CN109764039A - A kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine - Google Patents
A kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine Download PDFInfo
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- CN109764039A CN109764039A CN201910168000.5A CN201910168000A CN109764039A CN 109764039 A CN109764039 A CN 109764039A CN 201910168000 A CN201910168000 A CN 201910168000A CN 109764039 A CN109764039 A CN 109764039A
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- 238000000465 moulding Methods 0.000 title claims abstract description 30
- 230000007246 mechanism Effects 0.000 claims abstract description 34
- 230000001105 regulatory effect Effects 0.000 claims abstract description 30
- 239000002994 raw material Substances 0.000 claims abstract description 18
- 239000000853 adhesive Substances 0.000 claims abstract description 13
- 230000001070 adhesive effect Effects 0.000 claims abstract description 13
- 230000005540 biological transmission Effects 0.000 claims abstract description 8
- 238000010008 shearing Methods 0.000 claims description 7
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 abstract description 13
- 239000010949 copper Substances 0.000 abstract description 13
- 229910052802 copper Inorganic materials 0.000 abstract description 13
- 239000000463 material Substances 0.000 abstract description 6
- 238000007493 shaping process Methods 0.000 abstract 1
- 239000003292 glue Substances 0.000 description 9
- 230000033001 locomotion Effects 0.000 description 5
- 238000000034 method Methods 0.000 description 5
- 239000007787 solid Substances 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 230000005611 electricity Effects 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 238000003780 insertion Methods 0.000 description 2
- 230000037431 insertion Effects 0.000 description 2
- 238000004026 adhesive bonding Methods 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 230000008602 contraction Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
- 230000004044 response Effects 0.000 description 1
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Abstract
The invention discloses a kind of angles and height-adjustable piezoelectricity ripple cantilever beam molding machine, including fixation device, cutting mechanism, upper angle regulating mechanism, the lower angle regulating mechanism, transmission mechanism being arranged in framework;Raw material roll shaft, clamping roll shaft, guiding roll shaft are equipped in fixed device, height-adjustable adhesive box is arranged in the lower section for clamping roll shaft;The regulating part for adjusting angle forming plate angle degree is equipped in upper and lower angle adjusting mechanism;Transmission mechanism includes rack-and-pinion;Shear knife is set between raw material roll shaft and clamping roll shaft, and lower angle regulating mechanism is fixedly arranged at the front end with grip block, and rack gear is fixed on lower angle adjustable plate.The present invention realizes that molding ripple angle is arbitrarily adjustable by the way that angle adjustment plate up and down is arranged, and the angle and height of ripple can be adjusted as needed, while also the spacing of ripple can be adjusted;In addition, the present invention can be directly adhesion-molded with copper bar by piezoelectric material, the shaping efficiency of piezoelectricity ripple cantilever beam is improved, it is easy to operate.
Description
Technical field
The invention belongs to piezoelectric cantilever molding equipment technical field more particularly to a kind of angle and height-adjustable piezoelectricity
Ripple cantilever beam molding machine.
Background technique
Piezoelectric material is a kind of ideal energy converting between mechanical material, and fast response time, cost is relatively low, and structure is simple,
With very high energy density, peak energy denisty is up to 100~10000KW/kg, therefore, can pass through energy recycle device pair
The energy that piezoelectric material generates is acquired recycling.
Piezoelectric type vibration energy acquisition structure mostly uses cantilever beam structure at present, in order to increase its energy conversion efficiency, leads to
Frequently with piezoelectricity ripple type cantilever beam, the molding equipment of existing piezoelectricity ripple type cantilever beam cannot be to the corrugated type of cantilever beam institute
Angle and height be adjusted so that it is impossible to meet the need under the conditions of different application for the ripple cantilever beam of single shape
It asks, in addition, piezoelectricity band is pasted after the molding of ripple cantilever beam, increases the complexity of process, reduce efficiency.
Summary of the invention
The purpose of the present invention is to provide a kind of angles and height-adjustable piezoelectricity ripple cantilever beam molding machine, can basis
Demand adjusts the spacing between profile angle, height and the ripple of piezoelectricity ripple cantilever beam, to meet the application under different condition
Demand, and can directly be bonded piezoelectric material and copper strap in forming process.
