CN110254760A - A kind of superfine powder fill system and fill process - Google Patents

Abstract

The invention belongs to superfine powder padding fields, specifically provide a kind of superfine powder fill system and fill process.Present invention seek to address that the problem of existing superfine powder fill system and method pollute big, low efficiency and can not directly be compacted to superfine powder.Superfine powder fill system of the invention includes superfine powder returnable, control system, elevating mechanism, blanking mechanism, the pressure structure being fixedly connected with blanking port one end of blanking mechanism and the support component below blanking mechanism, set-up of control system rises or falls at that can control elevating mechanism driving support component, in the case of superfine powder in the superfine powder returnable in support component is contacted with pressure structure and elevating mechanism driving support component rises, pressure structure can squeeze the superfine powder in superfine powder returnable.Setting in this way reduces the amount of dispersing of superfine powder during filling, reduces environmental pollution；It realizes that superfine powder fill system directly squeezes superfine powder, improves charging efficiency.

Description

A kind of superfine powder fill system and fill process

Technical field

The invention belongs to superfine powder padding fields, specifically provide a kind of superfine powder fill system and fill process.

Background technique

The conventional filling procedures of superfine powder are usually after manually being filled with tool, to use rod using manually being loaded Son or shock club by superfine powder returnable superfine powder tamping or ram-jolt.This mode takes time and effort, is inconvenient, and And part superfine powder meeting disperse in air, pollutes working environment during being squeezed with rod and shock club superfine powder, Harm is generated to the body of operator.

The existing recycling filling mode of superfine powder has to be loaded using filling equipment, but is also needed during filling Superfine powder is compacted using other modes, usually by the way that superfine powder returnable to be placed in shock platforms and will surpass Fine powder ram-jolt thus needs to move repeatedly superfine powder returnable between filling equipment and shock platforms, to be filled It fills out and is compacted, efficiency is lower.

Correspondingly, this field needs a kind of new superfine powder fill system and fill process to solve the above problems.

Summary of the invention

In order to solve the above problem in the prior art, in order to solve existing superfine powder fill system and method pollution Greatly, low efficiency and the problem of can not be directly compacted to superfine powder, on the one hand the present invention provides a kind of superfine powder fill system, The superfine powder fill system includes body, superfine powder returnable, control system, elevating mechanism and pressure structure, the machine Body includes rack, the blanking mechanism being set in the rack and the support component below the blanking mechanism, the liter Descending mechanism is set to the support component, and the set-up of control system rises or falls at that can control the elevating mechanism, from And the support component is driven to rise or fall by the elevating mechanism；The blanking of the pressure structure and the blanking mechanism Mouth one end is fixedly connected；Superfine powder in the superfine powder returnable in the support component contacted with the pressure structure and In the case of the elevating mechanism drives the support component to rise, the pressure structure can be to the superfine powder returnable Interior superfine powder is squeezed.

In the optimal technical scheme of above-mentioned superfine powder fill system, the blanking mechanism includes material-falling hopper and blanking barrel, The blanking barrel is fixedly connected with the material-falling hopper, the circumferentially arranged blanking port one in the blanking barrel of the pressure structure End, the pressure structure include pressure plate and pressure sensor, and the pressure sensor is set to the pressure plate close to described The side of superfine powder returnable.

In the optimal technical scheme of above-mentioned superfine powder fill system, the superfine powder fill system further includes intelligent delivery system System, the intelligence transportation system includes conveying arm and position sensor, and the control system can control the conveying arm for institute It states superfine powder returnable to be sent into and take from the support component, the position sensor is arranged to described in detection and upload The location information of superfine powder returnable.

In the optimal technical scheme of above-mentioned superfine powder fill system, the elevating mechanism includes hydraulic pressure lifting device, described Hydraulic pressure lifting device includes elevating lever, and the elevating lever is fixedly connected with the support component, so that the support component be made to rise Or decline.

In the optimal technical scheme of above-mentioned superfine powder fill system, the blanking mechanism further includes that oil motor and spiral are squeezed Compression bar, the screw extrusion bar are fixedly connected with the output shaft of the oil motor, and the screw extrusion bar is arranged in institute State spinning motion in blanking barrel.

