing mold fixed plate 31 are set
In index dial component 2,32 one end of blowing guide rod is connect with blowing mold fixed plate 31, and 32 other end of blowing guide rod passes through blowing mould
Having pressing plate 33, blowing pressure spring 34 is sheathed on blowing guide rod 32 and is located at the part that blowing guide rod 32 stretches out blowing clamping cap 33,
Blowing lower die 35 is set to blowing mold fixed plate 31, and blowing upper mold 36 is set to blowing clamping cap 33, and core rod seat 37 is set to blowing
Mold fixed plate 31,38 one end of blowing core bar are connect with blowing mold fixed plate 31, and 38 other end of blowing core bar is placed under blowing
Between mould 35 and blowing upper mold 36;When tubing feeding, tubing is sheathed on blowing core bar 38, and tubing presses to blowing upper mold 36,
Blowing clamping cap 33 is moved up with respect to blowing lower die 35, and blowing pressure spring 34 is compressed.
Fig. 3 please be read again, as shown, in the present embodiment, the quantity of blowing guide rod 32 is two, two blowing guide rods 32
It is symmetrically set in 31 two sides of blowing mold fixed plate;When tubing is placed between blowing lower die 35 and blowing upper mold 36, two blowings
Guide rod 32 presses to 33 two sides of blowing clamping cap, makes tubing stress equalization.
Please refer to Fig. 2, Fig. 4, Fig. 2 is that pipe end of the invention is pinched molding and dotting integrated machine is removed the structure after hood and shown
It is intended to;Fig. 4 is that pipe end of the invention is pinched molding and the feed mechanism of dotting integrated machine removes the structural schematic diagram after vibrating disk.
As shown, in the present embodiment, feed mechanism 4 includes vibrating disk 41, hopper 42, feeding bracket 43, feeding mould 44 and feeding
Component 45, vibrating disk 41 are set to rack 1, and the feed end of hopper 42 is connected to the discharge end of vibrating disk 41, and feeding bracket 43 is set to
Rack 1, feeding mould 44 are set to feeding bracket 43, and feeding mould 44 is connected to the discharge end of hopper 42, and loading assemblies 45 include feeding
Actuator 451 and feeding bar 452, feeding actuator 451 set feeding bracket 43, and feeding actuator 451 uses feeding cylinder, feeding
452 one end of bar is connect with feeding actuator 451, and 452 other end of feeding bar protrudes into feeding mould 44;Tubing is transported to by vibrating disk 41
Hopper 42, the tubing in hopper 42 enter feeding mould 44 through the discharge end of hopper 42, and feeding actuator 451 pushes feeding bar 452
Tubing in feeding mould 44 is released from feeding mould 44, tubing enter blowing mould group 3 blowing lower die 35 and blowing upper mold 36 it
Between and cover be set on blowing core bar 38.
Fig. 4 please be read again, as shown, in the present embodiment, hopper 42 is set to the top of feeding mould 44, be set on feeding mould 44
There is the groove being adapted to tubing, the tubing in hopper 42 is directly entered by the discharge end of hopper 42 in the groove of feeding mould 44, on
Material bar 452 can move along groove under the action of feeding actuator 451 and the tubing in groove is promoted blowing mould group 3.
Fig. 4 please be read again, as shown, in the present embodiment, feeding bracket 43 is equipped with feeding sliding rail 431, feeding driving
Feeding connecting plate 453 is equipped between part 451 and feeding bar 452, feeding connecting plate 453 is equipped with feeding sliding block 454, drives in feeding
When moving part 451 drives feeding bar 452 to move along the groove of feeding mould 44, feeding sliding block 454 slides on feeding sliding rail 431.
