CN203550594U - Automatic saggar shuffling device for production line of electronic powder material - Google Patents

Abstract

The utility model relates to an automatic saggar shuffling device for a production line of an electronic powder material and belongs to the technical field of electronic kiln ancillary facilities. The automatic saggar shuffling device comprises a box, a saggar entrance opening-closing mechanism, a saggar exit opening-closing mechanism, a saggar overturning shuffling mechanism, a shuffling plate driving motor, a pair of saggar clamping and releasing mechanisms, a pair of saggar clamping and releasing mechanism actuating acting cylinders and a pair of saggar releasing mechanisms, wherein the saggar entrance opening-closing mechanism is arranged on the front side of a box cover and is matched with a saggar entrance; the saggar exit opening-closing mechanism is arranged on the rear side of the box cover and is matched with a saggar exit; the saggar overturning shuffling mechanism is supported on a left/right box wall of the box; the shuffling plate driving motor is fixed on the left or right box wall of the box; the saggar clamping and releasing mechanisms are arranged on the saggar overturning shuffling mechanism; the saggar clamping and releasing mechanism actuating acting cylinders are arranged on the left and right box walls of the box; the saggar releasing mechanisms are arranged in saggar releasing mechanism working cavities. The automatic saggar shuffling device for the production line of the electronic powder material has the advantages that the labor intensity is relieved, a quick shuffling effect is achieved, a scald accident is prevented, the labor cost is reduced, the clean environment is ensured, and the whole automation effect of the production line is reflected.

Description

The saggar automatic material pouring device that electronic powder manufacture of materials streamline is used

Technical field

The utility model belongs to electronic kiln auxiliary facility technical field, be specifically related to the saggar automatic material pouring device that a kind of electronic powder manufacture of materials streamline is used, for by come from electronic kiln and through separating the electronic powder material of broken station solution after broken, in saggar, pour out.

Background technology

Aforesaid electronic powder material is as color phosphor, lamp powder, barium titanate, strontium titanates, yttria, titanium dioxide, zirconium dioxide, bismuth oxide, aluminium oxide, lead zirconate titanate, ferromagnetic oxide powder and LiFePO4, etc.Known to those of skill in the art, when burning till (also claiming sintering) to electronic powder material, electronic kiln electronic powder material (raw material) need be packed into saggar (saggar also claims crucible), by saggar, together with electronic powder material, introducing electronic kiln burns till, after burning till, by saggar, carry electronic powder material (grog) kiln discharge burning till and remove and supply with subsequent processing and for example grind, empty saggar again packs raw electronic powder material (raw material) into and enters klining one-tenth after clean.Hence one can see that, and saggar belongs to the transfer container recycling.

Prior art conventionally goes out the electronic powder material (grog) that the burn till saggar of electronic kiln in manual work mode by row by workman and pours out box alms bowl separating after broken.One of self-evident shortcoming of manual batch turning, because saggar self is comparatively heavy, add that the electronic powder material in alms bowl is more heavy, thereby the labour intensity of workman's batch turning is large; Two, because manual batch turning efficiency is low, be conventionally difficult to adapt with the kiln discharge speed of burning till of electronic kiln, thereby conventionally to increase workman number, met, thereby cause valuable human resources waste; Three, because the temperature of the saggar that comes from electronic kiln can reach 80-120 ℃ of left and right, thereby be both not easy to workman and grab and pinch, exist again and scald the anxiety of damaging workman's limbs; Four, due to the light general disperse of operation field material dirt in batch turning process, thereby be both not enough to embody clean carrying out production strictly in line with rules and regulations, be unfavorable for that again workman's is healthy; Five, owing to being manual operation, thereby cannot dock with electronic powder manufacture of materials streamline.

In view of above-mentioned prior art, be necessary to be improved, the applicant has done positive and useful design for this reason, finally formed technical scheme described below, and taking under secrecy provision, in the applicant plant area, carrying out simulated test repeatedly, it is practicable that result proves.

Summary of the invention

Task of the present utility model is to provide a kind of and contributes to abandon artificial batch turning and use the labour intensity that significantly alleviates workman, be conducive to improve batch turning efficiency and use and match with the kiln discharge speed of burning till of electronic kiln, be of value to and avoid workman to contact with the saggar of high temperature and use preventing from undermining workman's limbs, have and be convenient to reduce human input and use and save valuable human resources and reduce labour's expenditure cost, the saggar automatic material pouring device that the electronic powder manufacture of materials streamline that has the clean environment of being good at preventing from expecting dirt disperse and using guarantee operation place to use the desirable automation effect of embodiment with contributing to match with electronic powder manufacture of materials streamline is used.