On the other hand, the present invention also provides a kind of fill process of superfine powder fill system, superfine powder filling systems System is superfine powder fill system described in any one of above-mentioned optimal technical scheme, and the fill process specifically includes following step It is rapid:

Step S10, superfine powder returnable is placed in the support component；

Step S20, the superfine powder that the blanking mechanism output first squeezes aim parameter is controlled；

Step S30, controlling the elevating mechanism drives the support component to rise to the first setting position, so as to pressurization knot Structure squeezes superfine powder；

Step S40, judge whether the superfine powder amount in superfine powder returnable reaches filling aim parameter, do not reaching filling mesh It in the case of scalar, controls the elevating mechanism and the support component is driven to decline the first setting height, update described first and squeeze Aim parameter, first setting position, first setting height are pressed, described step S20, S30, S40 are repeated.

In the optimal technical scheme of above-mentioned fill process, the step S30 " controls the elevating mechanism and drives the branch Support component rises the first setting position, so that the pressure structure squeezes superfine powder " specifically includes the following steps:

Step S301, controlling the elevating mechanism drives the support component to rise；

Step S302, judge whether the pressure structure reaches target pressure value to the practical squeeze pressure value of superfine powder, in reality In the case of border squeeze pressure value reaches target pressure value, controls the elevating mechanism and stop that the support component is driven to rise.

In the optimal technical scheme of above-mentioned fill process, step S20 " controls the blanking mechanism blanking to the first extruding Before aim parameter ", the fill process is further comprising the steps of:

Step S020, controlling the elevating mechanism drives the support component to rise the second setting height.

In the optimal technical scheme of above-mentioned fill process, the step S20 " controls the blanking mechanism output first to squeeze Press the superfine powder of aim parameter " further comprise:

Step S201, while controlling the superfine powder of the first extruding of blanking mechanism output aim parameter, the elevator is controlled Structure drives the support component uniform descent third setting height.

In the optimal technical scheme of above-mentioned fill process, the step S40 " judges ultra-fine in superfine powder returnable Whether powder amount reaches filling aim parameter, in the case of not reaching filling aim parameter, controls described in the elevating mechanism driving Support component declines the first setting height, updates described first and squeezes aim parameter, first setting position, first setting Highly, it is further comprising the steps of that the step S20, S30, S40 " are repeated:

Step S401, in the case of the superfine powder amount in the superfine powder returnable reaches the filling aim parameter, control The elevating mechanism drives the support component to drop to initial position；

Step S401, the superfine powder returnable is taken from the support component.

It will be appreciated to those of skill in the art that in the preferred technical solution of the present invention, superfine powder fill system packet Include control system, body, superfine powder returnable, elevating mechanism and pressure structure, the body include rack, be set to it is described Blanking mechanism in rack and the support component below the blanking mechanism, the elevating mechanism are set to the support group Part, the set-up of control system rises or falls at that can control the elevating mechanism, to be driven by the elevating mechanism The support component rises or falls；The pressure structure is set to blanking port one end of the blanking mechanism；In the support The superfine powder in superfine powder returnable on component is contacted with the pressure structure and the elevating mechanism drives the support In the case of component rises, the pressure structure can squeeze the superfine powder in the superfine powder returnable.

By the way that control system and elevating mechanism are arranged in superfine powder extrusion packing equipment, in the blanking port one of blanking mechanism End setting pressure structure, on the one hand, before superfine powder fill system loads superfine powder into superfine powder returnable, control system It can control elevating mechanism driving support component and rise to certain altitude, make superfine powder returnable and blanking in support component The blanking port of mechanism is close, and the amount of excess of export thin powder recovery container so that reduction superfine powder during filling is dispersed reduces environment Pollution；On the other hand, after loading superfine powder into superfine powder returnable, control system controls elevating mechanism and drives support group Part rises certain altitude, so that the lower end surface of pressure structure causes to squeeze to the superfine powder in superfine powder returnable, thus real Existing superfine powder fill system directly squeezes superfine powder, improves the charging efficiency of superfine powder fill system.

Detailed description of the invention

The preferred embodiment of the present invention described with reference to the accompanying drawings, in attached drawing:

Fig. 1 is the schematic diagram of superfine powder fill system of the invention；

Fig. 2 is the blanking barrel of superfine powder fill system of the invention and the schematic diagram of pressure structure；

Fig. 3 is the key step figure of the fill process of superfine powder fill system of the invention；

Fig. 4 is the specific flow chart of the fill process of superfine powder fill system of the invention.

Appended drawing reference:

1, body；11, rack；12, blanking mechanism；121, material-falling hopper；122, blanking barrel；123, oil motor；124, screw extrusion Bar；13, support component；2, control system；3, elevating mechanism；4, pressure structure；41, pressure plate.