Fig. 5, Fig. 6 are please referred to, Fig. 5 is that the structure for the precompressed mechanism that pipe end of the invention is pinched molding and dotting integrated machine is shown
It is intended to;Fig. 6 is the expanded view for the precompressed mechanism that pipe end of the invention is pinched molding and dotting integrated machine.As shown, in this reality
It applies in example, precompressed mechanism 5 includes pre-pressing die seat 51, two pre-pressing dies 52 and pre-pressing die driving assembly 53, pre-pressing die seat
51 are set to rack 1, and two pre-pressing dies 52 include precompressed angled-lift splits 521, pre- pressing die head 522 and elastic component, two precompressed angled-lift splits
521 are symmetrically set in pre-pressing die seat 51 and stretch out from 51 one end of pre-pressing die seat, and two pre- pressing die heads 522 are divided into two precompressed
One end of the stretching pre-pressing die seat 51 of angled-lift splits 521;Elastic component is set between two precompressed angled-lift splits 521;Pre-pressing die driving group
Part 53 includes precompressed actuator 531, sliding block jam plate 532 and two slide roofs 533, and precompressed actuator 531 is set to pre-pressing die seat
51 other ends, precompressed actuator 531 use pre- air cylinder, and sliding block jam plate 532 is connect with precompressed actuator 531, two slide roofs
533 are symmetrically set to sliding block jam plate 532 and protrude into pre-pressing die seat 51, two precompressed angled-lift splits 521 be placed in two sliding block jam plates 532 it
Between.
Fig. 6 please be read again, as shown, in the present embodiment, precompressed angled-lift splits 521 include forming part 5211 and sliding part
5212, pre-pressing die seat 51 is stretched out in 5211 one end of forming part, and two sliding parts 5212 are inclined-plane close to the side of molded sliding seat, and two is sliding
The distance between the one end of two inclined-planes far from pre-pressing die driving assembly 53 in dynamic portion 5212 is greater than two inclined-planes close to pre- pressing mold
Has the distance between one end of driving assembly 53;The inclined-plane side of each sliding part 5212 is equipped with beveling block 5213;Slide roof
533 sides corresponding with sliding part 5212 are the inclined-plane being adapted to sliding part 5212, and the inclined-plane side of slide roof 533, which is equipped with, to be slided
Slot 5331, beveling block 5213 are placed in sliding slot 5331;When slide roof 533 moves under the action of precompressed actuator 531, sliding block
The sliding slot 5331 of top plate 533 is moved along the beveling block 5213, since sliding part 5212 is close to pre-pressing die driving assembly 53
One end is close to each other, and when slide roof 533 is moved along beveling block 5213, two precompressed angled-lift splits 521 are close to each other.
Fig. 6 please be read again, as shown, in the present embodiment, 51 side wall of pre-pressing die seat is equipped with molding sliding slot 511, precompressed
Angled-lift splits 521 are equipped with forming slide 5214 close to the side of molding sliding slot 511, and forming slide 5214 slides on molding sliding slot 511;
When slide roof 533 pushes two precompressed angled-lift splits 521 close to each other, forming slide 5214 is moved along molding sliding slot 511, can be with
Avoid the mobile offset of precompressed beveling block 5213, when being pinched tubing, tubing uniform force.
Referring to Fig. 7, Fig. 7 is the structural representation for the shaping mechanism that pipe end of the invention is pinched molding and dotting integrated machine
Figure;In the present embodiment, shaping mechanism 6 includes shaped support 61, the first core package 62 and molding assembly 63, shaped support 61
Set on rack 1, the first core package 62 is set to shaped support 61, and the first core package 62 includes the first type core actuator 621, the
One type core sliding block 622 and the first type core 623, the first type core actuator 621 are set to shaped support 61, the first type core actuator 621
Using driving cylinder, the first type core sliding block 622 is connect with the first type core actuator 621, and the first type core 623 is sliding set on the first type core
Block 622;Molding assembly 63 includes shaping upper actuator 631, shaping upper 632, molding lower die actuator 633 and molding lower die
634, shaping upper actuator 631 is set to shaped support 61, and shaping upper actuator 631 is using driving cylinder, shaping upper 632
It is connect with shaping upper actuator 631, molding lower die actuator 633 is set to rack 1, and molding lower die actuator 633 is using driving
Cylinder, molding lower die 634 are connect with molding lower die actuator 633, and shaping upper 632 is oppositely arranged with molding lower die 634;When pre-
When tubing after pressure is transported at shaping mechanism 6, the first type core actuator 621 drives the first type core 623 to protrude into the pipe after precompressed
Material, shaping upper actuator 631 and molding lower die actuator 633 drive shaping upper 632 and molding lower die 634 it is close to each other will
Tubing compression moulding.
Fig. 7 please be read again, as shown, in the present embodiment, shaped support 61 is equipped with the first type core slide 624, first
When type core actuator 621 drives the first type core sliding block 622 mobile, the first type core sliding block 622 slides on the first type core slide 624.
