CN205522120U - Diaphragm conveyor's aligning gear - Google Patents
Diaphragm conveyor's aligning gear Download PDFInfo
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- CN205522120U CN205522120U CN201620206328.3U CN201620206328U CN205522120U CN 205522120 U CN205522120 U CN 205522120U CN 201620206328 U CN201620206328 U CN 201620206328U CN 205522120 U CN205522120 U CN 205522120U
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- diaphragm
- slide block
- charging tray
- calibration slide
- correcting mechanism
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Abstract
The utility model belongs to the mechanical equipment of plastic production field provides a diaphragm conveyor's aligning gear, including supplying to deposit the transfer charging tray of diaphragm will the diaphragm transport one by one to a transport unit of transfer charging tray, and will be a plurality of the diaphragm is followed the 2nd transport unit who shifts in the transfer charging tray, be equipped with a plurality of material chambeies of putting on the transfer charging tray, it is equipped with the slidable calibration to put the material intracavity the first calibration slider and the second calibration slider of diaphragm, the design aims at solving traditional manual operation's defect like this, provides an ability and places the position to the diaphragm and calibrate the diaphragm conveyor's aligning gear in order to improve the performance accuracy.
Description
Technical field
This utility model belongs to the plant equipment of plastic cement production field, particularly relates to a kind of diaphragm vehicle
Correcting mechanism.
Background technology
Plastic cement processing is as what the development of synthetic resin got up, and the development of it and plastic machine promotees mutually
Enter.Many plastic cement process technologies, are to be referred from rubber, metal and Ceramic manufacturing.Plastic cement processing history can chase after
Trace back the nineties in 19th century, after celluloid is born, because it is inflammable, block can only be made by die pressing,
The most machined one-tenth sheet material, sheet material can be processed with hot-forming method.This is plastic cement processing the earliest.It is cast into
Type is as phenolic resin and comes out and study successfully;Injection moulding starts from the twenties in 20th century, is used for adding
Work cellulose acetate and polystyrene;The mid-1930s, flexible PVC extrusion molding succeeds in developing, plastic cement
Special single screw extrusion machine comes out accordingly;Within 1938, double screw extruder also puts into production.The beginning of the forties,
Having made polyurethane foam plastic cement, blow molding technology is used for producing polyethylene hollow product.Nineteen fifty-two reciprocating screw
Formula injector is come out, and makes injection molding technology enter into a new stage.60~the seventies, new development rises
The plastic cement process technology come has: the various new forming methods of enhancing plastic cement, as winding, pultrusion, sheet molding become
Type, reaction injection molding, structural foam molding, Profile Extrusion, sheet material solid phase forming and co-extrusion
Go out, co-injection etc..Enter the eighties, plastic cement processing towards efficiently, at a high speed, in high precision, energy-conservation, large-scale
Changing or the direction such as extra small, ultra-thin is developed, computer technology enters this field, whole plastic cement process technology
Bring up to a new height.
From early 1990s, occur in that a newer panel processing technique in-mode inserts
Injection molding technology, technique approximately as: by the diaphragm molding of back up good pattern, cut into and product surface
Unanimously, then the diaphragm of forming is put into mold cavity, then infuse resin into Mo Nei and be combined with diaphragm,
Resin inject temperature, pressure effect under, diaphragm is integral with resin-bonded, and it is thin that ink layer is positioned at surface
In the middle of film and resin.This technology is often applied to automobile, communication, electronics, electrical equipment, instrument, instrument
On panel, integrate ornamental and functional.
In order to ensure being tightly combined of diaphragm and plastic cement, diaphragm needs to be packaged into diaphragm band by bilayer film,
Clean dustless to ensure.During injection, then diaphragm is stripped out from diaphragm band, and is placed in mould,
It is molded again after matched moulds.At present, continuing to use traditional manual modes of emplacement, this mode of operation is due to artificially always
The factor of operation, no matter how high mould and die accuracy is, operator is the most skilled, all can produce diaphragm and mould para-position
The uneven product defects caused, and then the scrappage of diaphragm is high.
