CN106239161A - The process equipment of sliding door and window aluminium section bar - Google Patents
The process equipment of sliding door and window aluminium section bar Download PDFInfo
- Publication number
- CN106239161A CN106239161A CN201610741599.3A CN201610741599A CN106239161A CN 106239161 A CN106239161 A CN 106239161A CN 201610741599 A CN201610741599 A CN 201610741599A CN 106239161 A CN106239161 A CN 106239161A
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- Prior art keywords
- section bar
- discharge nozzle
- heat insulation
- cutting
- water cooling
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P23/00—Machines or arrangements of machines for performing specified combinations of different metal-working operations not covered by a single other subclass
- B23P23/04—Machines or arrangements of machines for performing specified combinations of different metal-working operations not covered by a single other subclass for both machining and other metal-working operations
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C23/00—Extruding metal; Impact extrusion
- B21C23/02—Making uncoated products
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21C—MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
- B21C29/00—Cooling or heating work or parts of the extrusion press; Gas treatment of work
- B21C29/003—Cooling or heating of work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D45/00—Sawing machines or sawing devices with circular saw blades or with friction saw discs
- B23D45/003—Sawing machines or sawing devices with circular saw blades or with friction saw discs for particular purposes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q7/00—Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
- B23Q7/05—Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of roller-ways
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Extrusion Of Metal (AREA)
Abstract
The invention discloses the process equipment of sliding door and window aluminium section bar, including extruder and cutting machine, described extruder is connected with cutting machine by roller conveyer belt, it is connected by roller conveyer belt between extruder with cutting machine, after section bar that is extruded by extruder and that process through supercooling is removed by discharge nozzle, after roller conveyer belt carries out the natural cooling of a period of time, then it is conveyed directly on cutting machine carry out cutting action, i.e. realize the extruded of section bar and cutting Continuous maching, with molding in prior art compared with cutting apart the technique carried out, reduce and hall space is taken, avoid workman's transhipment frequency to section bar, while reducing labor intensity, reduce the production cost of section bar.
Description
Technical field
The present invention relates to the production and processing field of aluminium section bar, specifically refer to the process equipment of sliding door and window aluminium section bar.
Background technology
In prior art, aluminium section bar molding procedure in extruder is continual, needs as desired by cutting
Machine is cut to the aluminium section bar of different length and model, the i.e. product of aluminium profiles material and is extruding and the mode molding of cutting
, but there is also some irrational places at aluminium section bar process equipment the most in general, meeting in reality produces
Being restricted by many factors, owing to the volume of aluminum section extruder and cutting machine is the biggest, floor space is more, and
And aluminum section extruder and the cutting machine in factory is all to separate, needs bigger hall space, i.e. produce circuit long, simultaneously
Cause the increase of production cost.
Summary of the invention
It is an object of the invention to provide the process equipment of sliding door and window aluminium section bar, shorten section bar cooling circuit, Jin Erda
To the purpose reducing production cost.
The purpose of the present invention is achieved through the following technical solutions:
The process equipment of sliding door and window aluminium section bar, including extruder and cutting machine, described extruder passes through roller conveyer belt and cuts
Cutting mill connects, and described extruder includes extrusion body and rack-mount water cooling box, sets respectively at the two ends of water cooling box
There are coaxial feed pipe and discharge nozzle, the discharge barrel of described extrusion body to dock with feed pipe, are provided with in described water cooling box
Heat insulation cavity, and feed pipe and discharge nozzle extend through the two side of heat insulation cavity, is provided with reclinate in heat-insulation chamber body
Arc arm, arm, by the region overlay between feed pipe and discharge nozzle, is separately installed with many at two bending section end ends of arm
Individual side spray head, is provided with multiple main jet head being distributed side by side in the middle part of arm lower wall, and connecting in the middle part of arm upper wall has water injection pipe, described