Specific embodiment

It will be apparent to a skilled person that this section embodiment is used only for explaining technical principle of the invention, It is not intended to limit protection scope of the present invention.Although for example, being relationship drafting by a certain percentage between each component in attached drawing , but this proportionate relationship is not unalterable, those skilled in the art, which can according to need, makes adjustment to it, to fit Specific application is answered, technical solution adjusted will fall into protection scope of the present invention.

It should be noted that in the description of the present invention, term " center ", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outside" etc. indicate that the term of direction or positional relationship is direction based on the figure or positional relationship, this is only It is merely for convenience of describing, rather than indication or suggestion described device or element must have a particular orientation, with specific side Position construction and operation, therefore be not considered as limiting the invention.In addition, term " first ", " second ", " third " are only used for Purpose is described, relative importance is not understood to indicate or imply.

In addition it is also necessary to explanation, in the description of the present invention unless specifically defined or limited otherwise, term " peace Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.To those skilled in the art, it can understand that above-mentioned term exists as the case may be Concrete meaning in the present invention.

As depicted in figs. 1 and 2, Fig. 1 is the schematic diagram of superfine powder fill system of the invention；Fig. 2 is of the invention ultra-fine The blanking barrel of powder fill system and the schematic diagram of pressure structure.Referring to Figures 1 and 2, superfine powder fill system includes body 1, surpasses Thin powder recovery container, control system 2, elevating mechanism 3 and pressure structure 4.Body includes rack 11, is set to falling in rack 11 Expect mechanism 12 and the support component 13 positioned at 12 lower section of blanking mechanism.Elevating mechanism 3 is set in support component 13, control system 2, which can control elevating mechanism 3, rises or falls, to drive support component 13 to rise or fall by elevating mechanism 3, is placed in Superfine powder returnable in support component 13 rises or falls with support component 13；Pressure structure 4 and blanking mechanism 12 Blanking port one end is fixedly connected, and be will not influence blanking port and fallen superfine powder into superfine powder returnable, and superfine powder recycling is held In the case of the lower end face contact and elevating mechanism 3 of superfine powder and pressure structure 4 in device drive support component 13 to rise, pressurization The lower end surface of structure 4 can squeeze the superfine powder in superfine powder returnable.

By setting control system 2 and elevating mechanism 3, loaded in superfine powder fill system into superfine powder returnable super Before fine powder, control system 2 can control elevating mechanism 3 and support component 13 driven to rise to certain altitude, make in support component 13 Superfine powder returnable and blanking mechanism 12 blanking port it is close, thus reduce superfine powder during filling disperse it is ultra-fine out The amount of powder returnable, reduces environmental pollution；By the way that pressure structure 4 is arranged at the blanking port of blanking barrel 122, to superfine powder In returnable after filling superfine powder, control system 2 controls elevating mechanism 3 and support component 13 is driven to rise certain altitude, so that The lower end surface of pressure structure 4 causes to squeeze to the superfine powder in superfine powder returnable, to realize superfine powder fill system both Superfine powder can be loaded can directly squeeze superfine powder again, improve the charging efficiency of superfine powder fill system.

With continued reference to 2, in a preferred embodiment, blanking mechanism 12 include material-falling hopper 121 and with material-falling hopper 121 The blanking barrel 122 being fixedly connected, pressure structure 4 are set to blanking port one end of blanking barrel 122 along the circumferential direction of blanking barrel 122.Add Laminated structure 4 includes pressure plate 41 and pressure sensor, and pressure sensor is set to the lower end surface of pressure plate 41.

By setting pressure plate 41 for pressure structure 4, when superfine powder returnable rises with support component 13, favorably In the contact area for increasing pressure structure 4 and superfine powder, to increase pressure structure 4 to the squish area of superfine powder；By Pressure sensor is arranged in the lower end surface of pressure plate 41, is conducive to detect pressure plate 41 to the practical squeeze pressure value of superfine powder, Practical squeeze pressure value reach one timing, control elevating mechanism 3 stop rise, avoid practical squeeze pressure value it is excessive cause it is ultra-fine The damage of powder fill system.It is such to be arranged but also pressure structure 4 is easy to produce, easy to install.

It should be noted that, although pressure structure 4 described in the embodiment above is pressure plate 41, but this is not Limitation to pressure structure 4, for example, pressure structure 4 can also be set to blanking barrel 122 close to blanking port one end, along blanking barrel The 122 multiple shock clubs being circumferentially arranged.It is understood that those skilled in the art can according to the actual situation and need Reasonable setting pressure structure 4.

