CN209718548U - Automatic sizing system - Google Patents
Automatic sizing system Download PDFInfo
- Publication number
- CN209718548U CN209718548U CN201920163191.1U CN201920163191U CN209718548U CN 209718548 U CN209718548 U CN 209718548U CN 201920163191 U CN201920163191 U CN 201920163191U CN 209718548 U CN209718548 U CN 209718548U
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- China
- Prior art keywords
- automatic sizing
- component
- supporting block
- mold plate
- support component
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Abstract
The utility model provides a kind of automatic sizing system, the system includes multiple automatic sizing devices, automatic sizing device includes support component, styling components, cooling component and pushes component, support component includes the first supporting block and the second supporting block, first supporting block is equipped with positioning bowl assembly, and the second supporting block is equipped with locating piece;Styling components include multiple shaped blocks, mold plate and driving assembly, and driving assembly drives mold plate mobile towards support component, and multiple shaped blocks are located at mold plate towards on the side wall of the side of support component;Cooling component includes cooling line, and cooling line is located in mold plate;Pushing component includes lower lock block and rotation drive device, and rotation drive device drives lower lock block to rotate towards support component, and lower lock block can be located at the top of the second supporting block, using the above structure, workpiece is rapidly cooled while workpiece sizing, the production cycle is effectively controlled, improves production efficiency.
Description
Technical field
The utility model relates to machinery equipment field, are specifically related to a kind of automatic sizing system.
Background technique
Currently, due to needing injection molding, usually its production temperature is higher in the production process of plastic cement products, filling
Between case storage, need to cool down plastic cement products.It is this but currently, most of producer all selects the mode of natural cooling
Mode has the disadvantage in that the plasthetics temperature of 1, rigid depanning is higher, is easy to happen thermal expansion deformation;2, natural cooling speed compared with
Slow and cooling effect is poor, influences production efficiency, elongates the production cycle.
Utility model content
The automatic sizing system that the main purpose of the utility model is to provide a kind of good cooling results and is effectively formed.
In order to realize that above-mentioned main purpose, automatic sizing system provided by the utility model include automatic sizing device,
Automatic sizing device include support component, styling components, cooling component and push component, support component include the first supporting block and
Second supporting block is provided with positioning bowl assembly in the first supporting block, the first locating piece is provided in the second supporting block;Styling components
On the side of support component in the horizontal direction, the first supporting block is between the second supporting block and styling components, sizing group
Part includes multiple shaped blocks, mold plate and driving assembly, and driving assembly includes driving device, and driving device drives mold plate court
Mobile to support component, mold plate tilts upward movement, and mold plate is arranged in towards the side of support component in multiple shaped blocks
On side wall;Cooling component includes cooling line, and cooling line is arranged in mold plate;Component is pushed to be arranged in support component along water
Square to side on, pushing component includes lower lock block and rotation drive device, and rotation drive device drives lower lock block towards branch
Support component rotation, lower lock block can be located at the top of the second supporting block.
By above scheme as it can be seen that support component is used to support the cooling workpiece of undetermined type, the locating slot in the first supporting block
Component is positioned and is formed to the snap-gauge on workpiece, and the locating piece in the second supporting block positions the locating slot on workpiece
And be formed, the shaped block on styling components carries out shaping the through slot on workpiece side wall, and driving device drives mold plate towards work
Part is mobile, improves the accuracy that shaped block enters workpiece through slot, and the cooling line in mold plate quickly cools down workpiece,
The briquetting pushed in component compresses the workpiece being placed in the second supporting block under the driving of rotation drive device, further makes work
Part is more firm in sizing cooling procedure, which is rapidly cooled workpiece while sizing, effectively control production
Period improves production efficiency.
Further embodiment is that the top surface of the first supporting block is provided with protruding block, and positioning bowl assembly includes being arranged in protrusion
A plurality of first locating slot and the second locating slot on block, a plurality of first locating slot are arranged in parallel, and the second locating slot is through a plurality of the
A positioning groove, the first locating slot intersect setting with a plurality of first locating slot respectively, and the second locating slot is positioned with a plurality of first respectively
Slot connection.