Water injection pipe upper end is run through heat insulation cavity and the upper wall of water cooling box and stretches out, and has and heat insulation cavity in water cooling box lower end
The discharge outlet of connection, in described heat-insulation chamber body, the position near discharge nozzle is additionally provided with exhaust column, installs in the lower end of exhaust column
There are moisture probe, exhaust column upper end run through heat insulation cavity and the upper wall of water cooling box and stretch out, and install on water cooling box
Having the blower fan connected with described exhaust column, moisture probe is electrically connected with described blower fan by controller, the longitudinal direction of described discharge nozzle
Cross section is shape, is provided with inverted U-shaped sponge block, the side that the thickness of described sponge block moves along section bar on described discharge nozzle inwall
To being incremented by, and have tank on described discharge nozzle bottom surface;
Described cutting machine includes housing and is arranged on the cover body of housing upper end, and described cover body is respectively arranged at two ends with import and goes out
Mouthful, in described housing, from top to bottom it being disposed with guide rod and motor, slide block set is located on guide rod, is provided with saw on slide block
Sheet, the rotating shaft of described saw blade is connected with the outfan of motor by belt, is provided with cylinder in housing sidewall, described cylinder defeated
Go out after end activity runs through housing exterior walls and be connected with the sidewall of slide block, have the cutting hole parallel with guide rod at housing upper surface, saw
Described cutting hole is run through on sheet top, has the cavity just to described cutting hole in cover body;Inner walls rotates and is provided with
The bull stick vertical with guide rod, and bull stick is placed between slide block and motor, is provided with regulating block in the lower end of described slide block, in regulation
Cingulum is installed on block bottom surface, bull stick is fixed with the gear matched with cingulum, the outer circle wall of bull stick is symmetrical arranged
There are two connecting rods, and rotate at the end of connecting rod and be provided with the roller parallel with bull stick, the outer wall of described roller and described belt
Medial wall contact.It is connected by roller conveyer belt between extruder with cutting machine, extruded by extruder and through supercooling
After the section bar processed is removed by discharge nozzle, after roller conveyer belt carries out the natural cooling of a period of time, the most directly transmit
To cutting machine, carry out cutting action, i.e. realize the extruded of section bar with cutting Continuous maching, with prior art in molding with
Cut apart the technique carried out to compare, reduce and hall space is taken, it is to avoid the workman transhipment frequency to section bar, reduce
While labor intensity, reduce the production cost of section bar.
After profile extrusion molding, generally use air cooling way to lower the temperature, however the cooling effect of air-cooled supply line difference and
The transportation route caused increases, and the problem causing whole production cost to strengthen is increased in the requirement to Factory Building, equipment, and inventor is to type
Material extruder improves, and i.e. sets up water cooling box at the discharge barrel of extrusion body, utilizes water-cooling pattern to enter the aluminium of high temperature
Row quickly cooling, in water cooling box, multiple main jet heads different piece to section bar Tong Bu with side spray head sprays, close with high speed
Carry out heat exchange between cooling medium stream and the section bar of collection, remain in the liquid of water cooling box bottom then by discharge outlet quickly outside
Row, temperature reduces the section bar of normal temperature and then passes through discharge nozzle transfer-out, i.e. realizes type under shorter water cooling lines
The continuous coo1ing of material, greatly reduces cooling device and takies hall space, has reached to reduce the purpose of production cost simultaneously.
Wherein, the arm being connected with water injection pipe is circular arc, the arm of this circular arc can by section bar by feed pipe to discharge nozzle between
Region is completely covered, i.e. section bar just carries out refrigerating work procedure at water cooling box medium section to start to feed, and main jet head and side spray
Head upper surface and two sides to section bar the most respectively sprays;And heat insulation cavity is installed in water cooling box, should be every
Section bar can be distributed by hot cavity and cooling medium outer wall isolation of produced heat and water cooling box after intensification is opened, and prevents
The only outer wall persistent fever of cooler bin in whole cooling procedure, it is to avoid staff occurs security incident.
