CN210880884U - Injection molding surface optimization mechanism - Google Patents
Injection molding surface optimization mechanism Download PDFInfo
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- CN210880884U CN210880884U CN201920690915.8U CN201920690915U CN210880884U CN 210880884 U CN210880884 U CN 210880884U CN 201920690915 U CN201920690915 U CN 201920690915U CN 210880884 U CN210880884 U CN 210880884U
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- injection molding
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- repairing
- room
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Abstract
The utility model discloses an injection molding surface optimization mechanism includes that the granule is put and is held room, repair room, injection molding positioner, controller and workstation, the granule is put and is equipped with the air cock on the export of holding the room, the granule is put and is held and fix in repairing indoorly, repair the room and be lower extreme, the open cavity structure in upper end, this granule is put and is held the upper end of holding the room gomphosis in repairing the room, just repair room and granule are put and are held the room and realize going up and down through the lift as an organic whole structure, when carrying out injection molding surface optimization, repair the room and descend, make the lower extreme and the injection molding positioner edge seal of repairing the room, accomplish the optimization back when the injection molding surface, repair the room and rise to initial position.
Description
Technical Field
The utility model relates to an injection molding corollary equipment technical field specifically relates to an injection molding surface optimization mechanism.
Background
The traditional surface secondary repair mainly comprises the step of performing surface friction on a product by using a plurality of sheepskin felts or cloths to repair abnormal shadows, but the repair yield is low, the damage rate is higher, and the surface treatment effect is uneven.
Therefore, a new technical solution is needed to solve the above technical problems.
SUMMERY OF THE UTILITY MODEL
For solving the problem that exists among the prior art, the utility model discloses an injection molding surface optimization mechanism.
The utility model adopts the technical proposal that: an injection molding surface optimizing mechanism comprises a particle containing chamber, a repairing chamber, an injection molding positioning device, a controller and a workbench, wherein an air nozzle is arranged at an outlet of the particle containing chamber, the particle containing chamber is fixed in the repairing chamber, the repairing chamber is of a cavity structure with an open lower end and an open upper end, the particle containing chamber is embedded at the upper end of the repairing chamber, the repairing chamber and the particle containing chamber are of an integrated structure and can be lifted up and down through a lifter, when the surface of an injection molding is optimized, the repairing chamber descends to seal the lower end of the repairing chamber and the edge of the injection molding positioning device, and after the surface of the injection molding is optimized, the repairing chamber ascends to the initial position;
the injection molding part positioning device comprises a station rotary table, a plurality of fixed stations fixed on the station rotary table and a manipulator for loading and unloading, wherein the fixed stations are provided with a plurality of air suction holes and air suction devices for controlling the air suction holes to suck air and position, and the air suction devices are arranged below the station rotary table;
the station rotary table is arranged on the workbench, and a plurality of rolling supports are arranged between the bottom of the station rotary table and the upper surface of the workbench;
the controller controls the manipulator to perform feeding and discharging operation, controls the lifter to perform lifting operation and controls the air suction device to perform air suction operation.
Further, the utility model discloses still include granule recovery unit, granule recovery unit is the lower extreme and seals, the open cavity structure in upper end, and this granule recovery unit sets up in work revolving stage below, and the lower surface looks gomphosis of the upper end of this granule recovery unit and work revolving stage, and be in still include a plurality of fretwork regions except that the region of opening fixed station on the station revolving stage, the fretwork region communicates with each other with granule recovery unit.
Furthermore, the air tap is of an angle adjustable structure, and the angle adjustment range between the air tap and the vertical plane is 45-47 degrees.
Further, the air pressure in the particle containing chamber is 0.7 MPa.
Further, the particles in the particle containing chamber comprise glass particles, ceramic particles and steel particles.
Further, the surface roughness of the particles is not more than 60um-80 um.
Furthermore, the station rotary table is of a structure with a middle section sinking downwards.