Utility model content
The purpose of this utility model is to solve above-mentioned manual defect, it is provided that diaphragm can be placed position by one
Put the correcting mechanism of the diaphragm vehicle carrying out calibrating to improve performance accuracy.
This utility model is so to solve, and the correcting mechanism of a kind of diaphragm vehicle, including being available for depositing
The transfer charging tray of described diaphragm, is transported to the first delivery unit of described transfer charging tray one by one by described diaphragm,
And the second delivery unit that multiple described diaphragms are shifted from described transfer charging tray, on described transfer charging tray
Be provided with and multiple put material chamber, described in put material intracavity and be provided with the first calibration slide block and the slidably calibrating described diaphragm
Two calibration slide blocks.
Further, described first calibration slide block and described second calibration slide block can be slided bottom material chamber along described putting
Move, and the moving direction of described first calibration slide block and described second calibration slide block is mutually perpendicular to.
Further, described first calibration slide block is provided with the first chute, described in put material intracavity prolong vertically upward
Stretching and have the first gag lever post, described first gag lever post is positioned at described first chute.
Further, described second calibration slide block is provided with the second chute, described in put material intracavity prolong vertically upward
Stretching and have the second gag lever post, described second gag lever post is positioned at described second chute.
Further, the direction of offering offering direction and described second chute of described first chute is mutually perpendicular to.
Further, the size in material chamber is put described in described first calibration slide block and described second calibration slide block court
Move to described diaphragm and successively decrease.
Further, the minimum dimension size more than or equal to described diaphragm in material chamber is put described in.
Further, described first delivery unit is provided with and the described diaphragm drawn is placed on multiple institute one by one
State the first pickup terminal putting material intracavity.
Further, described second operational unit is provided with and is easy to pick up multiple the second the ten of described diaphragm simultaneously
Take terminal, multiple described in put material chamber be that regular shape is arranged.
Further, described first delivery unit and described second delivery unit are connected on same support seat,
And described first and described second delivery unit all can move relative to described transfer charging tray three-dimensional.
The automatic processing equipment of the diaphragm that this utility model provides is relative to existing manual process, the skill having
Art effect is: by being arranged on the first calibration slide block putting material intracavity and the second calibration slide block of transfer charging tray
Relatively slide so that transport through the first delivery unit and be placed on the diaphragm putting material intracavity by the first calibration slide block
Combine specific position spacing for diaphragm with the second calibration slide block, and then the second delivery unit is specific from this
Diaphragm is transported to other positions by position, during this, after the position of diaphragm is calibrated, it is ensured that each film
The position of sheet all has concordance, and then ensure that the precision that diaphragm transports, and decreases diaphragm simultaneously and damaged
Bad probability.
Accompanying drawing explanation
Fig. 1 is the structure chart of the carrying belt that this utility model embodiment provides.
Fig. 2 is the Fig. 1 sectional view along A-A direction.
Fig. 3 is the overall structure figure of the automatic processing equipment of the diaphragm that this utility model embodiment provides.
Fig. 4 is storage charging tray, transfer charging tray and the structure chart of transport assembly that this utility model embodiment provides.
Fig. 5 is the structural representation peeling off assembly that this utility model embodiment provides.
Fig. 6 is the structure chart of the storage charging tray that this utility model embodiment provides.
Fig. 7 is calibrating installation state diagram one on the transfer charging tray that this utility model embodiment provides.
Fig. 8 is calibrating installation state diagram two on the transfer charging tray that this utility model embodiment provides.
Fig. 9 is calibrating installation state diagram three on the transfer charging tray that this utility model embodiment provides.
Figure 10 is the automatic processing equipment of the diaphragm not having transfer charging tray that this utility model embodiment provides
Structure chart.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing
And embodiment, this utility model is further elaborated.Should be appreciated that described herein specifically
Embodiment, only in order to explain this utility model, is not used to limit this utility model.