And when aluminium section bar is cut, produced chip splashes, chip while affecting cutting progress
It is also easy to affect the sight line of operator, and then increases the occurrence probability of security incident;Inventor solves such problem, design
Going out a kind of new types of cutting devices, be i.e. provided with motor in housing, the outfan of motor is connected with the rotating shaft of saw blade by belt,
Having cutting hole at shell top wall, the upper end of saw blade is run through cutting hole and projects upwards, and cutting hole is completely covered by cover body, i.e. aluminum
The cutting step of section bar is carried out in the cavity of cover body so that the produced chip of cutting is only movable in cavity, and cannot four
Place sputters, and cover body may select transparent plastic jacket, to facilitate operator to observe the cutting situation of aluminium section bar at any time, produces
Chip by cutting hole be displaced downwardly to enclosure interior, chip can also be recycled by centralized collection, and then reach to keep away
Exempt to cut chip to spill everywhere, improve the purpose of the safety reliability of aluminium section bar cutting simultaneously.During use, the initial position of saw blade
Being positioned at the end, one end in cutting hole, start cylinder so that cylinder outfan band movable slider moves, now saw blade is then along cutting hole court
Its other end end is moved, until contacting with aluminium section bar, i.e. starts aluminium section bar is carried out cutting action;In moving process, for
Ensure the rate of tension of belt self, when saw blade carries out straight reciprocating motion on guide rod, the cingulum that regulating block bottom surface is installed
Engaging with gear, and then drive bull stick freely rotatable, while bar rotation, two connecting rods being positioned on bull stick outer wall are carried out
Synchronous axial system, i.e. with the center of bull stick as the center of circle, two rollers contacted with belt medial wall start to move in a circle around the center of circle,
Between the rotating shaft and the outfan of motor of saw blade during spacing minimum, connecting rod is horizontal positioned state, and belt is by two roller institutes
Support, and the amplitude expanded outwardly reaches maximum, to ensure the rate of tension of belt, it is ensured that the frequency that driven by motor saw blade rotates
Remain unchanged;During spacing maximum between the rotating shaft and the outfan of motor of saw blade, saw blade completes the cutting to aluminium section bar, this
Time connecting rod generation circular motion after, two connecting rods are inclined, and i.e. two rollers are one high and one low distribution, and ensure two rollers
Cylinder contacts with the medial wall of belt, and the radian that now belt expands outwardly is minimum, and the rate of tension of self keeps constant.By turning
Bar, connecting rod and roller are synchronized with the movement with slide block, it is ensured that saw blade either in original state still at cut state, belt
The rate of tension of self remains inconvenience, ensures the saw blade stable cutting to aluminium section bar, it is to avoid saw blade becomes because of the rate of tension of belt
Change and produce, when cutting, situations such as pausing, beat, reach to improve the purpose of aluminium section bar cutting efficiency.
Further, in heat-insulation chamber body, after coolant contacts with the section bar under the condition of high temperature, coolant can vaporize with band
Walk the heat on section bar, and pile up in the steam easy heat-insulation chamber body under vapor state, and then cause the temperature in heat-insulation chamber body
Degree remains at a higher level, and the section bar i.e. moved outside discharge nozzle remains on higher temperature, and then greatly shadow
Ring the cooling progress of section bar;From feed pipe, just entered into heat entrained during heat insulation cavity due to section bar maximum, with
The steam vapour amount produced when coolant comes in contact is maximum, for ensureing the accuracy of water vapor concentration detection data, therefore invents
People, at the back segment of heat insulation cavity, i.e. installs moisture probe near the position of discharge nozzle, and at this, the humidity of position reaches limits value
Time, detection data are transferred to controller by moisture probe, and controller sends control command and blower fan is brought into operation, and it is right i.e. to start
Steam in heat insulation cavity carries out outer row, with cooler environment stable in ensureing heat-insulation chamber body.Further, section bar by
When discharge nozzle sends out, due to the particularity of water-cooling pattern, the outer wall of section bar can be accompanied with a certain amount of liquid, at nature
Environment lower sectional material is susceptible to oxidation and reduces himself quality, and therefore inventor lays by inverted on the inwall of discharge nozzle
U-shaped sponge block, and the thickness of sponge block along the direction that section bar moves be incremented by so that section bar when discharging in-pipe, sponge block
Directly clearing up upper surface and the two side of section bar, along with the movement of section bar, one end that sponge block thickness is bigger starts
Deforming upon, the liquid i.e. starting to be absorbed by sponge block is extruded and flows out along tank, and the part remained on section bar outer wall
Liquid then in transmitting procedure by natural air drying, and then ensure the quality after section bar cooling.
Being provided with deflector with feed pipe on the side inwall that described heat insulation cavity is connected, described deflector is along feed pipe water
The direction of flat sensing discharge nozzle is downward-sloping.Being provided with the deflector of inclination on the sidewall of heat insulation cavity, this deflector can be right
The liquid of heat insulation cavity bottom is dredged, the speed that accelerating liquid is flowed out by discharge outlet, to avoid liquid in heat insulation cavity
Residual.