As it can be seen that multiple snap-gauges are provided on position on workpiece with respect to the first supporting block, and in sizing cooling procedure, snap-gauge
It is placed in the first locating slot and the second locating slot, it, can while the first locating slot and the second locating slot position snap-gauge
Snap-gauge is carried out shaping.
Further embodiment is that the second locating piece is provided in the first supporting block, and the second locating piece is located at protruding block and determines
Between the block of position.
As it can be seen that the position of corresponding second locating piece is provided with through slot on workpiece, the second locating piece passes through through slot, avoids work
Part it is mobile while, the second locating piece can carry out shaping through slot.
Further embodiment is that, based on mold plate towards the side of support component, the height of projection of multiple locating pieces is different.
As it can be seen that the different multiple locating pieces of height of projection are used to correspond to the through slot of different depth on workpiece, make fixed effect
More preferably.
Further embodiment is that styling components include limited block, and limited block setting is mobile towards support component in mold plate
Direction on.
As it can be seen that limited block limits the moving range of mold plate, mobile overrun of mold plate is avoided to make workpiece
At extruding.
Further embodiment is that styling components include support plate and sliding rail, and sliding rail is arranged on the supporting plate, sliding rail direction branch
Support component extends, and sliding rail and mold plate are cooperatively connected, and mold plate is moved along the extending direction of sliding rail.
As it can be seen that sliding rail is oriented the moving direction of mold plate, can accurately be passed through convenient for the shaped block on mold plate
Through slot on workpiece keeps fixed effect more preferable.
Further embodiment is, cooling component includes water inlet pipe, outlet pipe and suction pump, water inlet pipe, outlet pipe respectively with
Suction pump connection, water inlet pipe, outlet pipe are connect with cooling line respectively, and water inlet pipe is arranged at the side wall of mold plate with outlet pipe
On, water inlet pipe and outlet pipe are respectively positioned between shaped block and driving device.
As it can be seen that water inlet pipe and outlet pipe are respectively positioned between locating piece and driving device, so that the arrangement on mold plate is more
Rationally.
Further embodiment is that automatic sizing system includes multiple automatic sizing devices and bottom plate, multiple automatic sizing dresses
It sets and is arranged on bottom plate, the second supporting block of multiple automatic sizing devices is arranged at the middle part of bottom plate, multiple automatic sizings
The driving device of device is separately positioned on the two sides of bottom plate.
As it can be seen that the second supporting block of multiple automatic sizing devices concentrates on the middle part of bottom plate, grabbed simultaneously convenient for manipulator
Multiple workpiece, while being placed in multiple second supporting blocks, and the driving device for being located at bottom plate two sides drives positioning plate the bottom of towards
Workpiece in the middle part of plate is mobile, so that the component layout of automatic sizing system more rationally effectively improves working efficiency simultaneously.
Further embodiment is that automatic sizing system includes loading assemblies and photoelectric sensor, and loading assemblies include machinery
Hand and robot drives component, robot drives Component driver manipulator is mobile towards support component, photoelectric sensor detection
Manipulator.
As it can be seen that robot drives Component driver manipulator is moved towards support component, undetermined type cooling down workpiece oneself is realized
Dynamic loading and unloading, photoelectric sensor is used for inspecting manipuator, and after manipulator feeding, photoelectric sensor sends detection signal and extremely controls
Unit, control unit control each driving device and the pump startup that draws water, and realize that the automatic sizing of workpiece is cooling.
Detailed description of the invention
Fig. 1 is the perspective view of the undetermined type workpiece in the application of the utility model automatic sizing system embodiment.
Fig. 2 is the perspective view of another angle of undetermined type workpiece in the application of the utility model automatic sizing system embodiment.
Fig. 3 is the structure chart of the utility model automatic sizing system embodiment.
Fig. 4 is the structure chart of styling components in the utility model automatic sizing system embodiment.
Schematic diagram when Fig. 5 is the application of the utility model automatic sizing system embodiment.
The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.
Specific embodiment
The automatic sizing system of the utility model is applied in the sizing and cooling technique of plastic workpiece, referring to Fig. 1 and figure
2, setting is provided with multiple first snap-gauges on horizontal plane there are two the first through slot 11 on the horizontal plane of the cooling workpiece 1 of undetermined type
12 and second snap-gauge 13, multiple first snap-gauges 12 be arranged in parallel, the second snap-gauge 13 intersects setting with multiple first snap-gauges 12 simultaneously.