Task of the present utility model completes like this, the saggar automatic material pouring device that a kind of electronic powder manufacture of materials streamline is used, comprise a casing, in the casing chamber of this casing and the left side and the right side that are positioned at casing chamber be respectively provided with a separate space plate, space between the separate space plate in this left side and the left tank wall of casing is configured to saggar releasing mechanism working chamber, the same saggar releasing mechanism working chamber that is configured in space between the separate space plate on right side and the right tank wall of casing, and space between the separate space plate on this left side and right side is configured to batch turning mechanism working chamber, and on the separate space plate in this left side and on the separate space plate on right side, respectively offer rotating disk that a position the corresponds to each other chamber of stepping down, at the top of casing, be fixed with a Box Cover, on this Box Cover and being provided with the material dirt boot for the material dirt resulting from batch turning mechanism working chamber is drawn corresponding to the position of described batch turning mechanism working chamber, this material dirt boot is connected with negative pressure dust removing device by pipeline under use state, in the bottom of casing, be connected with a discharge bucket, this discharge bucket communicates with described batch turning mechanism working chamber, in the front side of casing, form and have a saggar that is loaded with the electronic powder material burning till for confession communicating with described batch turning mechanism working chamber to enter the saggar inlet port in batch turning mechanism working chamber, the rear side of casing form have one same that communicate with batch turning mechanism working chamber and position is corresponding with described saggar inlet port for confession except the capable outlet of saggar of the saggar Hang Chu batch turning mechanism working chamber of the electronic powder material that burns till, one for the saggar inlet port mechanism for opening/closing to described saggar inlet port opening and closing of fault, and this saggar inlet port mechanism for opening/closing is arranged on the front side of described Box Cover and matches with saggar inlet port, one for the capable outlet of the saggar mechanism for opening/closing to the capable port opening of described saggar or sealing, and the capable outlet of this saggar mechanism for opening/closing is arranged on the rear side of described Box Cover and matches with the capable outlet of saggar, one is positioned at the saggar Tilting mechanism of described batch turning mechanism working chamber, and this saggar Tilting mechanism is bearing in rotationally in the position in the chamber of stepping down corresponding to described rotating disk on the left tank wall and right tank wall of casing, one batch turning disk-drive motor, this batch turning disk-drive motor is fixed on the left tank wall or right tank wall of described casing, and is connected with described saggar Tilting mechanism, a pair of saggar folds up mechanism, and this pair of saggar folds up mechanism and is arranged in described saggar Tilting mechanism with the state facing each other, a pair of saggar folds up mechanism's brake function cylinder, this a pair of saggar folds up one of them saggar in mechanism's brake function cylinder and folds up on the described left tank wall that mechanism's brake function cylinder is arranged on described casing, and in described saggar releasing mechanism working chamber, folding up one of them saggar in mechanism with described a pair of saggar folds up mechanism and is connected, and folding up another saggar in mechanism's brake function cylinder, a pair of saggar folds up on the described right tank wall that mechanism's brake function cylinder is arranged on casing, and same in saggar releasing mechanism working chamber, fold up another saggar in mechanism with described a pair of saggar and fold up mechanism and be connected, a pair of for opening or block the saggar releasing mechanism of the passage between the capable outlet of described saggar Tilting mechanism and described saggar, this a pair of saggar releasing mechanism is separately positioned in described saggar releasing mechanism working chamber and is connected with described saggar Tilting mechanism, wherein: described casing is fixed on box housing supporting bracket, and box housing supporting bracket matches with the saggar conveying mechanism of electronic powder manufacture of materials streamline under use state.