It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, and it is permissible
Directly on another element or may be simultaneously present centering elements.When an element is known as " being connected to "
Another element, it can be directly to another element or may be simultaneously present centering elements.
Also, it should be noted the orientation term such as left and right, upper and lower in this utility model embodiment, only
It is relative concept or with the normal operating condition of product as reference each other, and should not be regarded as that there is limit
Property processed.
Refer to shown in accompanying drawing 1 to Fig. 6, this utility model embodiment provides the automatic place of a kind of diaphragm
Reason equipment, including the carrying belt 600 of diaphragm 601, this carrying belt 600 by upper and lower two-layer film strips by diaphragm
601 are clipped in the middle, and also have the stripping assembly 200 peeled off on carrying belt 600 by diaphragm 601, this stripping group
Levels film strips on carrying belt 600 is mainly pulled open so that diaphragm 601 exposes by the effect of part 200,
This peel-off device also includes storing charging tray 300, and it can receive, stores and can automatically identify stripping assembly
200 push diaphragm 601 thereon, also include diaphragm 601 located rear transfer from storage charging tray 300
Transport assembly 400;In several rows, some row are evenly arranged on carrying belt 600 multiple diaphragms 601, this
Time diaphragm 601 quantity be multiple, be arranged in multiple lines and multiple rows on carrying belt 600, and each row and column it
Between leave and there is no adhesion, this reality between gap, namely single diaphragm 601 and adjacent diaphragm 601
Executing the quantity often gone in example and be preferably ten, the columns of diaphragm 601 comes actual according to the width of carrying belt 600
Setting, this stripping assembly 200 includes the detacher being arranged on its front end, and this detacher is just to storage charging tray
300, the diaphragm 601 often gone that so design makes detacher peel off can just enter into storage charging tray 300
In, and then improve the efficiency produced.
The automatic processing equipment of the diaphragm 601 more than designed, by peeling off assembly 200 by carrying belt 600
Diaphragm 601 automatically strip, and be transported to diaphragm 601 store in charging tray 300 by detacher,
Then transport after the delivery unit on assembly 400 draws diaphragm 601 in location and be then transferred in mould, so
Ensure that the accurate of diaphragm 601 para-position, it is to avoid diaphragm 601 is scrapped;The most in this process, storage
Whether the automatic identification equipment in charging tray 300 has diaphragm 601 in can automatically identifying it, and information is anti-
Feed and transport assembly 400, so can avoid transporting assembly 400 and flog a dead horse, and ensure to produce effect simultaneously
Rate.
Specifically, as shown in Figures 3 to 6, in this utility model embodiment, this carrying belt 600 is in stripping
Away from device, be divided into the first film strips 602 and the second film strips 603, and at detacher separately after the first film strips
602 and second film strips 603 form angle respectively and between former carrying belt 600, this angle is preferably acute angle,
And this carrying belt 600 is between this first film strips 602 and second film strips 603, and this diaphragm 601
Being located between the first film strips 602 and the second film strips 603, this stripping assembly 200 also includes being available for putting simultaneously
Put the material reel 201 of carrying belt 600, and reclaim the first traction unit and the recovery of the first film strips 602
Second traction unit of the second film strips 603, this first traction unit and the second traction unit run-in synchronism.
Specifically, as it is shown in figure 5, in this utility model embodiment, this first traction unit includes first
Reel 208 and multiple the first regulating wheel 204 being connected in the first film strips 602, this second traction unit bag
Include the second reel 209 and multiple the second regulating wheel 205 being connected in the second film strips 603, this first tensioning
Wheel 204 is between detacher and the first reel 208, and this second regulating wheel 205 is positioned at detacher and second
Between reel 209.