The invention is realized in this way a kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine, including frame
Fixed device, cutting mechanism, upper angle regulating mechanism, lower angle regulating mechanism, transmission mechanism are arranged in the framework for body;Institute
It states in the supporting table that fixed device is set in framework, the fixed device includes the raw material set gradually along raw material traffic direction
Roll shaft, clamping roll shaft, the first guiding roll shaft, the second guiding roll shaft, height-adjustable glue is arranged in the lower section of the clamping roll shaft
Box;
The cutting mechanism includes the first stepper motor, the first cam tracks, swing rod, shear knife, the first stepping electricity
The output end of machine is connect with the first cam tracks, and first cam tracks are connect by connecting rod with swing rod, the swing rod and
Shear knife connection;
The upper angle regulating mechanism include second stepper motor, cam, extensible member, upper angle adjustable plate, upper angle at
The output end of template, the second stepper motor is connect with cam, the lower edge of the cam and the upper-end contact of extensible member, institute
The lower end for stating extensible member is fixed on upper angle adjustable plate, installs angle forming plate below the upper angle adjustable plate, described
Upper angle adjustable plate is equipped with the first regulating part for adjusting upper angle profiled sheeting angle;
The lower angle regulating mechanism includes that shaft, the first bevel gear, the second bevel gear, the second cam tracks, cam are led
Rail disk, lower angle adjustable plate, lower angle profiled sheeting, the first bevel gear is fixed in the shaft, and the first bevel gear engagement connects
The second bevel gear is connect, second bevel gear is connect with the second cam tracks, and the second cam tracks are installed in cam tracks disk,
Second cam tracks are connect by pin with lower angle adjustable plate, on the lower angle adjustable plate along raw material traffic direction according to
The secondary multiple lower angle profiled sheetings of installation, the lower angle adjustable plate are equipped with the second adjusting for adjusting lower angle profiled sheeting angle
Part;
The transmission mechanism includes third stepper motor, gear, rack gear, the output end and gear of the third stepper motor
Connection, the gear engagement connection rack gear;
The shear knife is set between raw material roll shaft and clamping roll shaft, and the lower angle adjustable plate is fixedly arranged at the front end with folder
Plate is held, the upper angle profiled sheeting is placed in the top of the lower angle profiled sheeting, and the rack gear is fixed on lower angle adjustable plate,
And the lower angle adjustable plate is run along the length direction of the rack gear.
Preferably, gum box is arranged in the top of the adhesive box, and the bottom of the gum box is fixed with quarter butt, the quarter butt
On be fixed with the first limit plate, the quarter butt part below first limit plate is socketed with the first spring, the side of the adhesive box
Face is equipped with upper and lower two inserting-plate holes, is inserted with inserted sheet in one of inserting-plate hole.
Preferably, multiple concentric and of different sizes second cam tracks are installed in the cam tracks disk, it is described
Multiple pins corresponding with each second cam tracks are set on lower angle adjustable plate.
Preferably, the extensible member includes that fixed link and upper end that lower end is fixed on upper angle adjustable plate and cam are following
The bearing plate of edge contact, is fixed with the second limit plate, the fixation bar part set above second limit plate in the fixed link
It is connected to second spring, the bottom of bearing plate is fixed in the upper end of the second spring.
Preferably, first regulating part is screw-nut, along the angle of upper angle profiled sheeting on the upper angle adjustable plate
Degree folding direction is equipped with long through slot, and two angle board upper ends of the upper angle profiled sheeting are respectively equipped with and can be placed in long through slot
First protruding pin, the screw-nut are installed on the long through slot on the outside of first protruding pin of two angle boards.
Preferably, second regulating part is to latch, and the angle on the lower angle adjustable plate along lower angle profiled sheeting is opened
It closes direction and is equipped with arc-shaped slot, two angle board lower ends of the lower angle profiled sheeting are respectively equipped with and can be placed in arc-shaped slot
Second protruding pin, is equipped with multiple fixed pins on the lower angle profiled sheeting at arc-shaped slot, the fixed pin by lock with
The connection of second protruding pin.
Preferably, the swing rod includes the first swing rod arm, the second swing rod arm and third swing rod arm, the connecting rod and first
Swing rod arm connects, and the second swing rod arm and third swing rod arm, the second swing rod arm and third pendulum are connected on the first swing rod arm
Lever arm is separately connected the first shearing tool arm and the second shearing tool arm of shear knife.
Preferably, the lower section of the upper angle adjustable plate is equipped with positioning column, the post holes on the positioning column insertion fixed frame
In and can be moved up and down along post holes.