Described main jet head and side spray head are spiral nozzle.As preferably, selecting spiral nozzle, can make in arm is cold
But medium is sprayed on section bar with the form of taper water curtain so that cooling medium is attached to the area on section bar within the unit interval
Increasing, the most multiple main jet heads and multiple side spray head are and are distributed side by side, and i.e. section bar is in moving process, can enter with a part
Row is repeated several times spray, considerably increases the rate of cooling of section bar, and the utilization rate of cooling medium increases the most accordingly simultaneously, thus subtracts
The consumption of little cooling medium.
Described heat insulation cavity is the seamless cavity that multiple XPS extruded sheet is spliced to form.As preferably, XPS extruded sheet is named again
Extrusion moulding type polystyrene heat insulating board, it has perfect closed pore alveolate texture, is likewise supplied with high pressure resistance, aging resistance
Property, low thermal conductivity coefficient and relatively low water absorption, complete between produced heat and the outer wall of water cooling box when section bar can be cooled down
Full isolation is opened, it is to avoid the temperature of water cooling box is too high and increases the operation easier of workman.
The present invention compared with prior art, has such advantages as and beneficial effect:
1, it is connected by roller conveyer belt between extruder of the present invention and cutting machine, extruded by extruder and through supercooling
After the section bar of reason is removed by discharge nozzle, after roller conveyer belt carries out the natural cooling of a period of time, then it is conveyed directly to
Carry out cutting action on cutting machine, i.e. realize the extruded of section bar with cutting Continuous maching, with prior art in molding with cut
Cut the technique separately carried out to compare, reduce and hall space is taken, it is to avoid the workman transhipment frequency to section bar, reduce labor
While fatigue resistance, reduce the production cost of section bar;
2, the present invention is provided with the deflector of inclination on the sidewall of heat insulation cavity, and this deflector can be to the liquid of heat insulation cavity bottom
Body is dredged, the speed that accelerating liquid is flowed out by discharge outlet, to avoid liquid to remain in heat insulation cavity;
3, the present invention selects spiral nozzle, the cooling medium in arm can be made to be sprayed on section bar with the form of taper water curtain, make
Obtaining the area increase that cooling medium was attached on section bar within the unit interval, the most multiple main jet heads and multiple side spray head are
Being distributed side by side, i.e. section bar is in moving process, can carry out spray is repeated several times with a part, considerably increases the cooling speed of section bar
Degree, the utilization rate of cooling medium increases the most accordingly simultaneously, thus reduces the consumption of cooling medium.
Accompanying drawing explanation
Accompanying drawing described herein is used for providing being further appreciated by the embodiment of the present invention, constitutes of the application
Point, it is not intended that the restriction to the embodiment of the present invention.In the accompanying drawings:
Fig. 1 is present configuration schematic diagram;
Fig. 2 is the structural representation of extruder;
Fig. 3 is extruder longitdinal cross-section diagram;
Fig. 4 is the structural representation of cutting machine;
Fig. 5 is the structural representation of discharge nozzle.
Labelling and corresponding parts title in accompanying drawing:
1-extruder, 11-extrusion body, 12-discharge barrel, 13-feed pipe, the heat insulation cavity of 14-, 15-water cooling box, 16-arm,
161-main jet head, 17-side spray head, 18-water injection pipe, 19-deflector, 110-support, 111-discharge nozzle, 112-discharge outlet, 113-
Section bar, 114-moisture probe, 115-exhaust column, 116-blower fan, 117-sponge block, 118-tank, 2-roller conveyer belt, 3-cut
Machine, 31-cylinder, 32-guide rod, 33-slide block, 34-housing, 35-cover body, 36-saw blade, 37-belt, 38-cavity, 39-cutting hole,
310-connecting rod, 311-regulating block, 312-roller, 313-bull stick, 314-motor.
Detailed description of the invention
For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with embodiment and accompanying drawing, to this
Invention is described in further detail, and the exemplary embodiment of the present invention and explanation thereof are only used for explaining the present invention, do not make
For limitation of the invention.