Referring to Fig. 8, Fig. 8 is that pipe end of the invention is pinched the first striking mechanism of molding and dotting integrated machine and blows bits machine
The structure of structure and location diagram on the rack;As shown, in the present embodiment, the first striking mechanism 7 includes red needle group
Part 71, red needle driving assembly 72 and tubing fixation kit 73, red needle component 71 include that red needle pressing plate 711 and first gets red needle ready
712, red needle pressing plate 711 is set to blowing mold fixed plate 31, and red needle pressing plate 711 is equipped with red needle hole, and first, which gets red needle 712 ready, is set to
Red needle hole, blowing lower die 35 are equipped with the avoid holes being connected to red needle hole;Red needle driving assembly 72 includes getting fixed plate 721 ready, beating
Point and gets bolt 723 ready at actuator 722, gets fixed plate 721 ready set on rack 1, gets actuator 722 ready and is set to and gets fixed plate ready
721, actuator 722 is got ready using driving cylinder, is got bolt 723 ready and is connect with actuator 722 is got ready, tubing fixation kit 73 wraps
Fixed bracket 731, fixed actuator 732 and fixed push plate 733 are included, fixed bracket 731 is set to rack 1, and fixed actuator 732 is set
In fixed bracket 731, fixed actuator 732 is connect using driving cylinder, fixed push plate 733 with fixed actuator 732;Tubing by
Shaping mechanism 6 convey to after the first striking mechanism 7, fixed actuator 732 drives fixed push plate 733 that will compress on tubing,
Get ready actuator 722 drive first get ready red needle 712 protrude into blowing lower die 35 and to be located at blowing mould group 3 in outer pipe wall beat
Concave point out.
In the present embodiment, red needle hole includes the first red needle hole and the second red needle hole, the first red needle hole and the second red needle hole
Perforation, the first red needle hole are adapted to red needle, and the internal diameter in the second red needle hole is greater than the internal diameter in the first red needle hole, and first gets red needle ready
712 parts for being located at the second red needle hole are equipped with stop collar;During first gets red needle 712 ready with the movement of blowing mould group 3, the
One, which gets red needle 712 ready, to fall from red needle hole.
Referring to Fig. 9, Fig. 9 is the structural representation of the second striking mechanism of the structural schematic diagram of precompressed mechanism of the invention
Figure;As shown, in the present embodiment, the second striking mechanism 8 includes getting bracket 81, the second core package 82 ready and getting component ready
83, bracket 81 is got ready set on rack 1, and the second core package 82, which is set to, gets bracket 81 ready, and the second core package 82 includes second type
Core actuator 821, second type core sliding block 822 and second type core 823, second type core actuator 821, which is set to, gets bracket 81 ready, and second
Type core actuator 821 is using driving cylinder;Second type core sliding block 822 is connect with second type core actuator 821, second type core 823
Set on second type core sliding block 822;Getting component 83 ready includes red pin actuator 831, red pin seat 832, red pin 833, undershoot
Needle actuator 834, undershoot needle stand 835 and undershoot needle 836, red pin actuator 831 are set to and get bracket 81, red pin actuator ready
831 using driving cylinder;Red pin seat 832 is connect with red pin actuator 831, and red pin 833 is set to red pin seat 832, under
Red needle actuator 834 is set to rack 1, and undershoot needle actuator 834 is using driving cylinder, undershoot needle stand 835 and undershoot needle actuator
834 connections, undershoot needle 836 are set to undershoot needle stand 835, and red pin 833 is oppositely arranged with undershoot needle 836;Tubing is got ready by first
After mechanism 7 is transported at the second striking mechanism 8, second type core actuator 821 drives second type core 823 to protrude into tubing, red pin
Actuator 831 and undershoot needle actuator 834 drive red pin 833 and undershoot needle 836 to be located at 3 exterior portion of blowing mould group to tubing
Outer wall gets concave point.
Fig. 9 please be read again, as shown, in the present embodiment, get bracket 81 ready equipped with second type core slide 824, second
Type core sliding block 822 slides on second type core slide 824, when second type core actuator 821 drives second type core 823 mobile, second
Type core sliding block 822 is moved along second type core slide 824.
