CN207464306U - The integration apparatus of highorder accuracy schemes fixed ruler cutting - Google Patents
The integration apparatus of highorder accuracy schemes fixed ruler cutting Download PDFInfo
- Publication number
- CN207464306U CN207464306U CN201721610786.4U CN201721610786U CN207464306U CN 207464306 U CN207464306 U CN 207464306U CN 201721610786 U CN201721610786 U CN 201721610786U CN 207464306 U CN207464306 U CN 207464306U
- Authority
- CN
- China
- Prior art keywords
- tubing
- cutting
- processed
- feeding
- crossbeam
- 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.)
- Active
Links
Landscapes
- Sawing (AREA)
Abstract
The utility model discloses a kind of integration apparatus of highorder accuracy schemes fixed ruler cutting, including tube stock loading device, the first transmission mechanism, the first scale fixed length mechanism, the first delivery device, the first cutting mechanism, the first position-limit mechanism, lifting mechanism, transition mechanism, the second transmission mechanism, the second scale fixed length mechanism, the second delivery device, the second cutting mechanism, the second position-limit mechanism and tubular material blanking apparatus.The utility model is novel in design, it can be achieved that the precise positioning at highorder accuracy schemes both ends and accurate cut-out, stabilization of equipment performance is good, while decreases manual operation intensity, improves production efficiency, easy to operate, high degree of automation.
Description
Technical field
The utility model belongs to highorder accuracy schemes fixed ruler cutting technical field, and in particular to a kind of highorder accuracy schemes scale is cut
Disconnected integration apparatus.
Background technology
Highorder accuracy schemes, such as high-precision Zirconium tube, high-precision titanium pipe, accurate stainless steel pipe, accurate copper pipe and Precision Aluminum
Tubing etc. because of its outstanding physical and chemical properties, is widely used in core frequently as structural member, covering material, guide material etc.
The high-tech areas such as electricity, aerospace and military project.Such tubing is usually to straightness, inside and outside surface quality, dimensional accuracy, end face
Quality and physics, chemical property requirement are high, thus tubing should be carried out in process of production precision straightening, appearance mirror polish,
Inner surface sandblasting and some row non-destructive testings etc., and fixed ruler cutting is the finishing operation of tubing production, belongs to irreversible procedure, if
It cuts off size or quality is unstable or inefficiency, it will directly contribute that tubing by the gross is scrapped or the production cycle lengthens, and then
Cause huge economic loss.At present, for highorder accuracy schemes fixed ruler cutting there are mainly two types of mode, one kind is using disk sawing
It is disconnected;Another is the integration apparatus of the fixed ruler cutting of external import.Because highorder accuracy schemes are small outer radial thin-wall pipes, adopt
When being processed with first way, the grasp of circular saw sawing feed speed depends on the experience and level of operating personnel, into
It is likely to result in nozzle distortion to speed is excessive and scraps tubing, meanwhile, there are many scrap for cutting off generation, it is easy to tubing
Surfaces externally and internally causes to damage, and such processing method is too high to the degree of dependence of operating personnel's technical merit, product quality stability
It is difficult to control, is unfavorable for producing in batches.Second of processing method realized by fixed ruler cutting integration apparatus, machining accuracy
Height, product quality are stablized, and tubing to be processed repeatedly can be clamped and moved, so as to easily cause surface tear, crush and touch
Wound makes product quality risk always in higher state, and principle is extremely complex, so as to cause device structure, design, manufacture and
The drawbacks of assembly difficulty is very high, and equipment is maximum is exactly that working ability is limited, can only meet and tubing is carried out in the range of very little
Processing, it is impossible to meet actual production demand, it is relatively high to operating personnel's technical merit and experience degree of dependence.
Utility model content
The technical problem to be solved by the utility model is to the deficiencies in for the above-mentioned prior art, provide a kind of high-precision
The integration apparatus of tubing fixed ruler cutting is spent, it is novel in design rationally, it can be achieved that the precise positioning and essence at highorder accuracy schemes both ends
Definite disconnected, stabilization of equipment performance is good, while decreases manual operation intensity, improves production efficiency, easy to operate, automates journey
Degree is high, convenient for batch production, convenient for promoting the use of.
In order to solve the above technical problems, the technical solution adopted in the utility model is:The one of highorder accuracy schemes fixed ruler cutting
Body equipment, including tube stock loading device, processing platform and tubular material blanking apparatus, it is characterised in that:The processing platform includes
Stent and be installed on stent be used for tubing one end to be processed carry out fixed ruler cutting the first processing unit (plant), for institute
State the first processing unit (plant) processing after tubing transmitted transition apparatus, for the tubing other end to be processed carry out scale cut
Disconnected the second processing unit (plant), the turnover device overturn for the tubing after being processed to second processing unit (plant), overturning dress
It puts and coordinates with tubular material blanking apparatus;First processing unit (plant) and the second processing unit (plant) structure are identical, first processing unit (plant)
Including coordinating and being used for transmission the first transmission mechanism of tubing to be processed with tube stock loading device, carry out fixed length to tubing to be processed
The first scale fixed length mechanism, with the first scale fixed length mechanism cooperation the first delivery device, to tubing one end to be processed carry out
The first position-limit mechanism that tubing to be processed after cutting the first cutting mechanism blocked and being cut to one end is limited;The mistake
It crosses device and includes the lifting mechanism and and lifting mechanism that coordinate the tubing to be processed after transmitting one end cutting with the first transmission mechanism
Cooperation receives the transition mechanism of the tubing to be processed after the cutting of one end;Second processing unit (plant) includes being used for transmission transition mechanism
Second transmission mechanism of the tubing to be processed after upper one end cutting carries out the second of fixed length to the tubing to be processed after the cutting of one end
Scale fixed length mechanism, with the second delivery device of second scale fixed length mechanism cooperation, one end is cut after tubing to be processed
The other end carries out the second cutting mechanism that cutting is blocked and the second position-limit mechanism limited to the tubing after the cutting of both ends.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The stent include supporting rack and
It two support bases for being separately positioned on support frame as described above both ends and is installed on support frame as described above and is mutually parallel and be laid in
First crossbeam, second cross beam, third crossbeam and the 4th crossbeam between two support bases, first crossbeam, second cross beam,
Three crossbeams are horizontally disposed tablet crossbeam, and the 4th crossbeam is the riser horizontal stroke for being arranged on second cross beam close to third crossbeam side
Beam.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:First transmission mechanism includes
First tablet, the first servo motor for being arranged on first tablet one end and multiple the first teeth laid along the first slab length direction
Commutator is taken turns, the first servo motor is connect with multiple first gear commutators by a multiple commutator connecting shafts successively word, the
One gear tumbler is provided with the first transmission shaft close to the side of tube stock loading device, and first transmission shaft is far from first gear
One end of commutator is equipped with the first transmission wheel, and the first transmission wheel is located at the surface of first crossbeam, the first tablet and the first horizontal stroke
Beam is parallel to be arranged between two support bases, and first gear commutator is mounted on first by first gear commutator seat
On tablet.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The first scale fixed length mechanism
It is installed on first crossbeam with the first position-limit mechanism, the first scale fixed length mechanism includes first slide and is arranged on first slide