Embodiment 1
As shown in Fig. 1 ~ Fig. 5, the present embodiment includes that extruder 1 and cutting machine 3, described extruder 1 pass through roller conveyer belt 2 and cut
Cutting mill 3 connects, and described extruder 1 includes extrusion body 11 and the water cooling box 15 being arranged on support 110, at water cooling box 15
Being respectively arranged at two ends with coaxial feed pipe 13 and discharge nozzle 111, the discharge barrel 12 of described extrusion body 11 docks with feed pipe 13,
Heat insulation cavity 14 is installed in described water cooling box 15, and feed pipe 13 and discharge nozzle 111 extend through the two of heat insulation cavity 14
Sidewall, is provided with reclinate arc arm 16 in heat insulation cavity 14, and arm 16 is by between feed pipe 13 and discharge nozzle 111
Region overlay, is separately installed with multiple side spray 17 at 16 two bending section end ends of arm, is provided with many in the middle part of arm 16 lower wall
The individual main jet head 161 being distributed side by side, connects in the middle part of arm 16 upper wall and has water injection pipe 18, described water injection pipe 18 upper end to run through heat-insulation chamber
Body 14 and the upper wall of water cooling box 15 and stretch out, and the discharge outlet connected with heat insulation cavity 14 is had in water cooling box 15 lower end
112, in described heat insulation cavity 14, the position near discharge nozzle 111 is additionally provided with exhaust column 115, pacifies in the lower end of exhaust column 115
Equipped with moisture probe 114, exhaust column 115 upper end is run through heat insulation cavity 14 and the upper wall of water cooling box 15 and stretches out, and
Being provided with the blower fan 116 connected with described exhaust column 115 on water cooling box 15, moisture probe 114 is by controller and described blower fan
116 electrical connections, the longitudinal cross-section of described discharge nozzle 111 is shape, is provided with inverted U-shaped sponge on described discharge nozzle 111 inwall
Block 117, the thickness of described sponge block 117 is incremented by along the direction that section bar 113 moves, and has on described discharge nozzle 111 bottom surface
Tank 118;
Described cutting machine 3 includes housing 34 and is arranged on the cover body 35 of housing 34 upper end, and described cover body 35 is respectively arranged at two ends with
Import and outlet, be from top to bottom disposed with guide rod 32 and motor 314 in described housing 34, and slide block 33 is set in guide rod 32
On, slide block 33 is provided with saw blade 36, the rotating shaft of described saw blade 36 is connected with the outfan of motor 314 by belt 37,
Housing 34 sidewall is provided with cylinder 31, and the outfan activity of described cylinder 31 runs through after housing 34 outer wall with the sidewall of slide block 33 even
Connecing, have the cutting hole 39 parallel with guide rod 32 at housing 34 upper surface, described cutting hole 39 is run through on saw blade 36 top, at cover body
The cavity 38 just to described cutting hole 39 is had in 35;Housing 34 inwall rotates and is provided with the bull stick vertical with guide rod 32
313, and bull stick 313 is placed between slide block 33 and motor 314, is provided with regulating block 311 in the lower end of described slide block 33, in regulation
Cingulum is installed on block 311 bottom surface, bull stick 313 is fixed with the gear matched with cingulum, on the outer circle wall of bull stick 313
It is symmetrically arranged with two connecting rods 310, and rotates at the end of connecting rod 310 and be provided with the roller 312 parallel with bull stick 313, described
The outer wall of roller 312 contacts with the medial wall of described belt 37.
Section bar, after extruded, generally uses air cooling way to lower the temperature, however the cooling effect of air-cooled supply line difference and
The transportation route caused increases, and the problem causing whole production cost to strengthen is increased in the requirement to Factory Building, equipment, and inventor is to type
Material 113 extruder improves, and i.e. sets up water cooling box 15 at the discharge barrel 12 of extrusion body 11, utilizes water-cooling pattern to high temperature
Aluminium quickly cool down, multiple main jet heads 161 different piece to section bar 113 Tong Bu with side spray 17 in water cooling box 15
Spray, carry out heat exchange between the cooling medium stream intensive with high speed and section bar 113, and remain in water cooling box 15 bottom
Liquid then passes through the outer row of discharge outlet 112, and temperature reduces the section bar 113 of normal temperature and then passes through discharge nozzle 111 to unofficial biography
Send, under shorter water cooling lines, i.e. realize the continuous coo1ing to section bar 113, greatly reduce cooling device to hall space
Take, reached to reduce the purpose of production cost simultaneously.Wherein, the arm 16 being connected with water injection pipe 18 is circular arc, this circular arc
Section bar 113 can be completely covered by the arm 16 of shape by the region between feed pipe 13 to discharge nozzle 111, i.e. section bar 113 exists
Water cooling box 15 medium section 113 just carries out refrigerating work procedure to start to feed, and main jet head 161 and side spray 17 are respectively to section bar
The upper surface of 113 and two sides spray;And heat insulation cavity 14 is installed in water cooling box 15, this heat insulation cavity 14
Section bar 113 can be distributed and cooling medium outer wall isolation of produced heat and water cooling box 15 after intensification is opened, be prevented
The only outer wall persistent fever of cooler bin in whole cooling procedure, it is to avoid staff occurs security incident.