Fig. 9 please be read again, as shown, in this embodiment, second type core 823 and 836 corresponding position of red pin 833 and undershoot needle
It equipped with the second escape groove 8231, avoids at outer pipe wall dent, concave point is to pipe material inner wall protrusion by tubing and second type core
823 are nailed together.
Figure 10, Figure 11 are please referred to, Figure 10 is the structural schematic diagram of the unloading mechanism of precompressed mechanism of the invention;Figure 11 is to put
Expect the mechanism and location diagram of core bar and material returned loop bar.As shown, in the present embodiment, unloading mechanism 9 is solid including the material returned
Fixed board 91, material returned actuator 92, stripper 93, material returned loop bar 94 and receiving hopper 95, material returned fixed plate 91 are set to index dial component
2, material returned actuator 92 is set to material returned fixed plate 91, and material returned actuator 92 is using driving cylinder;Stripper 93 and material returned actuator
92 connections, material returned loop bar 94 are sheathed on blowing core bar 38, and receiving hopper 95 is set to rack 1, and receiving hopper 95 is opposite with stripper 93 to be set
It sets, when the material returned, material returned actuator 92 drives stripper 93 mobile to material returned loop bar 94 and pushes material returned loop bar 94, material returned loop bar 94
The tubing covered on blowing core bar 38 is turned down, tubing is collected along the landing of receiving hopper 95.
Fig. 3, Figure 11 please be read again, as shown, in the present embodiment, blowing core bar 38 includes core bar cap 381 and core bar sheet
Body 382, core rod seat 37 are equipped with through-hole, and core bar cap 381 is connect with core rod seat 37, and core bar ontology 382 passes through on core rod seat 37
Through-hole is placed between blowing lower die 35 and the blowing upper mold 36.
Figure 11 please be read again, as shown, in the present embodiment, the avoid holes pair on core bar ontology 382 and blowing lower die 35
Positive place is equipped with the first escape groove 3821;Avoid at outer pipe wall dent, concave point to pipe material inner wall protrusion by tubing with
Core bar ontology 382 is nailed together.
Figure 11 please be read again, as shown, in the present embodiment, material returned loop bar 94 includes set head 941, the first curved portion
942 and second curved portion 943, the first curved portion 942 and the second curved portion 943 connect with set head 941, the first curved portion 942
It is symmetrical arranged with the second curved portion 943, forms arc notch 944, blowing between the first curved portion 942 and the second curved portion 943
The core bar ontology 382 of core bar 38 is equipped with the arc bump 3822 that arc notch 944 is adapted to, and material returned loop bar 94 is sheathed on core bar ontology
382, arc bump 3822 is placed in arc notch 944;When material returned loop bar 94 is moved along blowing core bar 38, arc notch 944 with
Arc bump 3822 can be oriented to, while reduce the friction between material returned loop bar 94 and blowing core bar 38.
In the present embodiment, core bar cap 381 is equipped with positioning screw 39 and arc-shaped through-hole, and material returned loop bar 94 is set to positioning spiral shell
Bar 39, the first curved portion 942 and the second curved portion 943 pass through arc-shaped through-hole and are sheathed on core bar ontology 382.
Fig. 2, Fig. 8 please be read again, as shown, in the present embodiment, pipe end is pinched molding and dotting integrated machine further includes blowing
Consider mechanism 10 to be worth doing, Chui Xie mechanism 10 is set between the second striking mechanism 8 and unloading mechanism 9, and Chui Xie mechanism 10 includes blowing bits support base
101, bits tube head 102 and gas-tpe fitting 103 are blown, bits support base 101 is blown and is set to rack 1, bits tube head 102 is blown and is set to and blow bits support base
101, blow air inlet of the outlet side of bits tube head 102 towards index dial component 2 and with a blowing mould group 3 to bits tube head 102 just, is blown
End is connected to gas-tpe fitting 103, and Chui Xie mechanism 10 hangs the scrap that generation is processed in tubing.
Please read Fig. 1 again, as shown, in the present embodiment, rack 1 is equipped with hood 11, hood 11 by blowing mould group 3,
Feed mechanism 4, precompressed mechanism 5, shaping mechanism 6,9 mask of the first striking mechanism 7, the second striking mechanism 8 and unloading mechanism, both may be used
To guarantee safety, and each mechanism can be fallen into avoid dust, influence the work of each mechanism.