So peel-off device of design, namely above-mentioned stripping assembly 200, by being connected to bracing frame 211
On detacher carrying belt therethrough is separated into first film strips the 602, second film strips 603, and by first
Traction unit and the second traction unit are by the first film strips 602 and the recovery of the second film strips 603, the first film simultaneously
Form angle between band 602 and the second film strips 603 and former carrying belt 600, and then make the first film strips 602
During with the second film strips 603 separately, the diaphragm 601 being folded between the two there is is propulsive force forward, in order to
The diaphragm 601 being stripped can be more efficient separate;Whole process fully automated control, it is to avoid people
The uncertainty of work operation, the efficiency simultaneously operated is high.
In the present embodiment, as shown in Figure 3, Figure 5 and Figure 6, the operation principles of this stripping assembly 200 is;
This stripping assembly 200 integral installation is on a bracing frame 211, and wherein detacher is positioned at bracing frame 211
Front end, namely the position near storage charging tray 300, this material reel 201 is arranged on bracing frame 211
Rearmost end, and the central shaft of this material reel 201 and detacher be generally kept at same level position;Should
First reel 208 is arranged between material reel 201 and detacher and is positioned at both horizontal tops, with
Time the second reel 209 be arranged between material reel 201 and detacher and be positioned at both horizontal lower sections,
Now the axis of the first reel 208 and the axis of the second reel 209 are preferably on same vertical curve;Operating
Time, carrying belt 600 is placed on material reel 201, and the free end of carrying belt 600 is pulled out connection
On detacher, now detacher is preferably two roller bearings compositions along the central axis of itself, and
Two roller bearings are vertically arranged, the first roller bearing 206 the most above is wrapped in suitable by this first film strips 602 half
Hour hands rotate, and the second roller bearing 207 being positioned at lower section is wrapped in by this second film strips 603 half and rotates counterclockwise,
This first roller bearing 206 is identical with the velocity of rotation of the second roller bearing 207, and the first roller bearing 206 and the second rolling
Leaving between axle 207 and be available for the space that diaphragm 601 passes, this space faces storage charging tray 300;Carrying
Band 600 first film strips 602 and second film strips 603 after detacher are separated, wherein the first film strips 602
Rotating along the first reel 208, the second film strips 603 rotates along the second reel 209, and this volume Two
Cylinder 209 and the second reel 209 are controlled by Timing Belt 210 by a driving motor 202 simultaneously, so set
Meter makes the first film strips 602 and the second film strips 603 while being pullled, the diaphragm 601 separated be produced
Thrust forward, and then push to diaphragm 601 store in charging tray 300, this completes whole diaphragm
Stripping and the propelling movement of 601 are placed, meanwhile in order to strengthen the thrust that diaphragm 601 pushes forward, first
It is provided with multiple first regulating wheel 204 in film strips 602, and is provided with multiple second in the second film strips 603
Regulating wheel 205, is provided with on the carrying belt 600 between the first film strips 602 and the second film strips 603 simultaneously
3rd regulating wheel;This first regulating wheel 204 and the second regulating wheel 205 are except keeping the first film strips 602 and
Two film strips 603 are in the state of tensioning, also have spacing effect.
Specifically, as shown in Figure 6, in this utility model embodiment, this storage charging tray 300 is in open
Channel-shaped, and which is provided with multiple storage tank 301 arranged side by side, the quantity of this storage tank 301 be arranged in juxtaposition
The quantity of the diaphragm 601 on carrying belt 600 is identical, namely the quantity of this storage tank 301 in the present embodiment
It is preferably 10, is respectively designated as A, B, C, D, E, F, G, H, I, J herein;Wherein this appearance
Putting groove 301 near one end of detacher is outboard end 304, and one end relative with this outboard end 304 is inner side
End 303, the length of this outboard end 304 is more than the length of medial extremity 303, and is positioned at outboard end 304 He
Left and right sides edge lengths between medial extremity 303 is equal, namely left and right side is from outside to inside in tapered;Same with this
Time this storage tank 301 in be additionally provided with the identification device being available for judging to store on storage tank 301 state, should herein
Identify that device is preferably pressure inductor 302, pressure inductor 302 is set in each storage tank 301, should
Pressure inductor 302 can will be that actual pressure feeds back to transport assembly 400, Ye Jigen in storage tank 301
Screening with or without diaphragm 601 pressure is different according in storage tank 301, so design can be avoided transporting assembly
400 flog a dead horse, and then can improve production efficiency.