When section bar 113 cuts, produced chip splashes, while affecting cutting progress, chip is also easy to
Affect the sight line of operator, and then increase the occurrence probability of security incident;Inventor solves such problem, designs one
New types of cutting devices, is i.e. provided with motor 314 in housing 34, and the outfan of motor 314 is turned by belt 37 and saw blade 36
Axle connects, and has cutting hole 39 at housing 34 upper wall, and the upper end of saw blade 36 is run through cutting hole 39 and projects upwards, and cover body 35 will be cut
Cut hole 39 to be completely covered, i.e. the cutting step of aluminium section bar 113 is carried out in the cavity 38 of cover body 35 so that cutting is produced broken
Bits are only movable in cavity 38, and cannot sputter everywhere, and cover body 35 may select transparent plastic jacket, to facilitate operator
Observing the cutting situation of aluminium section bar 113 at any time, it is internal that the chip of generation is displaced downwardly to housing 34 by cutting hole 39, is received by concentration
Chip can also be recycled by collection, and then reaches to avoid cutting chip to spill everywhere, improves aluminium section bar 113 cutting simultaneously
The purpose of safety reliability.
During use, the initial position of saw blade 36 is positioned at the end, one end in cutting hole 39, starts cylinder 31 so that cylinder 31 is defeated
Going out to hold band movable slider 33 to move, now saw blade 36 then moves towards its other end end, until connecing with aluminium section bar 113 along cutting hole 39
Touch, i.e. start aluminium section bar 113 is carried out cutting action;In moving process, for ensureing the rate of tension of belt 37 self, at saw blade
36 when carrying out straight reciprocating motion on guide rod 32, and the cingulum that regulating block 311 bottom surface is installed engage with gear, and then drive turn
Bar 313 is freely rotatable, and while bull stick 313 rotates, two connecting rods 310 being positioned on bull stick 313 outer wall carry out synchronous axial system,
I.e. with the center of bull stick 313 as the center of circle, two rollers 312 contacted with belt 37 medial wall start to move in a circle around the center of circle,
Between the rotating shaft and the outfan of motor 314 of saw blade 36 during spacing minimum, connecting rod 310 in horizontal positioned state, belt 37 quilt
Two rollers 312 are supported, and the amplitude expanded outwardly reaches maximum, to ensure the rate of tension of belt 37, it is ensured that motor 314
The frequency driving saw blade 36 to rotate remains unchanged;During spacing maximum between the rotating shaft and the outfan of motor 314 of saw blade 36,
Saw blade 36 completes the cutting to aluminium section bar 113, and after now connecting rod 310 occurs circular motion, two connecting rods 310 are inclined,
I.e. two rollers 312 are in one high and one low distribution, and ensure that two rollers 312 contact with the medial wall of belt 37, now belt 37
The radian expanded outwardly is minimum, and the rate of tension of self keeps constant.By bull stick 313, connecting rod 310 and roller 312 and cunning
Being synchronized with the movement of block 33, it is ensured that saw blade 36 either in original state still in cut state, the rate of tension of belt 37 self
Remain inconvenience, ensure the saw blade 36 stable cutting to aluminium section bar 113, it is to avoid saw blade 36 is because of the change of the rate of tension of belt 37
Produce, when cutting, situations such as pausing, beat, reach to improve the purpose of aluminium section bar 113 cutting efficiency.