On the first positioning table and the first scale fixed length reference block being arranged on the first positioning table and first limiting grab;First
Position-limit mechanism includes the first fixed seat, the first riser for being arranged in the first fixed seat and to be arranged on the first riser fixed close to first
First limited block of ruler fixed length mechanism side is embedded with pressure sensing on the first scale fixed length reference block and the first limited block
Device.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:First cutting mechanism includes
It first pneumatics main shaft holder, the first motor for driving the rotation of the first pneumatics main shaft holder and connects with the first pneumatics main shaft holder
First precise cross-shaped slide unit, intracavitary is provided with first coordinated with the first scale fixed length reference block and surveys in the first precise cross-shaped slide unit
Distance meter;First delivery device includes the first babinet, the first push cylinder for being fixed in the first babinet and is arranged on first
Babinet is outer and stretches to the first push block of intracavitary in the first precise cross-shaped slide unit, and the first push block is successively by the first push
Bar, the first spring and the first push cylinder telescopic rod are connect with the first push cylinder, and installation is useful on the inside of the top plate of the first babinet
In the first spring mounting seat for supporting the first spring, the first cutting mechanism and the first delivery device are installed in close to the first servo
On the support base of motor one end, the first push block, the first scale fixed length reference block and the first limited block and the first pneumatics main shaft press from both sides
The folder cylinder central axes of seat are located along the same line;
First motor drives the first pneumatics main shaft holder to rotate by belt, and the first precise cross-shaped slide unit is by the first knife
Tool fixed station, the first blade on the first cutter fixed station, the first X-axis servo that the first blade is driven to move along the x-axis
Motor and the first Y-axis servo motor composition that the first blade is driven to be moved along Y-axis.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The lifting mechanism includes rotation
Lifting main shaft, the lifting cylinder and multiple be fixedly mounted on that are connect by articulation piece with rotation lifting main shaft are rotated on lifting main shaft
Lifting pushing hands, lifting cylinder by lifting cylinder installation pad be mounted on second cross beam on, rotation lifting main shaft pass through rotate lift
Lifting shaft is held on lifting spindle drum, and the quantity of lifting spindle drum and rotation lifting bearing is multiple.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The transition mechanism is by multiple mistakes
Cab apron forms, and rebound is provided with transition block close to tubular material blanking apparatus one end, and the bottom end of rebound is stretched by first
Contracting nut is fixed in First Transition plate mounting base, and the bottom other end of rebound is fixed on the second mistake by the second flexible nut
In cab apron mounting base, First Transition plate mounting base is mounted on third crossbeam, and the second rebound mounting base is mounted on the 4th crossbeam
On.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The turnover device includes overturning
Main shaft overturns the overturning on main shaft and pushes away by overturning articulation piece with overturning the tumble cylinder that connect of main shaft and multiple be fixedly mounted on
Hand, tumble cylinder are mounted on third crossbeam close to the side of tubular material blanking apparatus by tumble cylinder installation pad, and overturning main shaft leads to
It crosses overturning bearing to be mounted on overturning spindle drum, overturning spindle drum and the quantity for overturning bearing are multiple;
Second scale fixed length mechanism and the second position-limit mechanism are installed on third crossbeam, and the second position-limit mechanism includes second
Fixed seat, the second riser being arranged in the second fixed seat and second riser is arranged on close to the second scale fixed length mechanism one
Second limited block of side is embedded with pressure sensor on the second limited block.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The tube stock loading device includes
Stock shelf and the feeding platform being arranged at the top of stock shelf, the feeding platform are made of the feeding bar of multiple parallel settings, feeding
The both ends of bar are mounted on feeding pole socket, and the bottom of feeding pole socket is fixed on by the feeding nut that stretches on stock shelf, feeding bar
One end both sides arranged in dislocation close to the processing platform has a feeding block and feeding lifting mechanism, feeding lifting mechanism and described
The distance of processing platform is more than the distance of feeding block and the processing platform, feeding lifting mechanism and the processing platform away from
From and feeding block and the processing platform with a distance from difference be equal to tubing to be processed diameter, feeding lifting mechanism include written examination
Cylinder and the slanted kicking block for being arranged on the written examination Telescopic-cylinder end, the slanted kicking block is described close to one end of the processing platform
The low level of slanted kicking block.
The integration apparatus of above-mentioned highorder accuracy schemes fixed ruler cutting, it is characterised in that:The tubular material blanking apparatus includes
Blanking rack and the blanking bench being arranged at the top of the blanking rack, the blanking bench by multiple parallel settings the bar group of material obliquely downward
Into the described one end of material bar obliquely downward far from the processing platform is provided with blanking block, and the bar of material obliquely downward installs the blanking
One end of block is the low level for expecting bar obliquely downward.
The utility model has the following advantages compared with prior art:
1st, tubing to be processed is transmitted to by the first transmission mechanism in the first cutting mechanism by the utility model, utilizes first
Scale fixed length mechanism determines the residue length of tubing to be processed processing for the first time, utilizes the first delivery device and the first scale fixed length
Tubing position to be processed is fixed by mechanism, and tubing to be processed is implemented using the first cutting mechanism to process for the first time, is completed to be processed
The Length-fixing cutting of tubing one end;Tubing to be processed is transmitted to by the second transmission mechanism in the second cutting mechanism, utilizes second
Scale fixed length mechanism determines second of residue length processed of tubing to be processed, utilizes the second delivery device and the second scale fixed length
Tubing position to be processed is fixed by mechanism, implements second to tubing to be processed using the second cutting mechanism and processes, completes to be processed
The Length-fixing cutting of the tubing other end;The tubing processed is being transmitted to by the second position-limit mechanism of touching by the second transmission mechanism,
It realizes the limiting of tubing, avoids the landing of tubing.
2nd, the tubing processed for the first time is transitted to second by the utility model by setting lifting mechanism and transition mechanism
The tubing of cut-out is transmitted to tubular material blanking apparatus by transmission mechanism using turnover device, and reliable and stable, using effect is good.
3rd, the utility model is novel in design rationally, and one is formed by tube stock loading device, processing platform and tubular material blanking apparatus
Body process equipment realizes feeding, transmission, fixed length, clamping, rotation, cut-out and the blanking action of highorder accuracy schemes, completes high-precision
The processing at tubing both ends is spent, complete function without manual intervention, reduces horizontal to operating personnel's operation and experience dependence journey
Degree, ensure that the stability of product quality, convenient for promoting the use of.
In conclusion the utility model is novel in design rationally, it can be achieved that the precise positioning at highorder accuracy schemes both ends and accurate
Cut-out, stabilization of equipment performance is good, while decreases manual operation intensity, improves production efficiency, easy to operate, the degree of automation
Height, convenient for batch production, convenient for promoting the use of.
Below by drawings and examples, the technical solution of the utility model is described in further detail.
Description of the drawings
Fig. 1 is the structure diagram of the utility model.
Fig. 2 is the structure diagram of the utility model tube stock loading device.
Fig. 3 is the structure diagram of the first transmission mechanism of the utility model.