Fig. 1 please be read again, as shown, in the present embodiment, rack 1 is equipped with controller, index dial component 2, Ruo Ganfang
Expect mould group 3, feed mechanism 4, precompressed mechanism 5, shaping mechanism 6, the first striking mechanism 7, the second striking mechanism 8, Chui Xie mechanism 10
And unloading mechanism 9 is connect with controller, controller controls index dial component 2, several blowing mould groups 3, feed mechanism 4, precompressed
The actuation of mechanism 5, shaping mechanism 6, the first striking mechanism 7, the second striking mechanism 8, Chui Xie mechanism 10 and unloading mechanism 9 makes this
Invention may be implemented to automate.
The operation principle of the present invention is that: tubing is put into vibrating disk 41, vibrating disk 41 makes direction of the tubing according to processing when
Enter feeding mould 44 into hopper 42 and by hopper 42, feeding actuator 451 starts, and feeding bar 452 is pushed to enter feeding mould 44
And the tubing in feeding mould 44 is released into feeding mould 44, and enter tubing between blowing lower die 35 and blowing upper mold 36;Indexing
Disk component 2 drives blowing mould group 3 to rotate, and the blowing mould group 3 at feed mechanism 4 is transported to precompressed mechanism 5;Precompressed actuator
531 driving slide roofs 533 are mobile, and slide roof 533 is moved along the beveling block 5213 of precompressed angled-lift splits 521, keeps two precompressed oblique
Sliding block 521 relatively moves and compresses elastic component, and two pre- pressing die heads 522 are close to each other by Tube flatting;Precompressed actuator later
531 drive sliding roof to reset, and elastic component stretching, extension resets two precompressed angled-lift splits 521, and two pre- pressing die heads 522 are with precompressed angled-lift splits
521 reset;Index dial component 2 drives blowing mould group 3 to rotate, and the blowing mould group 3 at precompressed mechanism 5 is transported to shaping mechanism 6;
First type core actuator 621 drives tubing of the first type core 623 into the blowing mould group 3 at shaping mechanism 6 mobile, and makes first
Type core 623 protrudes into the tubing of blowing mould group 3, and shaping upper actuator 631 and molding lower die actuator 633 start simultaneously, and
Driving shaping upper 632 and molding, lower die 634 is close to each other forms tube extrusion;Later shaping upper actuator 631 and at
Type lower die actuator 633 drives shaping upper 632 and molding lower die 634 to reset, and the first type core actuator 621 drives the first type core
623 reset;Index dial component 2 drives blowing mould group 3 to rotate, and the blowing mould group 3 at shaping mechanism 6 is transported to the first dotting machine
Structure 7;Fixed actuator 732 drives fixed push plate 733 that will compress on tubing, get ready the drive of actuator 722 get ready bolt 723 to
First to get red needle 712 ready mobile, gets bolt 723 ready and pushes first to get red needle 712 ready and enters in blowing lower die 35 and put to being located at
Outer pipe wall in material mould group 3 gets concave point;It gets the drive of actuator 722 ready later and gets the reset of bolt 723 ready, first gets red needle ready
712 release out of blowing lower die 35, and fixed actuator 732 drives fixed push plate 733 to leave tubing;The drive of index dial component 2 is put
Expect that mould group 3 rotates, the blowing mould group 3 at the first striking mechanism 7 is transported to the second striking mechanism 8;Second type core actuator 821
It drives second type core 823 mobile to the blowing mould group 3 being located at the second striking mechanism 8 and protrudes into second type core 823 in tubing,
Red pin actuator 831 and undershoot needle actuator 834 drive red pin 833 and undershoot needle 836 mobile to tubing simultaneously, will be located at
Outer pipe wall outside blowing mould group 3 gets concave point;Red pin actuator 831 and undershoot needle actuator 834 drive red pin later
833 and undershoot needle 836 reset, second type core actuator 821 drive second type core 823 from tubing extract out;Index dial component 2 drives
Blowing mould group 3 rotates, and the blowing mould group 3 at the second striking mechanism 8 is transported to Chui Xie mechanism 10, Chui Xie mechanism 10 is to right with it
Positive tubing is blown, and makes to hang to the scrap inside positive tubing with it;Index dial component 2 drives blowing mould group 3 to rotate, will
Blowing mould group 3 at Chui Xie mechanism 10 is transported to unloading mechanism 9, and material returned actuator 92 starts, and drives stripper 93 to material returning sleeve
Bar 94 is mobile simultaneously to push material returned loop bar 94 to move along blowing core bar 38, by the tubing completed the process on blowing core bar 38 from blowing core
38 material returned of bar, the tubing completed the process fall into receiving hopper 95 and are slid by receiving hopper 95;The above movement of circulation.