In the present embodiment, as shown in Figure 6, peel off assembly 200 to be shelled by the diaphragm 601 on carrying belt 600
Push to after from each storage tank 301, and then pressure inductor 302 determines each according to actual pressure
The most all there is diaphragm 601 in storage tank 301, if having, control transport assembly 400 one by one by A, B,
Diaphragm 601 in C, D, E, F, G, H, I, J is taken away and is transferred to other places;If on carrying belt 600 one
The diaphragm 601 of row has lacked one, as the diaphragm 601 in wherein E storage tank 301 lacks, feeling of stress
Pressure is different to answer device 302 to sense, and then controls to transport assembly 400 to take A, B, C, D accommodating
Jumping directly to F storage tank 301 after diaphragm 601 in groove 301, and then fortune takes the most one by one, so design can
To improve the efficiency of production largely;In addition storage tank 301 outboard end 304 is more than medial extremity 303
Design can utilize diaphragm 601 is pushed into storage tank 301 when left and right side tapered come to diaphragm
The adjustment of 601 placement directions so that diaphragm 601 placement direction being positioned at storage tank 301 is consistent.
Specifically, as shown in Fig. 3, Fig. 4 and Fig. 7 to Fig. 9, in this utility model embodiment, this sets
For also including that transfer charging tray 500, this transport assembly 400 include the first delivery unit and the second delivery unit,
Diaphragm 601 is delivered to transfer charging tray 500 in storage charging tray 300 by this first delivery unit one by one, this second fortune
Send unit to be removed from transfer charging tray 500 by multiple diaphragms 601 simultaneously;This transfer charging tray 500 includes multiple
It is available for depositing putting of single diaphragm 601 temporarily and expects chamber 501, this shape putting material chamber 501 and diaphragm 601
Shape is identical, and size is more than the size of diaphragm 601, and so design easily facilitates the first delivery unit by film
Sheet 601 is transported to this and puts in material chamber 501, the calibration after simultaneously facilitating, namely this first delivery unit will
Diaphragm 601 is transported to single put in material chamber 501 one by one, and then the second delivery unit puts material chamber 501 by multiple
Interior diaphragm 601 is transported to other places simultaneously, and in the present embodiment, this quantity putting material chamber 501 is preferably four,
And four put material chamber 501 in regular arrangement, preferably rectangular layout in the present embodiment, and this put material chamber 501
On be additionally provided with the calibrating installation being available for that diaphragm 601 is calibrated.This first delivery unit includes first simultaneously
Pickup section 406 and the first guide groove being available for the three-dimensional movement of the first pickup section 406, this second delivery unit includes
Second pickup section 411 and the second guide groove being available for the three-dimensional movement of the second pickup section 411, and this first guide groove
It is connected on same support seat 100 with the second guide groove.So design is by the first delivery unit and the second fortune
Send the cooperation of unit, the first delivery unit by the diaphragm 601 after automatically identifying in storage charging tray 300
And be accurately placed in transfer charging tray 500, the further school of diaphragm 601 that transfer charging tray 500 will be deposited simultaneously
Accurate, it is ensured that the concordance of position, transport assembly by all of diaphragm in transfer charging tray 500 finally by second
601 are transferred out and are positioned over the region specified;Through automatically identifying during whole, position correction makes
Diaphragm is higher with the aligning accuracy of mould, and then avoids scrapping of diaphragm 601, also improves the effect of production
Rate.