In a specific embodiment of the present utility model, described saggar inlet port mechanism for opening/closing comprises that inlet port opens and closes acting cylinder holder, inlet port opens and closes acting cylinder and inlet port open-close sluice gate, inlet port keying acting cylinder holder is fixed on the front side of described Box Cover, it is cylinder that inlet port opens and closes acting cylinder, being fixed on inlet port opens and closes on acting cylinder holder, and the inlet port that this inlet port opens and closes acting cylinder open and close acting cylinder post towards under, inlet port open-close sluice gate coordinates with described saggar inlet port plug, in the bending of the top of this inlet port open-close sluice gate, form and have an inlet port open-close sluice gate to connect bent plate, this inlet port open-close sluice gate connects bent plate and described inlet port keying acting cylinder post is fixed, and connect on bent plate and be provided with a pair of guide pillar at this inlet port open-close sluice gate, the cylinder body that this pair of guide pillar and inlet port open and close acting cylinder is slidably matched.

In another specific embodiment of the present utility model, the capable outlet of described saggar mechanism for opening/closing comprises that row outlet opens and closes acting cylinder holder, row outlet opens and closes acting cylinder and row outlet open-close sluice gate, row outlet keying acting cylinder holder is fixed on the rear side of described Box Cover, it is cylinder that row outlet opens and closes acting cylinder, the outlet of being fixedly expert at opens and closes on acting cylinder holder, and the row outlet that the outlet of this row opens and closes acting cylinder open and close acting cylinder post towards under, row outlet open-close sluice gate coordinates with described saggar outlet plug, in the top bending of this row outlet open-close sluice gate, form and have a line outlet open-close sluice gate to connect bent plate, this row outlet open-close sluice gate connects bent plate and described row outlet keying acting cylinder post is fixed, and connect on bent plate and be provided with a pair of lead at this row outlet open-close sluice gate, this a pair of lead is slidably matched with the cylinder body that row outlet opens and closes acting cylinder.

In another specific embodiment of the present utility model, on described Box Cover, be provided with access hole, on upper access hole, be provided with access hole cover plate.

In another specific embodiment of the present utility model, on the left tank wall of described casing and right tank wall, respectively offer access hole, lower access hole communicates with described saggar releasing mechanism working chamber, and on lower access hole, is equipped with lower access hole cover plate 111.

Of the present utility model, also have in a specific embodiment, described saggar Tilting mechanism comprises a pair of rotary disk opposite each other, rotary disk main shaft and one group of electromotive roller, a pair of rotary disk is positioned at described separate space plate towards a side of described saggar releasing mechanism working chamber and corresponding with the described rotating disk chamber of stepping down, between this pair of rotary disk, by a pair of rotary disk fixed bar, be fixedly connected with, the middle part of rotary disk main shaft and the middle position of a pair of rotary disk are fixed, the left end of rotary disk main shaft is being bearing in rotationally by spindle bearing holder on the left tank wall of described casing after described saggar releasing mechanism working chamber, and the right-hand member of rotary disk main shaft is stretched in saggar releasing mechanism working chamber, and be in transmission connection by main shaft adapter sleeve and described batch turning mechanism drive motors, one group of electromotive roller is arranged between a pair of rotary disk with interval state pivotable, and this group of electromotive roller is positioned in same level, by this group of electromotive roller, the saggar in described saggar inlet port enters into batch turning mechanism working chamber is drawn towards the capable outlet of described saggar after falling to remove electronic powder material, described a pair of saggar folds up mechanism and is separately positioned on a pair of rotary disk, and in described saggar folds up mechanism's working chamber, folding up mechanism's brake function cylinder with described saggar is connected, described a pair of saggar releasing mechanism is connected with described a pair of rotary disk respectively.

More of the present utility model and in a specific embodiment, described a pair of saggar folds up mechanism and respectively comprises rotation exoneration connector, first, the second pull bar sliding sleeve, first, the second pull bar, first, the second holddown spring and saggar clamping plate, rotation exoneration connector is positioned at the side of described rotary disk towards described saggar releasing mechanism working chamber, and folding up mechanism's brake function cylinder with described saggar is connected, the first pull bar sliding sleeve and the second pull bar sliding sleeve are fixed on the side of rotary disk towards saggar releasing mechanism working chamber, the first pull bar forms and has one first spring base towards one end of saggar clamping plate, one end of this first spring base and saggar clamping plate is fixed, the first pull bar is connected with one end of rotation exoneration connector after the first pull bar sliding sleeve is being passed in one end of rotary disk, the second pull bar forms and has one second spring base towards one end of saggar clamping plate, the other end of this second spring base and saggar clamping plate is fixed, the second pull bar is connected with the other end of rotation exoneration connector after the second sliding sleeve is being passed in one end of rotary disk, the first holddown spring is nested with on the first pull bar, one end of this first holddown spring is bearing on the first spring base, and being bearing in rotary disk, the other end back to described saggar, folds up a side of mechanism's working chamber, the second holddown spring is nested with on the second pull bar, one end of this second holddown spring is bearing on the second spring base, and being bearing in rotary disk equally, the other end back to saggar, folds up a side of mechanism's working chamber, on the top of saggar clamping plate, be fixed with a saggar upper edge press strip.