Further, in heat insulation cavity 14, after coolant contacts with the section bar 113 under the condition of high temperature, coolant can vapour
Change to take away the heat on section bar 113, and pile up in the easy heat insulation cavity 14 of steam under vapor state, and then cause heat insulation
Temperature in cavity 14 remains at a higher level, and the section bar 113 i.e. moved outside discharge nozzle 111 remains on higher
Temperature, and then significantly impact the cooling progress of section bar 113;Owing to section bar 113 just enters into heat-insulation chamber from feed pipe 111
Heat entrained during body 14 is maximum, and the steam vapour amount produced when coming in contact with coolant is maximum, for ensureing that steam is dense
The accuracy of degree detection data, therefore inventor is at the back segment of heat insulation cavity 14, i.e. installs convulsion near the position of discharge nozzle 111
Pipe 115, and moisture probe 114 is installed in the lower end of exhaust column 115, when at this, the humidity of position reaches limits value, humidity is visited
Detection data are transferred to controller by 114, and controller sends control command and blower fan 116 is brought into operation, i.e. start to every
Steam in hot cavity 14 carries out outer row, with cooler environment stable in ensureing heat insulation cavity 14.Further, at section bar
113 when being sent out by discharge nozzle 111, due to the particularity of water-cooling pattern, can be accompanied with a certain amount of on the outer wall of section bar 113
Liquid, is susceptible to oxidation at natural environment lower sectional material 113 and reduces himself quality, and therefore inventor is at discharge nozzle 111
Lay on inwall by inverted U-shaped sponge block 117, and the thickness of sponge block 117 be incremented by along the direction that section bar 113 moves so that
When section bar 113 moves in discharge nozzle 111, upper surface and the two side of section bar 113 is directly cleared up by sponge block 117,
Along with the movement of section bar 113, one end that sponge block 117 thickness is bigger starts to deform upon, and i.e. starts to be inhaled sponge block 1171
Receive liquid extrusion and flow out along tank 118, on section bar 113 outer wall residual partially liq then in transmitting procedure by from
So air-dry, and then ensure the quality after section bar 113 cooling.
Wherein, the side inwall that described heat insulation cavity 14 is connected with feed pipe 13 is provided with deflector 19, described water conservancy diversion
The direction that plate 19 is horizontally directed to discharge nozzle 111 along feed pipe 13 is downward-sloping.The sidewall of heat insulation cavity 14 is provided with inclination
Deflector 19, the liquid bottom heat insulation cavity 14 can be dredged by this deflector 19, and accelerating liquid is flowed out by discharge outlet 112
Speed, to avoid liquid to remain in heat insulation cavity 14.
As preferably, select spiral nozzle, the cooling medium in arm 16 can be made to be sprayed at type with the form of taper water curtain
On material 113 so that area that cooling medium was attached on section bar 113 within the unit interval increases, the most multiple main jet heads 161 with
And multiple side spray 17 is and is distributed side by side, i.e. section bar 113 is in moving process, can carry out spray is repeated several times with a part,
Considerably increasing the rate of cooling of section bar 113, the utilization rate of cooling medium increases the most accordingly simultaneously, thus reduces cooling medium
Consumption.
As preferably, XPS extruded sheet is again extrusion moulding type polystyrene heat insulating board, and it is cellular that it has perfect closed pore
Structure, is likewise supplied with high pressure resistance, ageing resistance, low thermal conductivity coefficient and relatively low water absorption, and section bar 113 can cool down time institute
Between the heat and the outer wall of water cooling box 15 that produce, isolation is opened completely, it is to avoid the temperature of water cooling box 15 is too high and increases the behaviour of workman
Make difficulty.
Above-described detailed description of the invention, has been carried out the purpose of the present invention, technical scheme and beneficial effect further
Describe in detail, be it should be understood that the detailed description of the invention that the foregoing is only the present invention, be not intended to limit the present invention
Protection domain, all within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. done, all should comprise
Within protection scope of the present invention.