Preferably, the outer end of the shaft is connected with handle, and the handle is placed in outside framework, is fixed in the shaft solid
Price fixing, the framework and shaft junction are equipped with fixture nut, and the fixed disk is fixed by fixture nut.
Preferably, setting support roll shaft in the supporting table, the support roll shaft be set to raw material roll shaft and shear knife it
Between.
Compared with the prior art the shortcomings that and deficiency, the invention has the following advantages: the present invention is by being arranged upper angle
Adjustable plate and lower angle adjustable plate are spent, realizes that molding ripple angle is arbitrarily adjustable, the ripple of plastic equal angular can also be at
The ripple of type different angle, the angle and height of ripple can be adjusted as needed, at the same can also spacing to ripple into
Row is adjusted;In addition, the present invention can be directly adhesion-molded with copper bar by piezoelectric material, the molding effect of piezoelectricity ripple cantilever beam is improved
Rate, it is easy to operate.
Detailed description of the invention
Fig. 1 is the master of a kind of angle provided in an embodiment of the present invention and height-adjustable piezoelectricity ripple cantilever beam molding machine
View.
Fig. 2 is the cross-sectional view in Fig. 1 at A-A.
Fig. 3 is the cross-sectional view in Fig. 1 at B-B.
Fig. 4 is a left side for a kind of angle provided in an embodiment of the present invention and height-adjustable piezoelectricity ripple cantilever beam molding machine
View.
Fig. 5 is the cross-sectional view in Fig. 4 at C-C.
Fig. 6 is the cross-sectional view in Fig. 4 at D-D.
Fig. 7 is the cross-sectional view in Fig. 5 at F.
Fig. 8 is bowing for a kind of angle provided in an embodiment of the present invention and height-adjustable piezoelectricity ripple cantilever beam molding machine
View.
Fig. 9 is the cross-sectional view in Fig. 8 at E-E.
Figure 10 is provided in an embodiment of the present invention.
Figure 11 is the structural schematic diagram of upper angle profiled sheeting provided in an embodiment of the present invention.
Figure 12 is the structural schematic diagram of upper angle adjustable plate provided in an embodiment of the present invention.
Figure 13 is the structural schematic diagram that lower angle profiled sheeting provided in an embodiment of the present invention is installed on lower angle adjustable plate.
In figure: 1- framework;2- supporting table;3- raw material roll shaft;4- clamps roll shaft;5- first is oriented to roll shaft;6- second is oriented to
Roll shaft;7- adhesive box;71- gum box;72- quarter butt;The first limit plate of 73-;The first spring of 74-;75- inserting-plate hole;76- inserted sheet;
The first stepper motor of 8-;The first cam tracks of 9-;10- connecting rod;11- swing rod;111- the first swing rod arm;The second swing rod of 112-
Arm;113- third swing rod arm;12- shear knife;121- first shears tool arm;122- second shears tool arm;13- the second stepping electricity
Machine;14- cam;15- extensible member;151- fixed link;152- bearing plate;The second limit plate of 153-;154- second spring;On 16-
Angle adjustment plate;161- long through slot;17- upper angle profiled sheeting;The first protruding pin of 171-;The first regulating part of 18-;19- shaft;20-
First bevel gear;The second bevel gear of 21-;The second cam tracks of 22-;23- cam tracks disk;24- lower angle adjustable plate;241- arc
Shape through slot;242- fixed pin;25- lower angle profiled sheeting;The second protruding pin of 251-;26- pin;The second regulating part of 27-;28- third
Stepper motor;29- gear;30- rack gear;31- grip block;32- positioning column;33- fixed frame;34- handle;35- fixed disk;36-
Fixture nut;37- supports roll shaft;38- band.
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
- Fig. 5 referring to Fig.1, a kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine, including framework 1, framework
Fixed device, cutting mechanism, upper angle regulating mechanism, lower angle regulating mechanism, transmission mechanism are set in 1.