Fig. 4 shows for the mounting structure of the first position-limit mechanism of the utility model and the first scale fixed length mechanism on first crossbeam
It is intended to.
Fig. 5 is the structure diagram of the first delivery device of the utility model.
Fig. 6 is the structure diagram of the first cutting mechanism of the utility model.
Fig. 7 is mounting structure schematic diagram of the utility model lifting mechanism on second cross beam.
Fig. 8 is mounting structure schematic diagram of the utility model rebound between third crossbeam and the 4th crossbeam.
Fig. 9 is the mounting structure schematic diagram of the second position-limit mechanism of the utility model and turnover device on third crossbeam.
Reference sign:
1-tube stock loading device;1-2-feeding bar;1-3-feeding pole socket;
1-4-feeding stretches nut;1-5-feeding block;1-6-feeding lifting mechanism;
1-7-stock shelf;2-the first transmission mechanism;The tablets of 2-1-first;
2-2-first gear commutator seat;2-3-first gear commutator;
2-4-commutator connecting shaft;The servo motors of 2-5-first;The transmission wheels of 2-6-first;
3-the first scale fixed length mechanism;3-1-first slide;The positioning tables of 3-2-first;
The scale fixed length reference blocks of 3-3-first;The limitings of 3-4-first are grabbed;
4-the first delivery device;The babinets of 4-1-first;The push cylinders of 4-2-first;
The push cylinder telescopic rods of 4-3-first;The springs of 4-4-first;
The spring mounting seats of 4-5-first;The push rod of 4-6-first;The push blocks of 4-7-first;
5-the first cutting mechanism;The motors of 5-1-first;5-2-belt;
The pneumatics main shaft holders of 5-3-first;The cutter fixed stations of 5-4-first;
The blades of 5-5-first;The precise cross-shaped slide units of 5-6-first inner cavity;
The Y-axis servo motors of 5-7-first;The X-axis servo motors of 5-8-first;
The rangefinders of 5-9-first;6-the first position-limit mechanism;The fixed seats of 6-1-first;
The risers of 6-2-first;The limited blocks of 6-3-first;7-lifting mechanism;
7-1-lifting cylinder installation pad;7-2-lifting cylinder;7-3-articulation piece;
7-4-rotation lifting main shaft;7-5-lifting spindle drum;7-6-rotation lifting bearing;
7-7-lifting pushing hands;8-transition mechanism;
8-1-First Transition plate mounting base;The rebound mounting bases of 8-2-second;
The flexible nut of 8-3-the first;The flexible nut of 8-4-the second;8-5-rebound;
8-6-transition block;9-the second transmission mechanism;
10-the second scale fixed length mechanism;11-the second delivery device;
12-the second cutting mechanism;13-the second position-limit mechanism;The fixed seats of 13-1-second;
The limited blocks of 13-2-second;14-turnover device;
14-1-tumble cylinder installation pad;14-2-tumble cylinder;
14-3-overturning articulation piece;14-4-overturning main shaft;14-5-overturning spindle drum;
14-6-overturning bearing;14-7-overturning pushing hands;15-tubular material blanking apparatus;
16-stent;16-1-first crossbeam;16-2-second cross beam;
16-3-third crossbeam;The crossbeams of 16-4-the 4th.
Specific embodiment
As shown in Figure 1, the utility model includes tube stock loading device 1, processing platform and tubular material blanking apparatus 15, it is described to add
Work platform includes stent 16 and is installed in be used to add to the first of tubing one end to be processed progress fixed ruler cutting on stent 16
Tooling puts, is transmitted for the tubing after being processed to first processing unit (plant) transition apparatus, for tubing to be processed
The other end carries out the second processing unit (plant) of fixed ruler cutting, for what is overturn to the tubing after second processing unit (plant) processing
Turnover device 14, turnover device 14 coordinate with tubular material blanking apparatus 15;First processing unit (plant) and the second processing unit (plant) structure
Identical, first processing unit (plant) includes the first conveyer for coordinating and being used for transmission tubing to be processed with tube stock loading device 1
Structure 2, the first scale fixed length mechanism 3 that fixed length is carried out to tubing to be processed, the first push coordinated with the first scale fixed length mechanism 3
Mechanism 4, the first cutting mechanism 5 for blocking of cutting is carried out to tubing one end to be processed and one end is cut after tubing to be processed into
First position-limit mechanism 6 of row limiting;The transition apparatus includes coordinating with the first transmission mechanism 2 to be added after transmitting one end cutting
The lifting mechanism 7 of work tubing and the transition mechanism 8 for coordinating the tubing to be processed after receiving one end cutting with lifting mechanism 7;It is described
Second processing unit (plant) includes being used for transmission the second transmission mechanism 9 of the tubing to be processed after the cutting of one end on transition mechanism 8, to one
Tubing to be processed after the cutting of end carries out the second scale fixed length mechanism 10 of fixed length, the with the second scale fixed length mechanism 10 cooperation
Two delivery devices 11, one end is cut after the other end of tubing to be processed carry out the second cutting mechanism 12 for blocking of cutting and right
The second position-limit mechanism 13 that tubing after the cutting of both ends is limited.
In actual use, whole control is carried out to integration apparatus using industrial personal computer, it will be to be added using tube stock loading device 1
Work tubing is sent into the first transmission mechanism 2, and tubing to be processed is transmitted to by the first transmission mechanism 2 in the first cutting mechanism 5, profit
The residue length of tubing to be processed processing for the first time is determined with the first scale fixed length mechanism 3, utilizes the first delivery device 4 and first
Tubing position to be processed is fixed by scale fixed length mechanism 3, and tubing to be processed is implemented using the first cutting mechanism 5 to process for the first time,
Complete the Length-fixing cutting of tubing one end to be processed;The tubing transition that will be processed for the first time using lifting mechanism 7 and transition mechanism 8
To the second transmission mechanism 9, tubing to be processed is transmitted by the second transmission mechanism in 9 to the second cutting mechanisms 12, utilizes second
Scale fixed length mechanism 10 determines second of residue length processed of tubing to be processed, utilizes the second delivery device 11 and the second scale
Tubing position to be processed is fixed by fixed length mechanism 10, implements second to tubing to be processed using the second cutting mechanism 12 and processes, complete
Into the Length-fixing cutting of the tubing other end to be processed;The tubing processed is being transmitted to by touching second by the second transmission mechanism 9
Position-limit mechanism 13 realizes the limiting of tubing, avoids the landing of tubing.The tubing of cut-out is transmitted to tubing using turnover device 14
Blanking device 15 realizes feeding, transmission, fixed length, clamping, rotation, cut-out and the blanking action of highorder accuracy schemes, completes high-precision
The processing at tubing both ends, complete function without manual intervention, reduce horizontal to operating personnel's operation and experience dependence journey
Degree, ensure that the stability of product quality.