Claims (4)
1. the process equipment of sliding door and window aluminium section bar, including extruder (1) and cutting machine (33), described extruder (1) passes through roller
Cylinder conveyer belt (2) is connected with cutting machine (33), it is characterised in that: described extruder (1) includes extrusion body (11) and installs
Water cooling box (15) on support (110), is respectively arranged at two ends with coaxial feed pipe (13) and discharge nozzle at water cooling box (15)
(111), the discharge barrel (12) of described extrusion body (11) docks with feed pipe (13), be provided with in described water cooling box (15) every
Hot cavity (14), and feed pipe (13) and discharge nozzle (111) extend through the two side of heat insulation cavity (14), at heat insulation cavity
(14) being provided with reclinate arc arm (16) in, arm (16) is by the region between feed pipe (13) and discharge nozzle (111)
Cover, be separately installed with multiple side spray head (17) at (16) two bending section end ends of arm, be provided with in the middle part of arm (16) lower wall
Multiple main jet heads (161) being distributed side by side, connect in the middle part of arm (16) upper wall and have water injection pipe (18), described water injection pipe (18) upper end
Run through heat insulation cavity (14) and the upper wall of water cooling box (15) and stretch out, and having and heat-insulation chamber in water cooling box (15) lower end
The discharge outlet (112) that body (14) connects, in described heat insulation cavity (14), the position near discharge nozzle (111) is additionally provided with exhaust column
(115), being provided with moisture probe (114) in the lower end of exhaust column (115), heat insulation cavity (14) is run through in exhaust column (115) upper end
And the upper wall of water cooling box (15) and stretching out, and it is provided with on water cooling box (15) and connects with described exhaust column (115)
Blower fan (116), moisture probe (114) is electrically connected with described blower fan (116) by controller, the longitudinal direction of described discharge nozzle (111)
Cross section is shape, is provided with inverted U-shaped sponge block (117), the thickness of described sponge block (117) on described discharge nozzle (111) inwall
Spend the direction along section bar (113) movement to be incremented by, and on described discharge nozzle (111) bottom surface, have tank (118);Described cutting machine
(33) including housing (34) and be arranged on the cover body (35) of housing (34) upper end, described cover body (35) is respectively arranged at two ends with import
With outlet, being from top to bottom disposed with guide rod (32) and motor (314) in described housing (34), slide block (33) is set in leads
On bar (32), being provided with saw blade (36) on slide block (33), the rotating shaft of described saw blade (36) is by belt (37) and motor (314)
Outfan connect, at housing (34) sidewall, cylinder (31) is installed, the outfan activity of described cylinder (31) runs through housing
(34) after outer wall, sidewall with slide block (33) is connected, and has the cutting hole parallel with guide rod (32) at housing (34) upper surface
(39), described cutting hole (39) is run through on saw blade (36) top, has the cavity just to described cutting hole (39) in cover body (35)
(38);Housing (34) inwall rotates and is provided with the bull stick (313) vertical with guide rod (32), and bull stick (313) is placed in slide block
(33) and between motor (314), in the lower end of described slide block (33), regulating block (311) is installed, on regulating block (311) bottom surface
Being provided with cingulum, bull stick is fixed with, on (313), the gear matched with cingulum, and on the outer circle wall of bull stick (313), symmetry sets
It is equipped with two connecting rods (310), and rotates at the end of connecting rod (310) and be provided with the roller (312) parallel with bull stick (313), institute
The medial wall of the outer wall and described belt (37) of stating roller (312) contacts.
The process equipment of sliding door and window aluminium section bar the most according to claim 1, it is characterised in that: at described heat insulation cavity
(14) the side inwall being connected with feed pipe (13) is provided with deflector (19), and described deflector (19) is along feed pipe (13) level
The direction pointing to discharge nozzle (111) is downward-sloping.
The process equipment of sliding door and window aluminium section bar the most according to claim 1, it is characterised in that: described main jet head (161)
And side spray head (17) is spiral nozzle.
The process equipment of sliding door and window aluminium section bar the most according to claim 1, it is characterised in that: described heat insulation cavity (14)
The seamless cavity being spliced to form for multiple XPS extruded sheets.
Priority Applications (1)
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CN201610741599.3A CN106239161A (en) | 2016-08-29 | 2016-08-29 | The process equipment of sliding door and window aluminium section bar |
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CN201610741599.3A CN106239161A (en) | 2016-08-29 | 2016-08-29 | The process equipment of sliding door and window aluminium section bar |
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Cited By (3)
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CN114211301A (en) * | 2021-11-11 | 2022-03-22 | 江苏轩辕特种材料科技有限公司 | Automatic cooling mechanism used in alloy production and cutting process |
CN114505525A (en) * | 2022-03-07 | 2022-05-17 | 黄河水利职业技术学院 | Machining of mechanical die is with plate shearing machine that has anti-skidding structure |
CN116984703A (en) * | 2023-09-25 | 2023-11-03 | 四川吉埃智能科技有限公司 | Flame cutting robot and using method thereof |
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CN116984703B (en) * | 2023-09-25 | 2023-12-05 | 四川吉埃智能科技有限公司 | Flame cutting robot and using method thereof |
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