In the present embodiment, as shown in Figure 3 and Figure 4, in the first pickup section 406 on this first delivery unit
Being provided with the quantity the first pickup terminal more than or equal to, the present embodiment is preferably one, this second pickup
Portion 411 is provided with the second pickup terminal 412 more than or equal to, is preferably four the in the present embodiment
Two pickup terminals 412, after the diaphragm 601 in storage tank 301 is picked up by the first pickup section 406 by adhesive
Being placed on and put in material chamber 501, this puts the size size more than diaphragm 601 in material chamber 501, and this puts material
Chamber 501 is provided with calibrating installation, and the first pickup section 406 can be picked up and be placed on by this calibrating installation puts material
Diaphragm 601 in chamber 501 carries out position correction, is further ensured that the uniqueness of diaphragm 601 position, in order to
Diaphragm 601 will not be damaged when ensuing operation processes, thus avoid diaphragm 601 and scrap;Due to
The quantity putting material chamber 501 is four, and then is accomplished by the first pickup section 406 and moves repeatedly by containing cavity
Diaphragm 601 takes out to be placed on one by one to be put in material chamber 501, the most each calibration put in material chamber 501
After the position of diaphragm 601 is calibrated by device, relative with putting material position, chamber 501 in the second pickup section 411
Diaphragm 601 after calibration is drawn and is thrown to exactly in next operation by four the pickup terminals 412 answered;
So design makes diaphragm 601 more preferable through the position of multiple bearing calibration rear film 601 and concordance, enters
And the production efficiency of operation is higher, the scrappage of diaphragm 601 is lower, and by being arranged on transfer charging tray 500
Put material chamber 501 in first calibration slide block 502 and second calibration slide block 503 relative slide so that warp
Cross the first delivery unit to transport and be placed on the diaphragm 601 put in material chamber 501 by the first calibration slide block 501 and the
Two calibration slide blocks 502 are combined specific position spacing for diaphragm 601, and then the second delivery unit is from this spy
Diaphragm 601 is transported to other positions by fixed position, during this, after the position of diaphragm 601 is calibrated,
Ensure that the position of each diaphragm 601 has concordance, and then ensure that the precision that diaphragm 601 transports, and
Decrease the impaired probability of diaphragm 601 simultaneously.
In the present embodiment, as shown in Figure 7 to 9, this calibrating installation is arranged on to be put in material chamber 501, and
This calibrating installation includes the first calibration slide block 502 calibrated two sides that diaphragm 601 is adjacent respectively
With the second calibration slide block 503, described first calibration slide block 502 and the moving direction of the second calibration slide block 503
Be mutually perpendicular to, and this first calibration slide block 502 on offer the first chute 504, described in put material chamber 501
Inside extend vertically upwards the first gag lever post 505 coordinated with the first chute 504;This second calibration slide block 503
On offer the second chute 507, described in put material chamber 501 in extended vertically upwards and joined with the second chute 507
The second gag lever post 506 closed;When this first calibration slide block 502 moves in putting material chamber 501, first is spacing
Bar 505 moves relative to this first chute 504;Same second calibration slide block 503 is putting material chamber 501 internal phase
When vertically moving for the first calibration slide block 502, the second gag lever post 506 moves relative to this second chute 507
Dynamic, and when this first calibration slide block 502 calibrates the relative slip of slide block 503 with second, put the chi in material chamber 501
Very little taper into, and put the minimum size in material chamber also greater than or equal to the size of this diaphragm 601, this diaphragm
601 preferably rectangular diaphragms 601, this size refers in particular to the floor space of this rectangle diaphragm 601;So design makes
Diaphragm 601 by the first pickup section 406 be placed on this put material chamber 501 in time, by first calibration slide block 502
With the second calibration slide block 503 be mutually perpendicular to motion, and combine the inwall putting material chamber 501, and by diaphragm 601
Being pushed into fixing region, this fixing region refers to that four pickup terminals 412 of the second pickup section 411 pick up
The position of diaphragm 601, so design ensure that the uniqueness of diaphragm 601 position, and then reduce diaphragm 601
Scrappage.