Multiple second through slots 14 are provided on the side wall of workpiece 1, the depth of the second through slot 14 is different.
Referring to Fig. 3, the automatic sizing system of the utility model includes multiple automatic sizing devices 8, bottom plate 2, optoelectronic induction
Device 3 and loading assemblies, multiple automatic sizing devices 8 and photoelectric sensor 3 are respectively provided on a base plate 2.Automatic sizing device 8 includes
Support component 4, styling components 5, cooling component 6 and pushing component 7, in the present embodiment, styling components 5, one supports
4, cooling components 6 of component and a pushing component 7 are arranged to form automatic sizing device 8 along the shaped formation of a workpiece.
Loading assemblies include manipulator and robot drives component, and robot drives Component driver manipulator is moved towards support component 4
It is dynamic, realize the automatic loading/unloading of undetermined type cooling down workpiece.Photoelectric sensor is used for inspecting manipuator, after manipulator feeding, light
Electric inductor sends detection signal to control unit, and control unit controls driving device in other assemblies and cooling component 6
Draw water pump startup, realizes that the automatic sizing of workpiece is cooling, effectively improves working efficiency.
Support component 4 includes the first supporting block 41 and the second supporting block 42, is provided with a plurality of positioning in the first supporting block 41
Slot, in the present embodiment, the top surface of the first supporting block 41 are provided with protruding block 43, and positioning bowl assembly is provided on protruding block 43,
Positioning bowl assembly includes a plurality of first locating slot 431 and the second locating slot 432, and a plurality of first locating slot 431 is arranged in parallel, and second
Locating slot 432 runs through a plurality of first locating slot 431, and the second locating slot 432 intersects setting with a plurality of first locating slot 431 respectively,
Second locating slot 432 is connected to a plurality of first locating slot 431 respectively.First locating slot 431 and the second locating slot 432 are straight line
Slot, for the first snap-gauge 12 on workpiece 1 to be positioned and is formed, the second locating slot 432 is used for work the first locating slot 431
The second snap-gauge 13 on part 1 is positioned and is formed.In the present embodiment, second is additionally provided on the top surface of the first supporting block 41
Locating piece 44.First locating piece 45 is set in second supporting block 42.First locating piece 45 and the second locating piece 44 respectively correspond work
Two the first through slots 12 on part 1.
Styling components 5 are located on the side of support component 4 in the horizontal direction, and the first supporting block 41 is located at the second supporting block 42
Between styling components 5.Referring to fig. 4, styling components 5 include multiple shaped blocks 51, mold plate 52 and driving assembly, Duo Geding
Mold plate 52 is arranged in towards on the side wall of the side of the first supporting block 41 in type block 51.Driving assembly includes driving device 53, branch
Fagging support plate 54 and sliding rail 55, driving device 53 are cylinder, and sliding rail 55 is arranged in support plate 54, and sliding rail 55 is towards support group
Part 4 extends, and sliding rail 55 and mold plate 52 are cooperatively connected, and driving device 53 drives mold plate 52 to move along the extending direction of sliding rail 55
It is dynamic, in the present embodiment, it is based on bottom plate 2, sliding rail 55 tilts upward setting, and mold plate 52 tilts upward movement.Sliding rail 55 is to fixed
The moving direction of template 52 is oriented, and can accurately be passed through second on workpiece 1 convenient for the shaped block 51 on mold plate 52 and be led to
Slot 14, in the present embodiment, for the different shape of multiple second through slots 14 on cooperation workpiece, the shape of multiple locating pieces 51
It is different, keep fixed effect more preferable.Driving device connects mold plate 52 far from 4 side of support component.In the present embodiment, base
In mold plate 52 towards the side of support component 4, the height of projection of multiple shaped blocks 51 is different.Different multiple fixed of height of projection
Type block 51 is used to correspond to the second through slot 14 of different depth on workpiece 1, keeps fixed effect more preferable.Second locating piece 44 is located at protrusion
Between block 43 and shaped block 51.