The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and
Made any modification, equivalent replacement or improvement etc., should all be included in the protection scope of the present invention within principle.
Claims (10)
1. a kind of pipe end is pinched molding and dotting integrated machine characterized by comprising
Rack;
Index dial component is set to the rack;
Several blowing mould groups, several blowing mould groups are distributed in the index dial component;
Feed mechanism is set to the rack;
Precompressed mechanism is set to the rack and adjacent with the feed mechanism;
Shaping mechanism is set to the rack and adjacent with the precompressed mechanism;
First striking mechanism is set to the rack and adjacent with the shaping mechanism;
Second striking mechanism is set to the rack and adjacent with first striking mechanism;
Unloading mechanism is set to the rack and adjacent with second striking mechanism;
Wherein, the feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism, the second striking mechanism and unloading mechanism enclose
It is arranged around the index dial component and with a blowing mould group to just, the index dial component drives the blowing mould group to turn
It moves and successively get the blowing mould group to the feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism, second ready
Mechanism and unloading mechanism circulation conveying, the feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism and second are got ready
Mechanism successively carries out feeding, precompressed, molding and dent point to tubing, and the unloading mechanism is by the molding tubing of tube end maching from putting
Expect the material returned of mould group.
2. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the blowing mould group includes
Blowing mold fixed plate, blowing guide rod, blowing clamping cap, blowing pressure spring, blowing lower die, blowing upper mold, core rod seat and blowing
Core bar, the blowing mold fixed plate are set to index dial component, and the blowing guide rod and the blowing mold fixed plate connect
It connects, the blowing guide rod other end passes through the blowing clamping cap, and the blowing compression spring sleeve is set to the blowing guide rod and position
The part of the blowing clamping cap is stretched out in the blowing guide rod, the blowing lower die is set to the blowing mold fixed plate,
The blowing upper mold is set to the blowing clamping cap, and the core rod seat is set to the blowing mold fixed plate, the blowing core
Bar one end is connect with the blowing mold fixed plate, and the blowing core bar other end is placed on the blowing lower die and the blowing
Between mould.
3. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the feed mechanism includes
Vibrating disk, hopper, feeding bracket, feeding mould and loading assemblies, the vibrating disk are set to the rack, the feed end of the hopper
It is connected to the discharge end of the vibrating disk, the feeding branch is set up in the rack, and the feeding mould is set to feeding bracket, described
Feeding mould is connected to the discharge end of the hopper, and the loading assemblies include feeding actuator and feeding bar, the feeding driving
Part sets feeding bracket, and feeding bar one end is connect with feeding actuator, and the feeding bar other end protrudes into feeding mould.
4. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the precompressed mechanism includes
Pre-pressing die seat, two pre-pressing dies and pre-pressing die driving assembly, the pre-pressing die seat are set to the rack, two precompressed
Mold includes precompressed angled-lift splits, pre- pressing die head and elastic component, and the two precompressed angled-lift splits are symmetrically set to the pre-pressing die
It is stretched out in seat and from pre-pressing die seat one end, it is described pre- that the two pre- pressing die heads are divided into the two precompressed angled-lift splits stretchings
One end of compression mould seat;The elastic component is set between two precompressed angled-lift splits;The pre-pressing die driving assembly includes that precompressed is driven
Moving part, sliding block jam plate and two slide roofs, the precompressed actuator are set to the pre-pressing die seat other end, the sliding block jam plate
It is connect with the precompressed actuator, two slide roofs are symmetrically set to the sliding block jam plate and protrude into the pre-pressing die
Seat, the two precompressed angled-lift splits are placed between the two sliding block jam plates.
5. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the shaping mechanism includes
Shaped support, the first core package and molding assembly, the shaped support are set to the rack, and first core package is set to
The shaped support, first core package include the first type core actuator, the first type core sliding block and the first type core, and described the
One type core actuator is set to the shaped support, and the first type core sliding block connect with the first type core actuator, and described the
One type core is set to the first type core sliding block;The molding assembly includes shaping upper actuator, shaping upper, molding lower die drive
Moving part and molding lower die, the shaping upper actuator are set to the shaped support, the shaping upper and the shaping upper
Actuator connection, the molding lower die actuator are set to the rack, and the molding lower die and the molding lower die actuator connect
It connects, the shaping upper is oppositely arranged with the molding lower die.
6. pipe end according to claim 2 is pinched molding and dotting integrated machine, which is characterized in that first striking mechanism
Including red needle component, red needle driving assembly and tubing fixation kit, the red needle component includes red needle pressing plate and the first dotting punch
Needle, the red needle pressing plate are set to the blowing mold fixed plate, and the red needle pressing plate is equipped with red needle hole, and described first gets red needle ready
Set on the red needle hole, the blowing lower die is equipped with the avoid holes being connected to the red needle hole;The red needle driving assembly includes
It gets fixed plate ready, get actuator ready and gets bolt ready, set on the rack, the actuator of getting ready is set to the fixed plate of getting ready
Described to get fixed plate ready, the bolt of getting ready is connect with the actuator of getting ready, the tubing fixation kit include fixed bracket,
Fixed actuator and fixed push plate, the fixed branch are set up in the rack, and the fixed actuator is set to the fixed bracket,
The fixed push plate is connect with the fixed actuator.
7. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that second striking mechanism
Including getting bracket, the second core package ready and getting component ready, the branch of getting ready is set up in the rack, second core package
Bracket is got ready set on described, and second core package includes second type core actuator, second type core sliding block and second type core, institute
It states second type core actuator and gets bracket ready set on described, the second type core sliding block is connect with the second type core actuator, institute
Second type core is stated set on the second type core sliding block;It is described get ready component include red pin actuator, red pin seat, red pin,
Undershoot needle actuator, undershoot needle stand and undershoot needle, the red pin actuator be set to it is described get bracket ready, the red pin seat with
The red pin actuator connection, the red pin are set to the red pin seat, and the undershoot needle actuator is set to the rack,
The undershoot needle stand is connect with the undershoot needle actuator, and the undershoot needle is set to the undershoot needle stand, the red pin and institute
Undershoot needle is stated to be oppositely arranged.
8. pipe end according to claim 2 is pinched molding and dotting integrated machine, which is characterized in that the unloading mechanism includes
Material returned fixed plate, material returned actuator, stripper, material returned loop bar and receiving hopper, the material returned fixed plate are set to the index dial group
Part, the material returned actuator are set to the material returned fixed plate, and the stripper is connect with the material returned actuator, the material returning sleeve
Rod set is set to the blowing core bar, and the receiving hopper is set to the rack, and the receiving hopper is oppositely arranged with the stripper.
9. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the pipe end is pinched molding
And dotting integrated machine further includes Chui Xie mechanism, the Chui Xie mechanism be set to second striking mechanism and the unloading mechanism it
Between, the Chui Xie mechanism includes blowing bits support base, blowing bits tube head and gas-tpe fitting, and the bits support base that blows is set to the rack,
It is described blow bits tube head be set to it is described blow bits support base, the outlet side for blowing bits tube head towards the index dial component and with one
To just, the inlet end for blowing bits tube head is connected to the blowing mould group with the gas-tpe fitting.