Referring to Fig. 5, Fig. 8 and Fig. 9, fixed device is set in the supporting table 2 in framework 1, and fixed device includes along raw material
Stock roll 3 that traffic direction is set gradually, clamping roll shaft 4, the first guiding roll shaft 5, second are oriented to roll shaft 6, clamp under roll shaft 4
Height-adjustable adhesive box 7 is arranged in side.For the specific structure of adhesive box 7 referring to shown in Fig. 7, gum box is arranged in the top of adhesive box 7
71, the bottom of gum box 71 is fixed with quarter butt 72, and the first limit plate 73 is fixed on quarter butt 72, short below the first limit plate 73
72 part of bar is socketed with the first spring 74, and the side of adhesive box 7 is equipped with upper and lower two inserting-plate holes 75, in one of inserting-plate hole 75
It is inserted with inserted sheet 76.When needing to paste copper strip and piezoelectricity band by glue, in the inserting-plate hole 75 of the insertion of inserted sheet 76 top, the
The elongation of one spring 74, pushes the first limit plate 73 to move up, then by pushing top solid with the fixed quarter butt 72 of the first limit plate 73
Fixed gum box 71 moves up, and contacts the glue in gum box 71 with the lower roller shaft of clamping roll shaft 4, when band is run, niproll
Axis 4 rotates, and lower roller shaft can be stained with glue and be applied on band.When not needing using glue, gum box 71 is pushed, inserts inserted sheet 76
In the inserting-plate hole 75 for entering lower section, inserted sheet 76 compresses the first spring 74 by the first limit plate 73, make glue in gum box 71 with
The lower roller shaft of clamping roll shaft 4 does not contact.
Referring to Fig. 2, cutting mechanism includes the first stepper motor 8, the first cam tracks 9, swing rod 11, shear knife 12, and first
The output end of stepper motor 8 is connect with the first cam tracks 9, and the first cam tracks 9 are connect by connecting rod 10 with swing rod 11, is put
Bar 11 is connect with shear knife 12.As shown in Fig. 2, swing rod 11 includes the first swing rod arm 111, the second swing rod arm 112 and third swing rod
Arm 113, connecting rod 10 are connect with the first swing rod arm 111, and the second swing rod arm 112 and third swing rod are connected on the first swing rod arm 111
Arm 113, the second swing rod arm 112 and third swing rod arm 113 are separately connected the first shearing tool arm 121 and the second shearing of shear knife 12
Tool arm 122.
Referring to Fig. 2, Fig. 3 and Fig. 5, upper angle regulating mechanism include second stepper motor 13, cam 14, extensible member 15, on
The output end of angle adjustment plate 16, upper angle profiled sheeting 17, second stepper motor 13 is connect with cam 14, the lower edge of cam 14
With the upper-end contact of extensible member 15, the lower end of extensible member 15 is fixed on upper angle adjustable plate 16,16 lower section of upper angle adjustable plate
Angle forming plate 17 is installed, upper angle adjustable plate 16 is equipped with the first regulating part 18 for adjusting 17 angle of upper angle profiled sheeting.
Extensible member 15 can move up and down in 14 rotation process of cam, when the axle center of cam 14 and being closer for 15 upper end of extensible member
When, extensible member 15 is in extended state, when the axle center of cam 14 at a distance from 15 upper end of extensible member farther out when, extensible member 15 is in
Compressive state passes through moving up and down for the extension and contraction control upper angle profiled sheeting 17 of extensible member 15.Such as Fig. 2, Fig. 3, Fig. 5 and Fig. 9 institute
Show, extensible member 15 includes that the fixed link 151 that lower end is fixed on upper angle adjustable plate 16 and upper end are contacted with 14 lower edge of cam
Bearing plate 152, the second limit plate 153,151 part of the fixed link set of 153 top of the second limit plate are fixed in fixed link 151
It is connected to second spring 154, the bottom of bearing plate 152 is fixed in the upper end of second spring 154.As is illustrated by figs. 11 and 12, first
Regulating part 18 is screw-nut, and the angle folding direction on upper angle adjustable plate 16 along upper angle profiled sheeting 17 is equipped with long through slot
161, two angle board upper ends of upper angle profiled sheeting 17 are respectively equipped with the first protruding pin 171 that can be placed in long through slot 161, screw
Nut is installed on the long through slot 161 in 171 outside of the first protruding pin of two angle boards.It is solid on same long through slot 161 by adjusting
The distance between two fixed screw-nuts are close and adjust the angle of upper angle profiled sheeting 17.