Styling components 5 include limited block 56, and limited block 56 is also disposed in support plate 54, and limited block 56 is arranged in mold plate
On 52 directions moved towards support component 4, limited block 56 limits the moving range of mold plate 52, avoids mold plate 52
Mobile overrun causes to squeeze to workpiece 1.
Cooling component 6 includes cooling line, water inlet pipe 61, outlet pipe 62 and suction pump, and cooling line is arranged in mold plate
In 52, water inlet pipe 61, outlet pipe 62 are connect with suction pump respectively, and water inlet pipe 61, outlet pipe 62 are connect with cooling line respectively, into
Water pipe 61 and outlet pipe 62 are arranged on the side wall of mold plate 52, and water inlet pipe 61 and outlet pipe 62 are respectively positioned on shaped block 51 and drive
Between dynamic device, water inlet pipe 61 and outlet pipe 62 are respectively positioned between shaped block 51 and driving device, so that the cloth on mold plate 52
It sets more rationally.
It pushes component 7 to be arranged on the side of support component 4 in the horizontal direction, pushing component 7 includes lower lock block 71 and rotation
Rotary driving device 72, rotation drive device 72 drive lower lock block 71 to rotate towards support component 4, and lower lock block 71 can be located at second
The top of bracer 42, rotation drive device 72 are rotary cylinder.
In the present embodiment, automatic sizing system includes multiple automatic sizing devices 8, and the second of multiple automatic sizing devices
Supporting block 42 is arranged at the middle part of bottom plate 2, and the driving device 53 of multiple automatic sizing devices 8 is separately positioned on the two of bottom plate 2
Side.Second supporting block 42 of multiple automatic sizing devices 8 concentrates on the middle part of bottom plate 2, grabs multiple works simultaneously convenient for manipulator
Part, while being placed in multiple second supporting blocks 42, and the driving device 53 for being located at 2 two sides of bottom plate drives positioning plate 52 bottom of towards
The workpiece at the middle part of plate 2 is mobile, so that the component layout of automatic sizing system more rationally effectively improves working efficiency simultaneously.
Referring to Fig. 5, support component 4 is used to support the cooling workpiece 1 of undetermined type, and a plurality of first in the first supporting block 41 is fixed
Position slot 431 and the second locating slot 432 are positioned and are formed to the snap-gauge on workpiece respectively, and first in the second supporting block 42 is fixed
Position block 45 respectively positions two the first through slots 11 on workpiece 1 with the second locating piece 44 in the first supporting block 41 one by one
And be formed, the shaped block 51 on styling components 5 carries out shaping the second through slot 14 on 1 side wall of workpiece, and driving device driving is fixed
Template 52 is mobile towards workpiece, improves the accuracy that shaped block 51 enters the second through slot 14 of workpiece 1, the cooling in mold plate 52
Pipeline quickly cools down workpiece 1, and the briquetting 71 pushed in component 7 compresses placement under the driving of rotation drive device 72
Workpiece 1 in the second supporting block 42 further makes workpiece 1 more firm in sizing cooling procedure, and the device is in sizing
Workpiece 1 is rapidly cooled simultaneously, effectively controls the production cycle, improves production efficiency.
Finally it is emphasized that the above is only the preferred embodiment of the present invention, it is not limited to this reality
With novel, for those skilled in the art, the utility model can have various change and change, all in the utility model
Spirit and principle within, any modification, equivalent substitution, improvement and etc. done should be included in the protection model of the utility model
Within enclosing.
Claims (9)
1. automatic sizing system, it is characterised in that: the automatic sizing system includes automatic sizing device, the automatic sizing dress
It sets and includes:
Support component, the support component include the first supporting block and the second supporting block, and it is fixed to be provided in first supporting block
Position bowl assembly, is provided with the first locating piece in second supporting block;
Styling components, the styling components are located on the side of the support component in the horizontal direction, first supporting block position
Between second supporting block and the styling components, the styling components include multiple shaped blocks, mold plate and driving
Component, the driving component include driving device, and the driving device drives the mold plate mobile towards the support component,
The mold plate tilts upward movement, and the mold plate is arranged in towards the side of the support component in multiple shaped blocks
On side wall;
Cooling component, the cooling component include cooling line, and the cooling line is arranged in the mold plate;
Component is pushed, the pushing component is arranged on the side of the support component in the horizontal direction, the pushing component packet
Lower lock block and rotation drive device are included, the rotation drive device drives the lower lock block to rotate towards the support component, institute
State the top that lower lock block can be located at second supporting block.