In the present embodiment, as shown in Figure 3 and Figure 4, the structure of this first guide groove and the second guide groove is similar to, its
In the first guide groove include being connected to supporting the first X-axis guide rail 401 on seat 100, be slidably installed in the first X-axis and lead
First X-axis saddle 402 on rail 401, is perpendicular to the first X-axis guide rail 401 and is connected to the first X-axis saddle
The first Y-axis guide rail 403 on 402, and the first Y-axis saddle being slidably installed on the first Y-axis guide rail 403
404, in addition with being connected on the first Y-axis saddle 404 and along being perpendicular to the first Y-axis saddle 404 direction
First Z axis of stretching motion drives cylinder 405, and this first Z axis drives the end of cylinder 405 to connect first
Pickup section 406;Same second guide groove includes being connected to support the second X-axis guide rail 407 on seat 100, sliding
It is located at the second X-axis saddle 408 on the second X-axis guide rail 407, is perpendicular to the second X-axis guide rail 407 and connects
The second Y-axis guide rail 409 on the second X-axis saddle 408, and be slidably installed on the second Y-axis guide rail 409
The second Y-axis saddle 410, in addition with being connected on the second Y-axis saddle 410 and along being perpendicular to the 2nd Y
Second Z axis of axle saddle 410 direction stretching motion drives cylinder 413, and this second Z axis drives cylinder 413
End connect the second pickup section 411, and this first X-axis guide rail 401 and second X-axis guide rail 407 phase
The most parallel;So design can ensure that the movement of this first delivery unit and the second delivery unit more has one
Cause property and Modulatory character.
Specifically, as it is shown on figure 3, in this utility model embodiment, this equipment also includes and transports assembly
The 400 turnover wheel discs 900 coordinated, and discharge component 800, this turnover wheel disc 900 and discharge component 800
Between be also associated with the 3rd delivery unit that coordinates with the above two, the 3rd delivery unit includes the 3rd pickup section
703 and be available for the 3rd guide groove of the 3rd three-dimensional movement of pickup section 703.
In the present embodiment, as it is shown on figure 3, this turnover wheel disc 900 is provided with the first half module 901 of mould,
This first half module 901 is provided with puts four blowing chambeies that material chamber 501 is corresponding with the four of transfer charging tray 500
902, this second pickup section 411 transfers to this first half module after being picked up by the diaphragm 601 on transfer charging tray 500
In blowing chamber 902 in 901, then this turnover wheel disc 900 rotates the first half module that will be equipped with diaphragm 601
901 turn to next operation, and complete the injection to diaphragm 601 in ensuing operation, have been molded
Moulding is taken out by the 3rd pickup section 703 and is placed on discharge component 800 after one-tenth, in the present embodiment,
This discharge component 800 is preferably discharge belt, and moulding 801 is expected by the 3rd pickup section 703 from turnover
It is placed on discharge belt after dish takes off, and reaches the operation of demand with discharge belt, or directly
Reach packaging area, finally complete the encapsulation of whole diaphragm 601.
In the present embodiment, it is connected to prop up as it is shown on figure 3, the 3rd delivery unit and the second delivery unit share
The second X-axis guide rail 407 on support seat 100, and it is sliding to be slidably installed in the second X-axis on the second X-axis guide rail 407
Part 408, the 3rd delivery unit also includes, is perpendicular to the second X-axis guide rail 407 and is connected to the second X-axis
The 3rd Y-axis guide rail 701 on saddle 408, and it is slidably installed in the 3rd Y-axis on the 3rd Y-axis guide rail 701
Saddle 702, in addition with being connected on the 3rd Y-axis saddle 702 and along being perpendicular to the 3rd Y-axis saddle 702
3rd Z axis of direction stretching motion drives cylinder 704, the 3rd Z axis to drive the end of cylinder 704 to connect
3rd pickup section 703.