Referring to Fig. 2, Fig. 3, Fig. 5, Fig. 6 and Fig. 9, lower angle regulating mechanism includes shaft 19, the first bevel gear 20, the second umbrella
Gear 21, the second cam tracks 22, cam tracks disk 23, lower angle adjustable plate 24, lower angle profiled sheeting 25, it is fixed in shaft 19
First bevel gear 20, the first bevel gear 20 engagement the second bevel gear 21 of connection, the second bevel gear 21 and the second cam tracks 22 connect
It connects, the second cam tracks 22 are installed in cam tracks disk 23, and the second cam tracks 22 pass through pin 26 and lower angle adjustable plate
24 connect, and successively install multiple lower angle profiled sheetings 25, lower angle adjustable plate along raw material traffic direction on lower angle adjustable plate 24
24 are equipped with the second regulating part 27 for adjusting 25 angle of lower angle profiled sheeting.As shown in figure 13, the second regulating part 27 is lock, under
Angle folding direction on angle adjustment plate 24 along lower angle profiled sheeting 25 is equipped with arc-shaped slot 241, lower angle profiled sheeting 25
Two angle board lower ends are respectively equipped with the second protruding pin 251 that can be placed in arc-shaped slot 241, close arc on lower angle profiled sheeting 25
Multiple fixed pins 242 are equipped at shape through slot 241, fixed pin 242 is connect by lock with the second protruding pin 251.By by lower angle
Respectively arranged second protruding pin 251 in two angle board lower ends of profiled sheeting 25 is fixed on the different fixation in 241 top of arc-shaped slot
The angle and height of lower angle profiled sheeting 25 are adjusted on pin 242.In order to molded on same band it is equidistant or not etc. between
Away from ripple, the second multiple concentric and of different sizes cam tracks 22, lower angle adjustable plate 24 are installed in cam tracks disk 23
The upper multiple pins 26 corresponding with each second cam tracks 22 of setting (referring to Fig. 5 and Figure 10).When lesser second cam is led
Rail 22 and corresponding pin 26 connect and other second cam tracks 22 when being not connected to pin 26, in the second cam tracks 22
Under driving, the distance that lower angle adjustable plate 24 moves is smaller, and the spacing between lower angle profiled sheeting 25 is smaller, then molding ripple
Between spacing it is smaller;When biggish second cam tracks 22 connect and other second cam tracks 22 with corresponding pin 26
When being not connected to pin 26, under the driving of the second cam tracks 22, lower angle adjustable plate 24 move distance it is larger, lower angle at
Spacing between template 25 is larger, then the spacing between molding ripple is larger;It therefore, can be by selecting the second of particular size
Cam tracks 22 are connected with corresponding pin 26, and the movement of lower angle adjustable plate 24 is controlled by the size of the second cam tracks 22
Distance, so that the distance between multiple lower angle adjustable plates 24 are adjusted, when the pin 26 on different lower angle adjustable plates 24 connects
When 22 size of the second cam tracks connect is identical, the distance between multiple lower angle adjustable plates 24 are identical, when different lower angles
When the second cam tracks 22 that pin 26 on adjustable plate 24 connects are of different sizes, between not equal between multiple lower angle adjustable plates 24
Away from.After adjusting required spacing, the connection between pin 26 and the second cam tracks 22 is released.
Referring to Fig. 2, Fig. 3 and Fig. 6, transmission mechanism includes third stepper motor 28, gear 29, rack gear 30, third stepping electricity
The output end of machine 28 is connect with gear 29, the engagement connection rack gear 30 of gear 29.
Referring to figure 5 and figure 6, shear knife 12 is set between raw material roll shaft 3 and clamping roll shaft 4, lower angle adjustable plate 24
It is fixedly arranged at the front end with grip block 31 and is placed in the top of lower angle profiled sheeting 25, rack gear to clamp band 38, upper angle profiled sheeting 17
30 are fixed on lower angle adjustable plate 24, and lower angle adjustable plate 24 is run along the length direction of rack gear 30.Regulate inferior horn
After spending the angle of profiled sheeting, lower angle adjustable plate 24 and lower angle profiled sheeting 25 is driven to move by rack-and-pinion, meanwhile, inferior horn
The grip block 31 of degree 24 front end of adjustable plate moves together.
In order to deviate upper angle profiled sheeting 17 not in up and down reciprocatingly operation, in upper angle adjustable plate 16
It can move up and down in the post holes that lower section is inserted on fixed frame 33 equipped with positioning column 32, positioning column 32 and along post holes (referring to Fig. 9).
Referring to Fig.1 and Figure 10, the outer end of shaft 19 are connected with handle 34, and handle 34 is placed in outside framework 1, fixed in shaft 19
There is fixed disk 35, framework 1 and 19 junction of shaft are equipped with fixture nut 36, and fixed disk 35 is fixed by fixture nut 36.Every time
When needing to form the ripple of different pitch requirements, the spacing that need to form ripple can be adjusted by handle 34, by solid after adjusting
Determine nut 36 to be fixed.