It should be noted that first processing unit (plant) includes the first transmission mechanism 2, the first scale fixed length mechanism 3, first
Delivery device 4, the first cutting mechanism 5 and the first position-limit mechanism 6;Second processing unit (plant) includes the second transmission mechanism 9, second
Scale fixed length mechanism 10, the second delivery device 11, the second cutting mechanism 12 and the second position-limit mechanism 13, due to the described first processing
Device and the second processing unit (plant) structure are identical, i.e. the first transmission mechanism 2 is identical with the structure of the second transmission mechanism 9, the first scale
Fixed length mechanism 3 is identical with the structure of the second scale fixed length mechanism 10, the structure phase of the first delivery device 4 and the second delivery device 11
Together, the first cutting mechanism 5 is identical with the structure of the second cutting mechanism 12, the knot of the first position-limit mechanism 6 and the second position-limit mechanism 13
Structure is identical, and in actual use, the effect of first processing unit (plant) is to realize the scale and cut-out of coffin one end to be processed, described
The effect of second processing unit (plant) is to realize scale and the cut-out of the coffin other end to be processed, therefore, described when actual installation is laid
First processing unit (plant) and the second processing unit (plant) are front and rear on stent 16, and the installation relation position phase between each mechanism
Instead.
As shown in Fig. 1, Fig. 4, Fig. 7 and Fig. 8, in the present embodiment, the stent 16 includes supporting rack and two are set respectively
Support frame as described above both ends support base and be installed on support frame as described above and be mutually parallel and be laid in two supports
First crossbeam 16-1, second cross beam 16-2, third crossbeam 16-3 and the 4th crossbeam 16-4 between seat, first crossbeam 16-1, the
Two crossbeam 16-2, third crossbeam 16-3 are horizontally disposed tablet crossbeam, and the 4th crossbeam 16-4 is is arranged on second cross beam 16-
2 close to third crossbeam 16-3 sides riser crossbeam.
As shown in figure 3, in the present embodiment, first transmission mechanism 2 includes the first tablet 2-1, is arranged on the first tablet
The first servo motor 2-5 of 2-1 one end and multiple first gear commutator 2-3 laid along the first tablet 2-1 length directions, the
One servo motor 2-5 is connect with multiple first gear commutator 2-3 by a multiple commutator connecting shaft 2-4 successively word, and first
Gear tumbler 2-3 is provided with the first transmission shaft close to the side of tube stock loading device 1, and first transmission shaft is far from the first tooth
One end of wheel commutator 2-3 is equipped with the first transmission wheel 2-6, the first transmission wheel 2-6 and is located at the surface of first crossbeam 16-1, the
One tablet 2-1 is parallel with first crossbeam 16-1 to be arranged between two support bases, and first gear commutator 2-3 passes through
One gear tumbler seat 2-2 is mounted on the first tablet 2-1.
It should be noted that the first servo motor 2-5 is arranged on first tablet 2-1 one end, changed with what multiple words were connect
To the 2-4 connections of device connecting shaft, since the commutator connecting shaft 2-4 for driving multiple word connections is rotated coaxially, multiple commutators connect
Spindle 2-4 and multiple first gear commutator 2-3 are sequentially connected, and then rotate in same direction multiple first gear commutator 2-3, from
And multiple first transmission wheel 2-6 are driven, in actual use, the first servo motor 2-5 is mounted on the right end of the first tablet 2-1, more
When a first transmission wheel 2-6 is rotated clockwise, tubing to be processed can be transported and moved right, multiple first transmission wheel 2-6 are inverse
When hour hands rotate, tubing to be processed can be transported and be moved to the left, the first transmission wheel 2-6 is located at the surface of first crossbeam 16-1, mesh
Be easy for coordinate with the first scale fixed length mechanism 3 installed on first crossbeam 16-1 and the first position-limit mechanism 6.
In actual use, the second transmission mechanism 9 is identical with the structure of the first transmission mechanism 2, therefore, second conveyer
Structure 9 include the second tablet, be arranged on second tablet one end the second servo motor and it is multiple along the second slab length direction lay
Second gear commutator, the second servo motor and multiple second gear commutators pass through a multiple commutator connecting shafts successively word
Connection, second gear commutator are provided with second driving shaft close to the side of tubular material blanking apparatus 15, and the second driving shaft is remote
One end from second gear commutator is equipped with the second transmission wheel, and the second transmission wheel is located at the surface of third crossbeam 16-3, the
Two tablets are parallel with third crossbeam 16-3 to be arranged between two support bases, and second gear commutator passes through second gear
Commutator seat be mounted on the second tablet on, in actual installation, the second servo motor be mounted on the second tablet left end, multiple second
When transmission wheel rotates clockwise, tubing to be processed can be transported and be moved to the left, it, can when multiple second transmission wheels rotate counterclockwise
It transports tubing to be processed to move right, the second transmission wheel is located at the surface of third crossbeam 16-3, it is therefore an objective to convenient for horizontal with third
The the second scale fixed length mechanism 10 installed on beam 16-3 and the second position-limit mechanism 13 coordinate.
As shown in figure 4, in the present embodiment, the first scale fixed length mechanism 3 and the first position-limit mechanism 6 are installed in first
On crossbeam 16-1, the first scale fixed length mechanism 3 includes first slide 3-1 and the first positioning table being arranged on first slide 3-1
3-4 is grabbed in the limitings of 3-2 and the first scale fixed length reference block 3-3 being arranged on the first positioning table 3-2 and first;First limit
Position mechanism 6 includes the first fixed seat 6-1, the first riser 6-2 being arranged on the first fixed seat 6-1 and is arranged on the first riser 6-
2 close to 3 side of the first scale fixed length mechanism the first limited block 6-3, the first scale fixed length reference block 3-3 and the first limited block 6-
Pressure sensor is embedded on 3.
As shown in Figure 5 and Figure 6, in the present embodiment, first cutting mechanism 5 includes the first pneumatics main shaft holder 5-3, band
First motor 5-1 of dynamic first pneumatics main shaft holder 5-3 rotations and the first precision ten connected with the first pneumatics main shaft holder 5-3
Word slide unit is provided with the first rangefinder coordinated with the first scale fixed length reference block 3-3 in the first precise cross-shaped slide unit inner cavity 5-6
5-9;First delivery device 4 includes the first babinet 4-1, the first push cylinder 4-2 being fixed in the first babinet 4-1 and sets
It puts outside the first babinet 4-1 and stretches to the first push block 4-7 in the first precise cross-shaped slide unit inner cavity 5-6, the first push block
4-7 passes through the first push rod 4-6, the first spring 4-4 and the first push cylinder telescopic rod 4-3 and the first push cylinder 4-2 successively
Connection, the top plate inside of the first babinet 4-1 are equipped with the first spring mounting seat 4-5 for being used to support the first spring 4-4, and first cuts
5 and first delivery device 4 of cutting mill structure is installed on the support base of first servo motor 2-5 one end, the first push block 4-
7th, the folder cylinder central axes of the first scale fixed length reference block 3-3 and the first limited block 6-3 and the first pneumatics main shaft holder 5-3 are located at same
On one straight line;
First motor 5-1 drives the first pneumatics main shaft holder 5-3 rotations by belt 5-2, and first precise cross-shaped is slided
Platform is by the first cutter fixed station 5-4, the first blade 5-5 on the first cutter fixed station 5-4, the first blade 5-5 of drive
The the first X-axis servo motor 5-8 moved along the x-axis and the first Y-axis servo motor 5-7 groups that the first blade 5-5 is driven to be moved along Y-axis
Into.