Has the advantages that: the utility model discloses a station revolving stage and a plurality of fixed stations of setting on the station revolving stage, owing to adopt the location of breathing in, fixed station can be used to the injection molding of multiple not unidimensional structure, and chamber is put to the restoration room and the granule of integral type through the liftable, and the automation of unloading and surface optimization is gone up in the realization, adopts the utility model discloses a granule surface optimization, it is high to restore the yield, and the surface treatment effect is good.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the injection molding positioning device of the present invention;
fig. 3 is a schematic structural view of the fixing station of the present invention;
fig. 4 is a schematic view of the longitudinal section structure of the station turntable of the present invention;
fig. 5 is a schematic view of a station turntable structure part of the present invention;
fig. 6 is a schematic view of a station turntable structure part of the present invention;
fig. 7 is a schematic view of a station turntable structure part of the present invention;
fig. 8 is a cross-sectional view of the fixing station of the present invention.
Detailed Description
The invention is further explained below with reference to the drawings and examples.
As shown in fig. 1, an injection molding surface optimizing mechanism includes a particle accommodating chamber 1, a repair chamber 2, an injection molding positioning device 3, a controller (not shown in the drawings) and a workbench 4, an air nozzle 11 is arranged on an outlet of the particle accommodating chamber 1, the particle accommodating chamber 1 is fixed in the repair chamber 2, the repair chamber 2 is a cavity structure with an open lower end and an open upper end, the particle accommodating chamber 1 is embedded in the upper end of the repair chamber 2, the repair chamber 2 and the particle accommodating chamber 1 are integrated and can be lifted up and down by a lifter 5, when the injection molding surface is optimized, the repair chamber 2 is lowered down, so that the lower end of the repair chamber 2 is sealed with the edge of the injection molding positioning device 3, and when the injection molding surface is optimized, the repair chamber 2 is lifted up to an initial position;
the utility model discloses an injection molding positioner 3 includes station revolving stage 31, fix a plurality of fixed stations 32 on station revolving stage 31, manipulator 33 used for going on going up and down, fixed station 32 is equipped with a plurality of suction holes 34 and controls suction hole 34 to carry on the getter device 35 of breathing in the location, getter device 35 sets up in the below of station revolving stage 31; with specific reference to fig. 8, the utility model discloses a getter device 35 can be external the utility model discloses an injection molding surface optimization mechanism is outside, also can fix in the below of station revolving stage 31, and when granule recovery unit 6 was fixed with station revolving stage 31, getter device 35 was located granule recovery unit 6's cavity, the inside wind channel 32a that corresponds with suction hole 34 that is equipped with of fixed station 32, this wind channel cooperation trachea and getter device cooperation work.
The utility model has the advantages that the station turntable 31 is arranged on the workbench 4, and a plurality of rolling supports 36 are arranged between the bottom of the station turntable 31 and the upper surface of the workbench 4;
the utility model discloses a controller control manipulator goes up unloading operation, control lift and goes up and down the operation and control getter device and inhale the operation.
The utility model discloses still include granule recovery unit 6, this granule recovery unit 6 is closed for the lower extreme, the open cavity structure in upper end, and this granule recovery unit 6 sets up in work revolving stage 31 below, and the lower surface looks gomphosis of the upper end of this granule recovery unit 6 and work revolving stage 31, and be in still include a plurality of fretwork regions on station revolving stage 31 except that the region of opening fixed station 32, the fretwork region communicates with each other with granule recovery unit 6.
Specifically, the utility model discloses an air cock 11 is angularly adjustable structure, and the angular adjustment scope between this air cock 11 and the perpendicular is 45-47, and the granule accommodation chamber is 1 interior atmospheric pressure of granule be 0.7MPa, and the granule in this granule accommodation chamber includes glass particle, ceramic particle and steel granule, and is specific, and granule surface roughness is no longer than 60um-80 um.
For facilitating the collection of particles, the utility model discloses a station revolving stage 31 is the structure that caves in downwards in of middle section.