2. automatic sizing system according to claim 1, it is characterised in that:
The top surface of first supporting block is provided with protruding block, the positioning bowl assembly include be arranged in it is more on the protruding block
The first locating slot of item and the second locating slot, a plurality of first locating slot are arranged in parallel, and second locating slot runs through a plurality of institute
The first locating slot is stated, first locating slot intersects setting, second locating slot point with a plurality of first locating slot respectively
It is not connected to a plurality of first locating slot.
3. automatic sizing system according to claim 2, it is characterised in that:
The second locating piece is provided in first supporting block, second locating piece is located at the protruding block and the shaped block
Between.
4. automatic sizing system according to claim 1, it is characterised in that:
Based on the mold plate towards the side of the support component, the height of projection of multiple shaped blocks is different.
5. automatic sizing system according to claim 4, it is characterised in that:
The styling components include limited block, and the mold plate side mobile towards the support component is arranged in the limited block
Upwards.
6. automatic sizing system according to claim 5, it is characterised in that:
The styling components include support plate and sliding rail, and the sliding rail is arranged in the support plate, and the sliding rail is described in
Support component extends, and the sliding rail and the mold plate are cooperatively connected, and the mold plate is moved along the extending direction of the sliding rail.
7. automatic sizing system according to any one of claims 1 to 6, it is characterised in that:
The cooling component includes water inlet pipe, outlet pipe and suction pump, and the water inlet pipe, the outlet pipe draw water with described respectively
Pump connection, the water inlet pipe, the outlet pipe are connect with the cooling line respectively, and the water inlet pipe is all provided with the outlet pipe
Set on the side wall of the mold plate, the water inlet pipe and the outlet pipe be respectively positioned on the shaped block and the driving device it
Between.
8. automatic sizing system according to claim 7, it is characterised in that:
The automatic sizing system includes multiple automatic sizing devices and bottom plate, and multiple automatic sizing devices are arranged at institute
It states on bottom plate, second supporting block of multiple automatic sizing devices is arranged at the middle part of the bottom plate, multiple described
The driving device of automatic sizing device is separately positioned on the two sides of the bottom plate.
9. automatic sizing system according to claim 8, it is characterised in that:
The automatic sizing system includes loading assemblies and photoelectric sensor, and the loading assemblies include manipulator and manipulator
Driving assembly, manipulator described in the robot drives Component driver is mobile towards the support component, the photoelectric sensor
Detect the manipulator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920163191.1U CN209718548U (en) | 2019-01-29 | 2019-01-29 | Automatic sizing system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920163191.1U CN209718548U (en) | 2019-01-29 | 2019-01-29 | Automatic sizing system |
Publications (1)
Publication Number | Publication Date |
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CN209718548U true CN209718548U (en) | 2019-12-03 |
Family
ID=68682127
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Application Number | Title | Priority Date | Filing Date |
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CN201920163191.1U Expired - Fee Related CN209718548U (en) | 2019-01-29 | 2019-01-29 | Automatic sizing system |
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CN (1) | CN209718548U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113199690A (en) * | 2021-05-26 | 2021-08-03 | 新子元(上海)科技发展有限公司 | Sizing device and sizing method for PP automobile seat |
CN113477722A (en) * | 2021-08-03 | 2021-10-08 | 浙江金航钢管科技有限公司 | Rolling method and processing device for seamless steel tube |
-
2019
- 2019-01-29 CN CN201920163191.1U patent/CN209718548U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113199690A (en) * | 2021-05-26 | 2021-08-03 | 新子元(上海)科技发展有限公司 | Sizing device and sizing method for PP automobile seat |
CN113477722A (en) * | 2021-08-03 | 2021-10-08 | 浙江金航钢管科技有限公司 | Rolling method and processing device for seamless steel tube |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191203 Termination date: 20220129 |