In actual use, the first position-limit mechanism 6 is fixedly mounted on the left end of first crossbeam 16-1, in the first babinet 4-1
First push cylinder 4-2 is in contraction state, is rotated clockwise, can transported to be processed using multiple first gear commutator 2-3
Tubing is moved right into the first pneumatics main shaft holder 5-3, and then enters in the first precise cross-shaped slide unit inner cavity 5-6, final real
Existing tubing to be processed is contacted with the first push block 4-7, and multiple first gear commutator 2-3 stop operating, according to tubing to be processed
The first scale fixed length mechanism 3 is fixedly mounted in first crossbeam 16-1 in physical length, makes the first scale fixed length reference block 3-3 and first
The distance between rangefinder 5-9 is residue length after processing for the first time, if the first scale fixed length mechanism 3 and some first gear
Commutator 2-3 positions conflict, dismantle first gear commutator 2-3 install the first scale fixed length mechanism 3, the first push block 4-7,
The folder cylinder central axes of first scale fixed length reference block 3-3 and the first limited block 6-3 and the first pneumatics main shaft holder 5-3 are located at same
On straight line, it is therefore an objective to which, convenient for the linear transmission of tubing to be processed, control the first push cylinder 4-2 work makes the first push block 4-7
It stretches out, at this point, the first push block 4-7 pushes tubing to be processed to be moved to the left along multiple first gear commutator 2-3, until with the
One scale fixed length reference block 3-3 is contacted, and when the first scale fixed length reference block 3-3 senses pressure, controls the first push cylinder 4-2
It is stopped and the first push block 4-7 is made to be contracted to initial position, at this point, it is to be added that the first pneumatics main shaft holder 5-3 is controlled to step up
Work tubing simultaneously drives the first pneumatics main shaft holder 5-3 to rotate using the first motor 5-1 rotations, realizes the rotation of tubing to be processed,
The first X-axis servo motor 5-8 and the first Y-axis servo motor 5-7 is controlled to work using the first rangefinder 5-9, the first X-axis servo electricity
Machine 5-8 and the first Y-axis servo motor 5-7 drives the cutting of the first blade 5-5 realizations tubing one end to be processed respectively, wherein, the
The purpose that the first spring 4-4 is set between one push cylinder telescopic rod 4-3 and the first push rod 4-6 is to make the first push block 4-7
With tubing Elastic Contact to be processed, there is cushioning effect, the first push cylinder 4-2 is avoided not to be stopped in time, the first push
Tubing hardness to be processed is pushed into the first scale fixed length reference block 3-3 by block 4-7, tubing to be processed is caused to damage, the first spring
4-4 is that the first push block 4-7 dead weights is avoided to bend the first spring 4-4 by the first spring mounting seat 4-5 purposes installed, and is made
Into the change of the first push block 4-7 moving directions, the first rangefinder 5-9 can be used laser range finder and measure and the first scale fixed length
Spacing between reference block 3-3 after the completion of the cutting of tubing one end to be processed, dismantles the first scale fixed length mechanism 3, restores first
Transmission wheel 2-6 positions control multiple first transmission wheel 2-6 to rotate counterclockwise, and transport tubing to be processed and are moved to the left until one end
Tubing to be processed after processing is transmitted to the first position-limit mechanism 6 and contact the first limited block 6-3, the first limited block 6-3 sensing has
During pressure, the scale and cut-out of tubing one end to be processed are completed in multiple first transmission wheel 2-6 stop motions.
As shown in fig. 7, in the present embodiment, the lifting mechanism 7 include rotation lifting main shaft 7-4, by articulation piece 7-3 with
The lifting cylinder 7-2 of rotation lifting main shaft 7-4 connections and multiple lifting pushing hands 7- being fixedly mounted on rotation lifting main shaft 7-4
7, lifting cylinder 7-2 install pad 7-1 by lifting cylinder and are mounted on second cross beam 16-2, and rotation lifting main shaft 7-4 passes through rotation
Turn lifting bearing 7-6 to be mounted on lifting spindle drum 7-5, the quantity of lifting spindle drum 7-5 and rotation lifting bearing 7-6 are more
It is a.
In actual use, after the completion of the scale of tubing one end to be processed and cut-out, the 7-2 work of control lifting cylinder makes lift
It rises cylinder 7-2 telescopic ends to stretch out, during actual installation, lifting pushing hands 7-7 installation sites are less than tubing to be processed, lifting cylinder 7-2
Telescopic end, which stretches out, drives rotation lifting main shaft 7-4 rotations, and then drive multiple lifting pushing hands 7-7 liftings, after processing one end
Tubing to be processed is slid on the rebound 8-5 in transition mechanism 8.
As shown in figure 8, in the present embodiment, the transition mechanism 8 is made of multiple rebound 8-5, and rebound 8-5 is close to pipe
The bottom end that 15 one end of material blanking device is provided with transition block 8-6, rebound 8-5 is fixed by the first flexible nut 8-3
On First Transition plate mounting base 8-1, the bottom other end of rebound 8-5 is fixed on the second mistake by the second flexible nut 8-4
On cab apron mounting base 8-2, First Transition plate mounting base 8-1 is mounted on third crossbeam 16-3, the second rebound mounting base 8-2 peaces
On the 4th crossbeam 16-4.
In actual use, the gradient of rebound 8-5 is adjusted using the first flexible flexible nut 8-4 of nut 8-3 and second, is made
Rebound 8-5 is less than the other end of rebound 8-5 close to one end of tubular material blanking apparatus 15, and rebound 8-5 is close to pipe feeding
It is to stop that the tubing to be processed after the processing of one end skids off rebound 8-5 that 15 one end of device, which is provided with transition block 8-6,.Transition
One end and the top of the second transmission wheel of plate 8-5 installation transition blocks 8-6 is located at same level, convenient for multiple second transmission wheels
Receive the tubing to be processed after the processing of one end.
Second scale fixed length mechanism 10 and the second position-limit mechanism 13 are installed on third crossbeam 16-3, the second position-limit mechanism
13 include the second fixed seat 13-1, the second riser for being arranged on the second fixed seat 13-1 and to be arranged on second riser close
Pressure sensor is embedded on second limited block 13-2, the second limited block 13-2 of 10 side of the second scale fixed length mechanism.
It should be noted that the second transmission mechanism 9, the second scale fixed length mechanism 10, the second delivery device 11, second are cut
Mechanism 12 and second position-limit mechanism 13 cooperation scale and cut off tubing to be processed the other end process and the first transmission mechanism 2,
First scale fixed length mechanism 3, the first delivery device 4, the first cutting mechanism 5 and the first position-limit mechanism 6 cooperation scale and cut-out are treated
The process for processing one end of tubing is identical, and details are not described herein again.