In a preferred embodiment, elevating mechanism 3 includes hydraulic pressure lifting device, and hydraulic pressure lifting device includes elevating lever, Elevating lever is fixedly connected with support component 13, thus elevating lever move up and down when be able to drive support component 13 rise and under Drop.It, can the accurate lifting speed for controlling elevating lever and lifting height by setting hydraulic pressure lifting device for elevating mechanism 3 Degree, improves the stability and accuracy of elevating mechanism 3.

In a preferred embodiment, superfine powder fill system further includes intelligent transportation system, intelligent transportation system Including conveying arm and position sensor.Control system 2 can control conveying arm and be sent into superfine powder returnable and take from support Component 13.Position sensor at the location information for being able to detect and uploading superfine powder returnable, so as to control system 2 control it is defeated Arm is sent accurately to take superfine powder returnable.

By the way that intelligent transportation system is arranged, reduces labor workload, improve superfine powder returnable placement location Accuracy, while superfine powder returnable is conveyed by intelligent transportation system, it avoids and manually places superfine powder returnable The safety accident that may occur below blanking barrel 122, improves the safety of superfine powder fill system.

With continued reference to Fig. 1 and 2, blanking mechanism 12 further includes oil motor 123 and screw extrusion bar 124, and oil motor 123 is fixed Above material-falling hopper 121, screw extrusion bar 124 is fixedly connected with the output shaft of oil motor 123, and screw extrusion bar 124 is at least A part be located at blanking barrel 122 in and can in blanking barrel 122 spinning motion.Screw extrusion bar is driven by oil motor 123 124, will not occur burning fault because of conductive dust, performance stabilization, reliable operation, guarantee that superfine powder fill system is reliable and stable Operation.By the way that fixed screw extrusion bar 124 is arranged, will not influence while realizing superfine powder output blanking barrel 122 super The property of fine powder.

It is understood that those skilled in the art can also select other engines with needs according to the actual situation Drive screw extrusion bar 124, such as servo motor.

As shown in figure 3, Fig. 3 is the key step figure of the fill process of superfine powder fill system of the invention.According to above-mentioned Superfine powder fill system described in embodiment, the fill process of superfine powder fill system of the invention mainly include following step It is rapid:

Step S10, superfine powder returnable is placed in support component；

Step S20, control blanking mechanism output first squeezes the superfine powder of aim parameter；

Step S30, control elevating mechanism driving support component rises to the first setting position, so that pressure structure squeezes superfine powder Pressure；

Step S40, judge whether the superfine powder amount in superfine powder returnable reaches filling aim parameter, do not reaching filling mesh In the case of scalar, control elevating mechanism driving support component declines the first setting height, updates first and squeezes aim parameter, first Setting position, the first setting height, repeat step S20, S30, S40.

Filling step in this way, it is every into superfine powder returnable load part superfine powder after with regard to once being squeezed Pressure, can be such that the superfine powder in superfine powder returnable is sufficiently squeezed, and make the superfine powder returnable of same volume can be with Load more superfine powders；It realizes that superfine powder fill system directly squeezes superfine powder, makes ultra-fine in superfine powder returnable Powder comparatively fast reaches filling aim parameter, improves the charging efficiency of superfine powder fill system.

It should be noted that after due to loading superfine powder into superfine powder returnable every time, superfine powder returnable The amount of interior superfine powder can change, so making support group in filling next time and extruding in order to squeeze to superfine powder The first setting position and squeeze makes the first setting height of support component decline need to update after the completion that part rises to；In order to The filling aim parameter for comparatively fast reaching superfine powder returnable, when being loaded for the first time, it will usually set the first extruding aim parameter That sets is larger, and after carrying out primary or multiple filling, the amount of superfine powder is close to filling aim parameter, so needing to squeeze to first Pressure aim parameter is updated, and those skilled in the art can squeeze aim parameter to first according to actual filling aim parameter and carry out more Newly.

In a preferred embodiment, before step S20, fill process is further comprising the steps of:

Step S020, control elevating mechanism driving support component rises the second setting height.

By the way that before superfine powder fill system loads superfine powder into superfine powder returnable, control elevating mechanism drives branch Support component rises to certain altitude, and the blanking port of the superfine powder returnable and blanking mechanism in support component can be made close, The amount of excess of export thin powder recovery container so that reduction superfine powder during filling is dispersed, reduces environmental pollution.