Example (b):
the present embodiment adopts the above structure, but the difference is that the present embodiment adopts two manipulators 33 to perform feeding and discharging of different materials, specifically, referring to fig. 5 to 7, two manipulators are used to sequentially perform feeding, specifically, when a fixed station rotates to a feeding position, the feeding is performed by the manipulators, the materials are placed on the fixed station, the air suction device works, the materials are fixed on the fixed station by air suction, after the materials are placed, the station turntable rotates to perform feeding on the next fixed station, as shown in fig. 5 to 7, the upper manipulators complete feeding of a, b, c, d, e, f fixed stations, the lower manipulators complete feeding of 1,2,3,4,5,6 fixed stations, after all fixed stations are completed, the elevator control repairing chamber and the particle accommodating chamber descend to seal with the station turntable, and perform surface optimization work of injection molding parts, and carry out the granule through granule recovery unit and retrieve, this granule recovery unit is detachable device with injection molding positioner, and when granule recovery unit was about to retrieve full, with this granule recovery unit dismantlement down, to the granule room of holding carry out the granule and supply. After the surface optimization work of the injection molding part is finished, the elevator controls the repairing chamber and the particle accommodating chamber to ascend to the original positions, the air suction device stops working, and meanwhile, the mechanical arm carries out blanking in sequence.
Claims (7)
1. The utility model provides an injection molding surface optimizing mechanism which characterized in that: the device comprises a particle containing chamber, a repairing chamber, an injection molding positioning device, a controller and a workbench, wherein an air nozzle is arranged on an outlet of the particle containing chamber, the particle containing chamber is fixed in the repairing chamber, the repairing chamber is of a cavity structure with an open lower end and an open upper end, the particle containing chamber is embedded at the upper end of the repairing chamber, the repairing chamber and the particle containing chamber are of an integrated structure and can be lifted through a lifter, when the surface of an injection molding is optimized, the repairing chamber descends, the lower end of the repairing chamber is sealed with the edge of the injection molding positioning device, and when the surface of the injection molding is optimized, the repairing chamber ascends to the initial position;
the injection molding part positioning device comprises a station rotary table, a plurality of fixed stations fixed on the station rotary table and a manipulator for loading and unloading, wherein the fixed stations are provided with a plurality of air suction holes and air suction devices for controlling the air suction holes to suck air and position, and the air suction devices are arranged below the station rotary table;
the station rotary table is arranged on the workbench, and a plurality of rolling supports are arranged between the bottom of the station rotary table and the upper surface of the workbench;
the controller controls the manipulator to perform feeding and discharging operation, controls the lifter to perform lifting operation and controls the air suction device to perform air suction operation.
2. The injection molding surface optimizing mechanism of claim 1, wherein: still include granule recovery unit, granule recovery unit is lower extreme closed, the open cavity structure of upper end, and this granule recovery unit sets up in work revolving stage below, and the lower surface looks gomphosis of the upper end of this granule recovery unit and work revolving stage, and still include a plurality of fretwork regions on the station revolving stage except that the region of opening fixed station, the fretwork region communicates with each other with granule recovery unit.
3. The injection molding surface optimizing mechanism of claim 1, wherein: the air tap is of an angle adjustable structure, and the angle adjustment range between the air tap and the vertical plane is 45-47 degrees.
4. The injection molding surface optimizing mechanism of claim 1, wherein: the air pressure in the particle containing chamber is 0.7 MPa.
5. The injection molding surface optimizing mechanism of claim 1, wherein: the particles in the particle containing chamber comprise glass particles, ceramic particles and steel particles.
6. The injection molding surface optimizing mechanism of claim 5, wherein: the surface roughness of the particles is not more than 60-80 um.
7. The injection molding surface optimizing mechanism of claim 2, wherein: the station rotary table is of a structure with a middle section sinking downwards.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920690915.8U CN210880884U (en) | 2019-05-15 | 2019-05-15 | Injection molding surface optimization mechanism |
Applications Claiming Priority (1)
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CN201920690915.8U CN210880884U (en) | 2019-05-15 | 2019-05-15 | Injection molding surface optimization mechanism |
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CN210880884U true CN210880884U (en) | 2020-06-30 |
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CN201920690915.8U Active CN210880884U (en) | 2019-05-15 | 2019-05-15 | Injection molding surface optimization mechanism |
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2019
- 2019-05-15 CN CN201920690915.8U patent/CN210880884U/en active Active
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