As shown in figure 9, in the present embodiment, the turnover device 14 includes overturning main shaft 14-4, by overturning articulation piece 14-
3 with overturning tumble cylinder 14-2 and the multiple overturning pushing hands 14- being fixedly mounted on overturning main shaft 14-4 that main shaft 14-4 is connect
7, tumble cylinder 14-2 install pad 14-1 by tumble cylinder and are mounted on third crossbeam 16-3 close to the side of tubular material blanking apparatus 15
Portion, overturning main shaft 14-4 are mounted on by overturning bearing 14-6 on overturning spindle drum 14-5, overturn spindle drum 14-5 and torsion shaft
The quantity for holding 14-6 is multiple;
It should be noted that tumble cylinder 14-2 is close mounted on third crossbeam 16-3 by tumble cylinder installation pad 14-1
The side one of tubular material blanking apparatus 15 is the usage quantity in order to reduce 16 upper beam of stent, reduces the volume of stent 16, and then
Reduce the volume of integration apparatus, second is that not stopping installation site of the second scale fixed length mechanism 10 on third crossbeam 16-3;
In actual use, for tumble cylinder 14-2 unlike lifting cylinder 7-2, tumble cylinder 14-2 tilts installation, and original state is
Stretching state, when the tubing processed needs blanking, the telescopic end retraction of tumble cylinder 14-2 pulls overturning articulation piece 14-3
To 15 1 side to overturn of tubular material blanking apparatus, the initial position of overturning pushing hands 14-7 is less than transition block 8-6, and then from processing platform
On will be on the pipe feeding that processed to tubular material blanking apparatus 15.
As shown in Fig. 2, in the present embodiment, the tube stock loading device 1 includes stock shelf 1-7 and is arranged on stock shelf 1-7
The feeding platform at top, the feeding platform are made of the feeding bar 1-2 of multiple parallel settings, and the both ends of feeding bar 1-2 are respectively mounted
There is a feeding pole socket 1-3, the bottom of feeding pole socket 1-3 is fixed on by the feeding nut 1-4 that stretches on stock shelf 1-7, feeding bar 1-2
One end both sides arranged in dislocation close to the processing platform has feeding block 1-5 and feeding lifting mechanism 1-6, feeding lifting mechanism
The distance of 1-6 and the processing platform is more than the distance of feeding block 1-5 and the processing platform, feeding lifting mechanism 1-6 and
The distance of the processing platform and the difference of the distance of feeding block 1-5 and the processing platform are equal to the diameter of tubing to be processed,
Feeding lifting mechanism 1-6 includes written examination cylinder and the slanted kicking block for being arranged on the written examination Telescopic-cylinder end, and the slanted kicking block is close
One end of the processing platform is the low level of the slanted kicking block.
The gradient of nut 1-4 adjusting feeding bars 1-2 it should be noted that the both ends of feeding bar 1-2 are stretched by feeding, it is real
Border makes to be added in use, the other end less than feeding bar 1-2 that feeding bar 1-2 is adjusted close to one end of processing platform
Work tubing is slided along the gradient of feeding bar 1-2, is blocked by feeding block 1-5, and making tubing to be processed, there are one determining startings
Position;The distance of feeding lifting mechanism 1-6 and the processing platform is more than the distance of feeding block 1-5 and the processing platform,
Stop that the side of tubing to be processed jacks up tubing to be processed, the slanted kicking block in feeding block 1-5 convenient for feeding lifting mechanism 1-6
For the purpose of the low level of the slanted kicking block be close to one end of the processing platform make tubing to be processed jack up after along slanted kicking block
The gradient slide on the first transmission wheel 2-6.
As shown in Figure 1, in the present embodiment, the tubular material blanking apparatus 15 includes blanking rack and is arranged on the blanking rack top
The blanking bench in portion, the blanking bench are made of the bar of material obliquely downward of multiple parallel settings, and the bar of material obliquely downward is far from the processing
One end of platform is provided with blanking block, and one end that the bar of material obliquely downward installs the blanking block is the low of the bar of material obliquely downward
Position, the described one end of bar far from the processing platform of material obliquely downward be provided with blanking block be in order to receive the tubing finally cut off,
Tubing is avoided to be slid from tubular material blanking apparatus 15, bar is expected in one end that the bar of material obliquely downward installs the blanking block obliquely downward to be described
The effect of low level be to define the glide direction of tubing.
It should be noted that being equipped with nylon sheet on the feeding bar 1-2 of tube stock loading device 1, it is arranged outside feeding block 1-5
There is nylon jacket, be equipped with nylon inclined-plane at the top of slanted kicking block, the first push block 4-7 is the first nylon push block, on rebound 8-5
Also nylon sheet is equipped with, nylon jacket is equally arranged with outside transition block 8-6, expects to be equipped on bar obliquely downward and expects fiber-glass pole obliquely downward, Buddhist nun
The purpose of the setting of imperial material is for that tubing is avoided to be bruised or scratch, and ensures the smooth of tubing, improves integration apparatus
Safety in utilization.
When the utility model is used, tubing to be processed is placed on tube stock loading device 1, utilizes feeding lifting mechanism 1-
6 automatic chargings, the first processing unit (plant) carry out tubing one end to be processed scale and cut-out, and transition apparatus is processed to described first
Tubing after device processing is transmitted, and the second processing unit (plant) carries out the tubing other end to be processed scale and cut-out, overturning dress
Put what the tubing after 14 pairs of the second processing unit (plant) processing was overturn, under turnover device 14 coordinates with tubular material blanking apparatus 15
Material realizes feeding, transmission, fixed length, clamping, rotation, cut-out and the blanking action of highorder accuracy schemes, completes highorder accuracy schemes both ends
Processing, complete function without manual intervention, reduces horizontal to operating personnel's operation and experience degree of dependence, production effect
Rate is higher, surfaces externally and internally without scratch, without damaging the defects of, pipe end is smooth, without shake knife mark, interior exterior angle impulse- free robustness.
The above is only the preferred embodiment of the utility model, not the utility model imposed any restrictions, every
Any simple modification, change and the equivalent structure made according to the utility model technical spirit to above example change, still
Belong in the protection domain of technical solutions of the utility model.
Claims (10)
1. the integration apparatus of highorder accuracy schemes fixed ruler cutting is filled including tube stock loading device (1), processing platform and pipe feeding
It puts (15), it is characterised in that:The processing platform includes stent (16) and is installed on stent (16) for to be processed
Tubing one end carries out the first processing unit (plant) of fixed ruler cutting, is transmitted for the tubing after being processed to first processing unit (plant)
Transition apparatus, for fixed ruler cutting is carried out to the tubing other end to be processed the second processing unit (plant), for described second plus
Tooling puts the turnover device (14) that the tubing after processing is overturn, and turnover device (14) coordinates with tubular material blanking apparatus (15);
First processing unit (plant) and the second processing unit (plant) structure are identical, and first processing unit (plant) includes and tube stock loading device (1)
Coordinate and be used for transmission the first transmission mechanism (2) of tubing to be processed, the first scale fixed length that fixed length is carried out to tubing to be processed
Mechanism (3), carries out tubing one end to be processed cutting section at the first delivery device (4) coordinated with the first scale fixed length mechanism (3)
Disconnected the first cutting mechanism (5) and the first position-limit mechanism (6) limited to the tubing to be processed after the cutting of one end;The mistake
Cross device include with the first transmission mechanism (2) coordinate transmit one end cutting after tubing to be processed lifting mechanism (7) and with lift
Rise the transition mechanism (8) for the tubing to be processed that mechanism (7) coordinates after receiving one end cutting;Second processing unit (plant) includes being used for
In transfer transition mechanism (8) one end cutting after tubing to be processed the second transmission mechanism (9), to one end cut after it is to be processed
Tubing carries out the second scale fixed length mechanism (10) of fixed length, the second delivery device coordinated with the second scale fixed length mechanism (10)
(11), the other end of the tubing to be processed after being cut to one end carries out cutting the second cutting mechanism (12) blocked and both ends is cut
The second position-limit mechanism (13) that tubing after cutting is limited.
2. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 1, it is characterised in that:The stent
(16) it including supporting rack and two support bases for being separately positioned on support frame as described above both ends and is installed on support frame as described above
And the be mutually parallel first crossbeam (16-1) being laid between two support bases, second cross beam (16-2), third crossbeam
(16-3) and the 4th crossbeam (16-4), first crossbeam (16-1), second cross beam (16-2), third crossbeam (16-3) are that level is set
The tablet crossbeam put, the 4th crossbeam (16-4) are the riser for being arranged on second cross beam (16-2) close to third crossbeam (16-3) side
Crossbeam.
3. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 2, it is characterised in that:Described first passes
Transfer mechanism (2) including the first tablet (2-1), be arranged on first servo motor (2-5) of the first tablet (2-1) one end and multiple edges
The first gear commutator (2-3) that first tablet (2-1) length direction is laid, the first servo motor (2-5) and multiple first teeth
It takes turns commutator (2-3) to connect by multiple commutator connecting shafts (2-4) successively word, first gear commutator (2-3) is close to pipe
The side of material feeding device (1) is provided with the first transmission shaft, first transmission shaft far from first gear commutator (2-3) one
End is equipped with the first transmission wheel (2-6), and the first transmission wheel (2-6) is positioned at the surface of first crossbeam (16-1), the first tablet (2-
1) parallel with first crossbeam (16-1) to be arranged between two support bases, first gear commutator (2-3) passes through first
Gear tumbler seat (2-2) is on the first tablet (2-1).
4. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 3, it is characterised in that:Described first is fixed
Ruler fixed length mechanism (3) and the first position-limit mechanism (6) are installed on first crossbeam (16-1), the first scale fixed length mechanism (3) packet
It includes first slide (3-1) and the first positioning table (3-2) for being arranged in first slide (3-1) and is arranged at the first positioning
The first scale fixed length reference block (3-3) and the first limiting on platform (3-2) are grabbed (3-4);First position-limit mechanism (6) is solid including first
Reservation (6-1), the first riser (6-2) being arranged in the first fixed seat (6-1) and the first riser (6-2) is arranged on close to first
First limited block (6-3) of scale fixed length mechanism (3) side, the first scale fixed length reference block (3-3) and the first limited block (6-3)
On be embedded with pressure sensor.
5. according to the integration apparatus of the highorder accuracy schemes fixed ruler cutting described in claim 4, it is characterised in that:Described first cuts
Cutting mill structure (5) includes the first pneumatics main shaft holder (5-3), the first motor (5- that the first pneumatics main shaft holder (5-3) is driven to rotate
1) the first precise cross-shaped slide unit and with the first pneumatics main shaft holder (5-3) connected, the first precise cross-shaped slide unit inner cavity (5-6) are interior
It is provided with the first rangefinder (5-9) coordinated with the first scale fixed length reference block (3-3);First delivery device (4) includes
First babinet (4-1), the first push cylinder (4-2) being fixed in the first babinet (4-1) and it is arranged on the first babinet (4-1) outside
And the first push block (4-7) in the first precise cross-shaped slide unit inner cavity (5-6) is stretched to, the first push block (4-7) is passed through successively
First push rod (4-6), the first spring (4-4) and the first push cylinder telescopic rod (4-3) connect with the first push cylinder (4-2)
It connects, the first spring mounting seat (4-5) for being used to support the first spring (4-4) is installed on the inside of the top plate of the first babinet (4-1), the
One cutting mechanism (5) and the first delivery device (4) are installed on the support base of the first servo motor (2-5) one end, the
One push block (4-7), the first scale fixed length reference block (3-3) and the first limited block (6-3) and the first pneumatics main shaft holder (5-3)
Folder cylinder central axes be located along the same line;
First motor (5-1) drives the first pneumatics main shaft holder (5-3) to rotate by belt (5-2), first precise cross-shaped
Slide unit is by the first cutter fixed station (5-4), the first blade (5-5) on the first cutter fixed station (5-4), drive first
The the first X-axis servo motor (5-8) and the first Y-axis that the first blade (5-5) is driven to be moved along Y-axis that blade (5-5) moves along the x-axis
Servo motor (5-7) forms.
6. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 2, it is characterised in that:The lifting machine
Structure (7) includes rotation lifting main shaft (7-4), the lifting cylinder being connect by articulation piece (7-3) with rotation lifting main shaft (7-4)
(7-2) and multiple lifting pushing hands (7-7) being fixedly mounted on rotation lifting main shaft (7-4), lifting cylinder (7-2) pass through lifting
For cylinder installation pad (7-1) on second cross beam (16-2), rotation lifting main shaft (7-4) is lifted bearing (7-6) by rotation
On lifting spindle drum (7-5), the quantity of lifting spindle drum (7-5) and rotation lifting bearing (7-6) is multiple.
7. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 2, it is characterised in that:The transition machine
Structure (8) is made of multiple rebounds (8-5), and rebound (8-5) is provided with transition block close to tubular material blanking apparatus (15) one end
(8-6), the bottom end of rebound (8-5) are fixed on First Transition plate mounting base (8-1) by the first flexible nut (8-3)
On, the bottom other end of rebound (8-5) is fixed on by the second flexible nut (8-4) in the second rebound mounting base (8-2),
First Transition plate mounting base (8-1) is on third crossbeam (16-3), and the second rebound mounting base (8-2) is mounted on the 4th horizontal stroke
On beam (16-4).
8. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 2, it is characterised in that:The overturning dress
Put the tumble cylinder that (14) are connect including overturning main shaft (14-4), by overturning articulation piece (14-3) with overturning main shaft (14-4)
(14-2) and multiple overturning pushing hands (14-7) being fixedly mounted on overturning main shaft (14-4), tumble cylinder (14-2) pass through overturning
Cylinder installation pad (14-1) is mounted on third crossbeam (16-3) close to the side of tubular material blanking apparatus (15), overturning main shaft (14-4)
By overturning bearing (14-6) on overturning spindle drum (14-5), overturning spindle drum (14-5) and overturning bearing (14-6)
Quantity is multiple;
Second scale fixed length mechanism (10) and the second position-limit mechanism (13) are installed on third crossbeam (16-3), the second position restrainer
Structure (13) is including the second fixed seat (13-1), the second riser being arranged in the second fixed seat (13-1) and is arranged on described second
Riser is embedded with pressure on the second limited block (13-2) close to second limited block (13-2) of second scale fixed length mechanism (10) side
Force snesor.
9. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 1, it is characterised in that:On the tubing
Material device (1) includes stock shelf (1-7) and the feeding platform being arranged at the top of stock shelf (1-7), and the feeding platform is by multiple equal
Feeding bar (1-2) composition of row setting, the both ends of feeding bar (1-2) are mounted on feeding pole socket (1-3), feeding pole socket (1-3)
Bottom be fixed on stock shelf (1-7) by the feeding nut (1-4) that stretches, feeding bar (1-2) is close to the processing platform
One end both sides arranged in dislocation has a feeding block (1-5) and feeding lifting mechanism (1-6), feeding lifting mechanism (1-6) and it is described plus
The distance of work platform is more than the distance of feeding block (1-5) and the processing platform, feeding lifting mechanism (1-6) and the processing
The distance of platform and the difference of the distance of feeding block (1-5) and the processing platform are equal to the diameter of tubing to be processed, feeding lift
It rises mechanism (1-6) and includes written examination cylinder and the slanted kicking block for being arranged on the written examination Telescopic-cylinder end, the slanted kicking block is close to described
One end of processing platform is the low level of the slanted kicking block.
10. the integration apparatus of highorder accuracy schemes fixed ruler cutting described in accordance with the claim 1, it is characterised in that:The tubing
Blanking device (15) includes blanking rack and the blanking bench that is arranged at the top of the blanking rack, and the blanking bench parallel is set by multiple
The bar of the material obliquely downward composition put, the described one end of material bar obliquely downward far from the processing platform is provided with blanking block, described to expect obliquely downward
One end that bar installs the blanking block is the low level for expecting bar obliquely downward.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721610786.4U CN207464306U (en) | 2017-11-27 | 2017-11-27 | The integration apparatus of highorder accuracy schemes fixed ruler cutting |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721610786.4U CN207464306U (en) | 2017-11-27 | 2017-11-27 | The integration apparatus of highorder accuracy schemes fixed ruler cutting |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207464306U true CN207464306U (en) | 2018-06-08 |
Family
ID=62258908
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721610786.4U Active CN207464306U (en) | 2017-11-27 | 2017-11-27 | The integration apparatus of highorder accuracy schemes fixed ruler cutting |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207464306U (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107790805A (en) * | 2017-11-27 | 2018-03-13 | 西部新锆核材料科技有限公司 | A kind of integration apparatus for highorder accuracy schemes fixed ruler cutting |
CN109366257A (en) * | 2018-12-29 | 2019-02-22 | 肇庆威尼托机械有限公司 | A kind of quartzite slate polishing production line |
CN109968092A (en) * | 2019-04-02 | 2019-07-05 | 六安市恒伟标识有限公司 | The measured length intermittence of building steel tube promotes processing technology |
CN112496449A (en) * | 2020-11-13 | 2021-03-16 | 株洲天桥舜臣选煤机械有限责任公司 | Steel structure cutting equipment capable of fixing length |
CN112496439A (en) * | 2020-12-03 | 2021-03-16 | 江西艾芬达暖通科技股份有限公司 | Full-automatic discharging equipment for drying rack |
CN114952356B (en) * | 2022-06-16 | 2023-05-02 | 湖南湘投金天新材料有限公司 | Pipe sizing precision cutting device and sizing precision cutting method thereof |
-
2017
- 2017-11-27 CN CN201721610786.4U patent/CN207464306U/en active Active
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107790805A (en) * | 2017-11-27 | 2018-03-13 | 西部新锆核材料科技有限公司 | A kind of integration apparatus for highorder accuracy schemes fixed ruler cutting |
CN107790805B (en) * | 2017-11-27 | 2023-11-03 | 西安西部新锆科技股份有限公司 | Integrated equipment for cutting high-precision pipe into fixed length |
CN109366257A (en) * | 2018-12-29 | 2019-02-22 | 肇庆威尼托机械有限公司 | A kind of quartzite slate polishing production line |
CN109968092A (en) * | 2019-04-02 | 2019-07-05 | 六安市恒伟标识有限公司 | The measured length intermittence of building steel tube promotes processing technology |
CN109968092B (en) * | 2019-04-02 | 2020-12-15 | 防城港澳加粮油工业有限公司 | Fixed-length intermittent propelling processing technology for building steel pipe |
CN112496449A (en) * | 2020-11-13 | 2021-03-16 | 株洲天桥舜臣选煤机械有限责任公司 | Steel structure cutting equipment capable of fixing length |
CN112496439A (en) * | 2020-12-03 | 2021-03-16 | 江西艾芬达暖通科技股份有限公司 | Full-automatic discharging equipment for drying rack |
CN114952356B (en) * | 2022-06-16 | 2023-05-02 | 湖南湘投金天新材料有限公司 | Pipe sizing precision cutting device and sizing precision cutting method thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207464306U (en) | The integration apparatus of highorder accuracy schemes fixed ruler cutting | |
CN107790805A (en) | A kind of integration apparatus for highorder accuracy schemes fixed ruler cutting | |
CN103273397B (en) | A kind of crystal blank automatic grinding and polishing system | |
CN102328251B (en) | Intelligent surface grinding machine with horizontal spindle and rotary table | |
CN203471345U (en) | Multistation pallet changer device of machining center | |
CN211763513U (en) | Mechanical system of five-axis 3D printer based on fused deposition type | |
CN105598590A (en) | Very-large-format laser subsurface engraving machine and operation method thereof | |
CN205519178U (en) | Full -automatic washing pipe equipment of numerical control | |
CN103949776A (en) | Full-automatic pipe laser-cutting device | |
CN110014183A (en) | A kind of numerical control deep-hole key seat milling machine | |
CN103506856A (en) | Multi-working-table automatic exchanging device of horizontal machining center | |
CN105170739A (en) | Three-dimensional space continuous pipe bending device | |
CN205165629U (en) | Bender numerical control material feeding unit | |
CN204772027U (en) | Accurate thread shaping grinding device | |
CN210689546U (en) | Automobile glass curvature laser detection device | |
CN105965625A (en) | Automatic production line for drawer board dovetail joint machining | |
CN203881305U (en) | Curved topography measurement device for large workpiece | |
CN204711742U (en) | Crystal blank polishing system | |
CN207147384U (en) | A kind of motor shaft coalignment | |
CN204711741U (en) | Clamp positioning mechanism, docking machinery, the mechanical and crystal blank polishing system of loading and unloading | |
CN210305194U (en) | High-precision pipe bender | |
CN208840636U (en) | A kind of clamping device of the fixed work arbor of gear-hobbing machine | |
CN112497781A (en) | PE pipe and manufacturing process thereof | |
CN207289059U (en) | A kind of wiredrawing machine | |
CN112497744A (en) | High-precision three-dimensional additive printing device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address |
Address after: 710299 No. 19, east section of Jinggao North Road, Jingwei new town, Xi'an Economic and Technological Development Zone, Xi'an City, Shaanxi Province Patentee after: Xi'an Western New Zirconium Technology Co.,Ltd. Address before: No.19, east section of Jinggao North Road, new material industrial park, Jingwei new town, Xi'an Economic and Technological Development Zone, Xi'an City, Shaanxi Province Patentee before: WESTERN ENERGY MATERIAL TECHNOLOGIES CO.,LTD. |
|
CP03 | Change of name, title or address |