When in order to guarantee to shear band 38,38 stressing influence shear history of band, the setting support roll shaft in supporting table 2
37, support roll shaft 37 is set between raw material roll shaft 3 and shear knife 12 (referring to Fig. 5 and Fig. 9).
Working principle of the present invention is as follows:
1. regulating angle forming mechanism up and down according to molding angle required for piezoelectricity ripple cantilever beam;
2. the inserted sheet of adhesive box is inserted in the inserting-plate hole of lower section, contact glue not with the lower roller shaft for clamping roll shaft;
3. copper strip is put on raw material roll shaft 3, the front end of copper strip is fixed on grip block, and third stepper motor drives
Rack-and-pinion movement drives the movement of lower angle profiled sheeting, when the lower angle profiled sheeting of front end moves to below upper angle profiled sheeting
Station when, third stepper motor stop motion, second stepper motor band moving cam move, by extensible member push upper angle at
Template makes the copper strip below upper angle profiled sheeting form first ripple, so repeats;
After 4. the ripple forming of copper strip is good, copper strip is cut by cutting mechanism, molding ripple copper strip stay in
It wouldn't be removed on lower angle profiled sheeting;
5. third stepping motor-driven gear rack gear returns to original position;
6. the inserted sheet of adhesive box is inserted in the inserting-plate hole of top, make the lower roller shaft of the glue and clamping roll shaft in gum box
Contact carries out gluing to piezoelectricity band;
7. opening grip block, it is put into flexible piezoelectric band, it is identical as copper strip to be specifically put into method, presss from both sides on grip block at this time
The piezoelectricity band held is located at the upper surface of molded copper strip, closes grip block;
8. third stepping motor driven gear rack work, the lower angle profiled sheeting of front end move under upper angle profiled sheeting
When the station of side, third stepper motor stop motion, second stepper motor starts, and upper angle profiled sheeting pushes, and makes piezoelectricity band
First ripple is formed, is so repeated, piezoelectricity band is pressed into corrugated.Since flexible piezoelectric band is coated with glue, can with
The copper strip of forming is directly bonded;
9. cutting piezoelectricity band by cutting mechanism, the piezoelectricity ripple cantilever beam bonded is taken out.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within mind and principle.
Claims (10)
1. a kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that including framework, the framework
Middle setting fixed device, cutting mechanism, upper angle regulating mechanism, lower angle regulating mechanism, transmission mechanism;The fixed device is set
It is placed in the supporting table in framework, the fixed device includes raw material roll shaft, the niproll set gradually along raw material traffic direction
Axis, the first guiding roll shaft, the second guiding roll shaft, height-adjustable adhesive box is arranged in the lower section of the clamping roll shaft;
The cutting mechanism includes the first stepper motor, the first cam tracks, swing rod, shear knife, first stepper motor
Output end is connect with the first cam tracks, and first cam tracks are connect by connecting rod with swing rod, the swing rod and shearing
Knife connection;
The upper angle regulating mechanism includes second stepper motor, cam, extensible member, upper angle adjustable plate, upper angle profiled sheeting,
The output end of the second stepper motor is connect with cam, the lower edge of the cam and the upper-end contact of extensible member, described to stretch
The lower end of contracting part is fixed on upper angle adjustable plate, installs angle forming plate, the upper angle below the upper angle adjustable plate
It spends adjustable plate and is equipped with the first regulating part for adjusting upper angle profiled sheeting angle;
The lower angle regulating mechanism include shaft, the first bevel gear, the second bevel gear, the second cam tracks, cam tracks disk,
Lower angle adjustable plate, lower angle profiled sheeting fix the first bevel gear, the first bevel gear engagement connection second in the shaft
Bevel gear, second bevel gear are connect with the second cam tracks, and the second cam tracks are installed in cam tracks disk, and described
Two cam tracks are connect by pin with lower angle adjustable plate, are successively installed on the lower angle adjustable plate along raw material traffic direction
Multiple lower angle profiled sheetings, the lower angle adjustable plate are equipped with the second regulating part for adjusting lower angle profiled sheeting angle;
The transmission mechanism includes third stepper motor, gear, rack gear, and the output end and gear of the third stepper motor connect
It connects, the gear engagement connection rack gear;
The shear knife is set between raw material roll shaft and clamping roll shaft, and the lower angle adjustable plate is fixedly arranged at the front end with clamping
Plate, the upper angle profiled sheeting are placed in the top of the lower angle profiled sheeting, and the rack gear is fixed on lower angle adjustable plate, and
The lower angle adjustable plate is run along the length direction of the rack gear.
2. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
Gum box is arranged in the top of adhesive box, and the bottom of the gum box is fixed with quarter butt, the first limit plate is fixed on the quarter butt,
Quarter butt part below first limit plate is socketed with the first spring, and the side of the adhesive box is equipped with upper and lower two inserted sheets
Hole is inserted with inserted sheet in one of inserting-plate hole.
3. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
Multiple concentric and of different sizes second cam tracks are installed, setting is more on the lower angle adjustable plate in cam tracks disk
A pin corresponding with each second cam tracks.
4. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
Extensible member includes the bearing plate that the fixed link that lower end is fixed on upper angle adjustable plate and upper end are contacted with cam lower edge, described
It is fixed with the second limit plate in fixed link, the fixation bar part above second limit plate is socketed with second spring, and described
The bottom of bearing plate is fixed in the upper end of two springs.
5. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
First regulating part is screw-nut, is equipped on the upper angle adjustable plate along the angle folding direction of upper angle profiled sheeting long logical
Slot, two angle board upper ends of the upper angle profiled sheeting are respectively equipped with the first protruding pin that can be placed in long through slot, the screw
Nut is installed on the long through slot on the outside of first protruding pin of two angle boards.
6. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
Second regulating part is to latch, and the angle folding direction on the lower angle adjustable plate along lower angle profiled sheeting is equipped with arc-shaped slot,
Two angle board lower ends of the lower angle profiled sheeting are respectively equipped with the second protruding pin that can be placed in arc-shaped slot, the lower angle
Multiple fixed pins are equipped on profiled sheeting at arc-shaped slot, the fixed pin is connect by lock with the second protruding pin.
7. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
Swing rod includes the first swing rod arm, the second swing rod arm and third swing rod arm, and the connecting rod is connect with the first swing rod arm, and described first
The second swing rod arm and third swing rod arm are connected on swing rod arm, the second swing rod arm and third swing rod arm are separately connected shear knife
First shearing tool arm and the second shearing tool arm.
8. angle as claimed in claim 1 or 5 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that
The lower section of the upper angle adjustable plate is equipped with positioning column, and the positioning column is inserted into the post holes on fixed frame and can be above and below post holes
It is mobile.
9. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that described
The outer end of shaft is connected with handle, and the handle is placed in outside framework, and fixed disk, the framework and shaft are fixed in the shaft
Junction is equipped with fixture nut, and the fixed disk is fixed by fixture nut.
10. angle as described in claim 1 and height-adjustable piezoelectricity ripple cantilever beam molding machine, which is characterized in that institute
Setting support roll shaft, the support roll shaft in supporting table is stated to be set between raw material roll shaft and shear knife.
Priority Applications (1)
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JPH0449876A (en) * | 1990-06-19 | 1992-02-19 | Matsushita Electric Ind Co Ltd | Angle regulator |
EP1949982A2 (en) * | 2008-05-14 | 2008-07-30 | Hermann Müller AG | Roller device and method for rolling in connector bridges in profiles |
CN101773961A (en) * | 2009-12-31 | 2010-07-14 | 吉林市厦林化工分离机械工业有限公司 | Full-automatic high-speed multifunctional corrugated pressing machine |
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CN208466926U (en) * | 2018-05-11 | 2019-02-05 | 佛山市南海鼎科数控设备有限公司 | A kind of corrugated-piece formation machine of adjustable corrugated plate spacing |
CN209539745U (en) * | 2019-03-06 | 2019-10-25 | 兰州大学 | A kind of angle and height-adjustable piezoelectricity ripple cantilever beam molding machine |
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JPH0449876A (en) * | 1990-06-19 | 1992-02-19 | Matsushita Electric Ind Co Ltd | Angle regulator |
EP1949982A2 (en) * | 2008-05-14 | 2008-07-30 | Hermann Müller AG | Roller device and method for rolling in connector bridges in profiles |
CN101773961A (en) * | 2009-12-31 | 2010-07-14 | 吉林市厦林化工分离机械工业有限公司 | Full-automatic high-speed multifunctional corrugated pressing machine |
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