In a preferred embodiment, step S20 is further included steps of

Step S201, while control blanking mechanism output first squeezes the superfine powder of aim parameter, control elevating mechanism driving branch Support component uniform descent third setting height.

Setting in this way, it is therefore prevented that when the blanking port of superfine powder returnable and blanking mechanism is closer to, blanking Mouth, which falls out a large amount of superfine powders, causes the superfine powder in superfine powder returnable that blanking port is covered the phenomenon that even blocking, and improves Superfine powder fill system reliability of operation.

In a preferred embodiment, step S30 specifically includes the following steps:

Step S301, control elevating mechanism driving support component rises；

Step S302, judge whether pressure structure reaches target pressure value to the practical squeeze pressure value of superfine powder, actually squeezing In the case of pressure pressure value reaches target pressure value, control elevating mechanism stops driving support component and rises.

Elevating mechanism driving support component rises to first is determined by practical squeeze pressure value and target pressure value On the one hand setting position can relatively accurately control pressure structure to the extruding dynamics of superfine powder, on the other hand can compare The accurately position that control lifting structure driving support component rises to.

It is understood that being determined by practical squeeze pressure value with target pressure value described in the embodiment above The first setting position that elevating mechanism driving support component rises to not is the sole mode for determining the first setting position, such as The specific height of the first setting position can also directly be set.Those skilled in the art can according to the actual situation with need to select Select the suitable mode for determining the first setting position.

In a preferred embodiment, step S40 is further included steps of

Step S401, in the case of the superfine powder amount in superfine powder returnable reaches filling aim parameter, elevating mechanism is controlled Driving support component drops to initial position；

Step S401, superfine powder returnable is taken from support component.

After superfine powder returnable is filled, support component is driven to drop to initial bit by control elevating mechanism It sets, superfine powder returnable can be made to ensure that ultra-fine far from blanking barrel to take superfine powder returnable from support component Powder fill system reliability of operation.

As shown in figure 4, Fig. 4 is the idiographic flow schematic diagram of the fill process of superfine powder fill system of the invention.Refering to The detailed process of Fig. 4, the fill process of superfine powder fill system of the invention are as follows:

1) superfine powder fill system is opened；2) superfine powder returnable is placed in support component；3) control elevating mechanism driving Support component rises the second setting height；4) control rises while control blanking mechanism output first squeezes the superfine powder of aim parameter Descending mechanism drives support component uniform descent third setting height；5) control elevating mechanism driving support component rises；6) judge Whether pressure structure reaches target pressure value to the practical moulding pressure value of superfine powder, reaches target pressure in practical squeeze pressure value In the case of force value, control elevating mechanism stops driving support component and rises；In practical squeeze pressure value miss the mark pressure Return step 5 in the case of value)；7) judge whether the superfine powder amount in superfine powder returnable reaches filling aim parameter, not In the case of reaching filling aim parameter, control elevating mechanism declines the first setting height, updates the first extruding aim parameter, third is set Fixed height, the first setting height and return step 4)；In the case of reaching filling aim parameter, control elevating mechanism driving support Component drops to initial position；8) superfine powder returnable is taken from support component；9) control superfine powder fill system terminates this Secondary operation.

In conclusion superfine powder fill system of the invention include control system, elevating mechanism, blanking mechanism and with fall The pressure structure that blanking port one end of material mechanism is fixedly connected.Setting in this way, it is possible to reduce superfine powder in filling process The amount of dispersing, reduce environmental pollution；It realizes that superfine powder fill system directly squeezes superfine powder, improves charging efficiency.Preferably, Pressure structure includes pressure plate and the pressure sensor for being set to pressure plate lower end surface.Setting in this way increases pressurization knot Structure avoids practical squeeze pressure to the practical squeeze pressure value of superfine powder to the squish area of superfine powder, real-time monitoring pressure plate It is worth and excessive pressure plate is caused to damage.Preferably, superfine powder fill system further includes intelligent transportation system.Setting in this way, It avoids and superfine powder returnable is manually placed in the safety accident that may occur below blanking barrel, improve superfine powder filling The safety of system.

So far, it has been combined preferred embodiment shown in the drawings and describes technical solution of the present invention, still, this field Technical staff is it is easily understood that protection scope of the present invention is expressly not limited to these specific embodiments.Without departing from this Under the premise of the principle of invention, those skilled in the art can make equivalent change or replacement to the relevant technologies feature, these Technical solution after change or replacement will fall within the scope of protection of the present invention.