As another embodiment of the present utility model, as shown in Figure 10, in order to save operation, accelerate to produce
Rhythm, transfer charging tray 500 and the second delivery unit can also directly be removed by this equipment, namely the first fortune
Turn and be directly transported to have enough to meet the need putting on wheel disc 900 after the volume diaphragm 601 in storage charging tray 300 is taken out by unit
In material chamber 902, so can save the operating time of whole equipment significantly, harder not for material
Flimsy diaphragm 601 structure can use the structure of this embodiment, and the miscellaneous part in this equipment exists certainly
Can also individually be removed under different situations and be realized producing speed-raising, the most no longer be repeated.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model,
All any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, all should
Within being included in protection domain of the present utility model.
Claims (10)
1. the correcting mechanism of a diaphragm vehicle, it is characterised in that: include being available for depositing described diaphragm
Transfer charging tray, is transported to the first delivery unit of described transfer charging tray one by one by described diaphragm, and by multiple
The second delivery unit that described diaphragm shifts from described transfer charging tray, described transfer charging tray is provided with multiple putting
Material chamber, described in put material intracavity be provided with slidably calibrate described diaphragm first calibration slide block and second calibration slide block.
2. the correcting mechanism of diaphragm vehicle as claimed in claim 1, it is characterised in that: described first
Calibration slide block and described second calibration slide block can put material chamber basal sliding, and described first calibration slide block along described
It is mutually perpendicular to the moving direction of described second calibration slide block.
3. the correcting mechanism of diaphragm vehicle as claimed in claim 2, it is characterised in that: described first
Calibration slide block is provided with the first chute, described in put material intracavity and extended vertically upwards the first gag lever post, described the
One gag lever post is positioned at described first chute.
4. the correcting mechanism of diaphragm vehicle as claimed in claim 3, it is characterised in that: described second
Calibration slide block is provided with the second chute, described in put material intracavity and extended vertically upwards the second gag lever post, described the
Two gag lever posts are positioned at described second chute.
5. the correcting mechanism of diaphragm vehicle as claimed in claim 4, it is characterised in that: described first
The direction of offering offering direction and described second chute of chute is mutually perpendicular to.
6. the correcting mechanism of diaphragm vehicle as claimed in claim 1, it is characterised in that put material described in:
The size in chamber moves towards described diaphragm to successively decrease with described first calibration slide block and described second calibration slide block.
7. the correcting mechanism of diaphragm vehicle as claimed in claim 5, it is characterised in that put material described in:
The minimum dimension in chamber is more than or equal to the size of described diaphragm.
8. the correcting mechanism of the diaphragm vehicle as described in any one of claim 1-7, it is characterised in that:
Described first delivery unit be provided with the described diaphragm drawn is placed on one by one multiple described in put the of material intracavity
One pickup terminal.
9. the correcting mechanism of the diaphragm vehicle as described in any one of claim 1-7, it is characterised in that:
Described second operational unit is provided with the multiple second pickup terminals being easy to simultaneously pick up described diaphragm, Duo Gesuo
Stating and putting material chamber is that regular shape is arranged.
10. the correcting mechanism of the diaphragm vehicle as described in any one of claim 1-7, it is characterised in that:
Described first delivery unit and described second delivery unit are connected on same support seat, and described first He
Described second delivery unit all can move relative to described transfer charging tray three-dimensional.
Priority Applications (1)
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CN201620206328.3U CN205522120U (en) | 2016-03-17 | 2016-03-17 | Diaphragm conveyor's aligning gear |
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CN201620206328.3U CN205522120U (en) | 2016-03-17 | 2016-03-17 | Diaphragm conveyor's aligning gear |
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CN205522120U true CN205522120U (en) | 2016-08-31 |
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CN201620206328.3U Active CN205522120U (en) | 2016-03-17 | 2016-03-17 | Diaphragm conveyor's aligning gear |
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