10. pipe end according to claim 1 is pinched molding and dotting integrated machine, which is characterized in that the rack is equipped with
Hood, the hood get the blowing mould group, feed mechanism, precompressed mechanism, shaping mechanism, the first striking mechanism, second ready
Mechanism and unloading mechanism mask.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910691256.4A CN110405058B (en) | 2019-07-29 | 2019-07-29 | Pipe end flattening forming and dotting integrated machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910691256.4A CN110405058B (en) | 2019-07-29 | 2019-07-29 | Pipe end flattening forming and dotting integrated machine |
Publications (2)
Publication Number | Publication Date |
---|---|
CN110405058A true CN110405058A (en) | 2019-11-05 |
CN110405058B CN110405058B (en) | 2021-07-09 |
Family
ID=68363921
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910691256.4A Active CN110405058B (en) | 2019-07-29 | 2019-07-29 | Pipe end flattening forming and dotting integrated machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN110405058B (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3585698A (en) * | 1969-06-04 | 1971-06-22 | Philips Corp | Method of manufacturing a telescopic tube |
CN203155862U (en) * | 2013-01-22 | 2013-08-28 | 黄伟明 | Forming clamping device used for metal pipe two-end forming mechanism |
CN203887085U (en) * | 2014-06-09 | 2014-10-22 | 中山市富菱斯机电设备有限公司 | Full-automatic pipe end forming machine |
CN206464445U (en) * | 2017-02-28 | 2017-09-05 | 广东远见精密五金股份有限公司 | Diel with position limiting slide block |
CN109622661A (en) * | 2019-01-16 | 2019-04-16 | 中山市佰斯特自动化设备有限公司 | A kind of three-way forming dotting integrated machine |
-
2019
- 2019-07-29 CN CN201910691256.4A patent/CN110405058B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3585698A (en) * | 1969-06-04 | 1971-06-22 | Philips Corp | Method of manufacturing a telescopic tube |
CN203155862U (en) * | 2013-01-22 | 2013-08-28 | 黄伟明 | Forming clamping device used for metal pipe two-end forming mechanism |
CN203887085U (en) * | 2014-06-09 | 2014-10-22 | 中山市富菱斯机电设备有限公司 | Full-automatic pipe end forming machine |
CN206464445U (en) * | 2017-02-28 | 2017-09-05 | 广东远见精密五金股份有限公司 | Diel with position limiting slide block |
CN109622661A (en) * | 2019-01-16 | 2019-04-16 | 中山市佰斯特自动化设备有限公司 | A kind of three-way forming dotting integrated machine |
Also Published As
Publication number | Publication date |
---|---|
CN110405058B (en) | 2021-07-09 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN110548783B (en) | Automatic production device for overturning slide-pulling plate of medical gauze textile machine | |
CN106111795B (en) | For processing the progressive die of automotive starter shell | |
CN110405058A (en) | A kind of pipe end is pinched molding and dotting integrated machine | |
CN207386526U (en) | Die casting cover half and die casting | |
ITMI20131557A1 (en) | MACHINE FOR THE CONSTRUCTION OF CONTAINERS IN THERMOPLASTIC MATERIAL | |
CN210586743U (en) | Support flanging hole flanging tool | |
EP1433580A2 (en) | Method and apparatus for producing ceramic products | |
CN103691818B (en) | Dual-power composite die | |
CN206613915U (en) | The progressive die with side punching | |
JPS58157521A (en) | Method and apparatus for manufacturing gear | |
KR101127134B1 (en) | Press | |
CN109262988A (en) | A kind of automatic stripping die for bend pipe tools | |
CN211915292U (en) | Automobile cover plate stamping die with ejection device | |
CN207681365U (en) | A kind of fan screen former | |
KR101579531B1 (en) | Bending device | |
CN109070186B (en) | Cold forging forming device with shape object direction conversion function | |
CN110227763A (en) | Double action press, the mould bases for double action press and installation mold assembly method | |
CN207547405U (en) | A kind of stretching mold device for the whole bottom of part | |
CN110238285A (en) | A kind of molding die and forming method preventing thin material product de- material deformation | |
CN219686464U (en) | Ejection mechanism for full-circumference thread production | |
CN215203286U (en) | Injection mold device | |
CN212707983U (en) | Setting device of polyethylene sheet | |
CN220611915U (en) | Metal mold with stretching mechanism | |
CN215845217U (en) | Anti-destabilization back extrusion die | |
CN108819137A (en) | A kind of efficient molding die of automobile case of included demoulding functions |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20221014 Address after: No. 101, block 5, phase I, tianfulai international industrial city, No. 39, Changbao West Road, Ronggui Rongli neighborhood committee, Shunde District, Foshan City, Guangdong Province, 528000 Patentee after: FOSHAN SHUNDE LAIXIONG HARDWARE MACHINE Co.,Ltd. Address before: 528000 No. 604, Block E, hongyayuan, Zhenhua Road, Ronggui street, Shunde District, Foshan City, Guangdong Province Patentee before: Bai Zunmin |