Claims (10)

1. a kind of superfine powder fill system, which is characterized in that the superfine powder fill system includes body, superfine powder recycling appearance Device, control system, elevating mechanism and pressure structure, the body include rack, the blanking mechanism being set in the rack and Support component below the blanking mechanism, the elevating mechanism are set to the support component,

The set-up of control system rises or falls at that can control the elevating mechanism, to be driven by the elevating mechanism The support component rises or falls；

The pressure structure is fixedly connected with blanking port one end of the blanking mechanism；

Superfine powder in the superfine powder returnable in the support component is contacted with the pressure structure and the elevator In the case of structure drives the support component to rise, the pressure structure can be to the superfine powder in the superfine powder returnable It is squeezed.

2. superfine powder fill system according to claim 1, which is characterized in that the blanking mechanism includes material-falling hopper and falls Barrel, the blanking barrel are fixedly connected with the material-falling hopper, the circumferentially arranged blanking in the blanking barrel of the pressure structure Mouth one end,

The pressure structure includes pressure plate and pressure sensor, and the pressure sensor is set to the pressure plate close to described The side of superfine powder returnable.

3. superfine powder fill system according to claim 2, which is characterized in that the superfine powder fill system further includes intelligence Energy transportation system, the intelligence transportation system includes conveying arm and position sensor, and the control system can control described defeated Send arm that the superfine powder returnable is sent into and takes from the support component, the position sensor be arranged to detection and Upload the location information of the superfine powder returnable.

4. superfine powder fill system according to claim 3, which is characterized in that the elevating mechanism includes hydraulic lifting Device, the hydraulic pressure lifting device include elevating lever, and the elevating lever is fixedly connected with the support component, to make the support group Part rises or decline.

5. superfine powder fill system according to claim 4, which is characterized in that the blanking mechanism further include oil motor and Screw extrusion bar, the screw extrusion bar are fixedly connected with the output shaft of the oil motor, and the screw extrusion bar is arranged to Enough spinning motions in the blanking barrel.

6. a kind of fill process of superfine powder fill system, which is characterized in that the superfine powder fill system is wanted for aforesaid right Superfine powder fill system described in asking any one of 1 to 5, the fill process specifically includes the following steps:

Step S10, superfine powder returnable is placed in the support component；

Step S20, the superfine powder that the blanking mechanism output first squeezes aim parameter is controlled；

Step S30, controlling the elevating mechanism drives the support component to rise to the first setting position, so as to pressurization knot Structure squeezes superfine powder；

Step S40, judge whether the superfine powder amount in superfine powder returnable reaches filling aim parameter, do not reaching filling mesh It in the case of scalar, controls the elevating mechanism and the support component is driven to decline the first setting height, update described first and squeeze Aim parameter, first setting position, first setting height are pressed, described step S20, S30, S40 are repeated.

7. fill process according to claim 6, which is characterized in that the step S30 " controls the elevating mechanism driving The support component rises the first setting position, so that the pressure structure squeezes superfine powder " specifically includes the following steps:

Step S301, controlling the elevating mechanism drives the support component to rise；

Step S302, judge whether the pressure structure reaches target pressure value to the practical squeeze pressure value of superfine powder, in reality In the case of border squeeze pressure value reaches target pressure value, controls the elevating mechanism and stop that the support component is driven to rise.

8. fill process according to claim 7, which is characterized in that step S20 " controls the blanking mechanism blanking to One squeezes aim parameter " before, the fill process is further comprising the steps of:

Step S020, controlling the elevating mechanism drives the support component to rise the second setting height.

9. fill process according to claim 8, which is characterized in that the step S20 " controls the blanking mechanism output The superfine powder of first extruding aim parameter " further comprises:

Step S201, while controlling the superfine powder of the first extruding of blanking mechanism output aim parameter, the elevator is controlled Structure drives the support component uniform descent third setting height.

10. fill process according to claim 9, which is characterized in that the step S40 " judges superfine powder returnable Whether interior superfine powder amount reaches filling aim parameter, in the case of not reaching filling aim parameter, controls the elevating mechanism It drives the support component to decline the first setting height, updates described first and squeeze aim parameter, first setting position, described It is further comprising the steps of to repeat the step S20, S30, S40 " for first setting height:

Step S401, in the case of the superfine powder amount in the superfine powder returnable reaches the filling aim parameter, control The elevating mechanism drives the support component to drop to initial position；

Step S401, the superfine powder returnable is taken from the support component.