In of the present utility model and then a specific embodiment, it is cylinder that described saggar folds up mechanism's brake function cylinder, the saggar that this saggar folds up mechanism's brake function cylinder folds up mechanism's brake function cylinder post and is stretched over described saggar and folds up in mechanism's working chamber, and the end formation that folds up mechanism's brake function cylinder post at this saggar has a cylinder column cap, on described rotation exoneration connector, form and have a cylinder column cap chamber and cylinder post groove, cylinder column cap chamber communicates with cylinder column cap groove, described saggar folds up mechanism's brake function cylinder post and cylinder post groove is slidably matched, and described cylinder column cap is positioned at described cylinder column cap chamber.

Of the present utility model again more and in a specific embodiment, described a pair of saggar releasing mechanism respectively comprises clearance acting cylinder, arm shaft, saggar clearance lifter plate, arm shaft revolution release link, push rod and spring, clearance acting cylinder is arranged in described saggar releasing mechanism working chamber, and be positioned at the bottom of one end of the length direction of saggar releasing mechanism working chamber, arm shaft is arranged between described a pair of rotary disk, and corresponding to the side-lower of the electromotive roller towards described saggar inlet port in one group of described electromotive roller, in the middle position of the length direction of this arm shaft, be fixed with a saggar clearance lifter plate holder, and the end, two ends of arm shaft is respectively insinuated in described saggar releasing mechanism working chamber through rotary disk, and be fixed with a swing arm seat, on swing arm seat, be extended with a swing arm, swing arm is corresponding with the clearance acting cylinder post of clearance acting cylinder, one end of saggar clearance lifter plate and described saggar clearance lifter plate holder are fixed, and the other end of saggar clearance lifter plate is corresponding with an electromotive roller towards described saggar outlet in described one group of electromotive roller and form and have a position-limited claw, when this position-limited claw leans out the upper surface of electromotive roller, saggar stays on electromotive roller, and when position-limited claw drops to the upper surface lower than electromotive roller, stay in saggar on electromotive roller and go out described batch turning mechanism working chamber to the direction row of the capable outlet of described saggar, one end and the described swing arm seat of arm shaft revolution release link are fixed, one end of pull bar is connected with the other end of arm shaft revolution release link, and the other end of pull bar is fixed on draw-bar seat, spring is nested with on pull bar, one end of this spring is bearing in described arm shaft revolution release link, and the other end of spring is bearing on draw-bar seat.

In again of the present utility model and then a specific embodiment, described clearance acting cylinder is cylinder.

One of technique effect of the technical scheme that the utility model provides, owing to pouring the electronic powder material burning till in saggar into discharge bucket by saggar Tilting mechanism, thereby is alleviated workman's labour intensity without manual batch turning; Two, owing to being automation batch turning, thereby there is quick batch turning effect, can meet the requirement that kiln discharge speed adapts of burning till with electronic kiln; Three, owing to having abandoned manual batch turning, thereby workman is without contacting with the saggar of high temperature, stops to scald the generation of workman's limbs accident; Four, owing to can reducing human input, thereby can save human resources and save labour expenditure cost; Five, owing to can material dirt being drawn by material dirt boot, thereby can ensure the environment cleaning effect in operation place; Six, because casing can match with the saggar conveying mechanism of electronic powder manufacture of materials streamline easily, thereby can embody the integrated automation effect of streamline.

Accompanying drawing explanation

Fig. 1 is example structure figure of the present utility model.

Fig. 2 is the front schematic view of Fig. 1.

Fig. 3 is the side schematic view of Fig. 1.

The specific embodiment

For the auditor that the makes Patent Office especially public can be expressly understood technical spirit of the present utility model and beneficial effect more, applicant elaborates the mode with embodiment below, but to the description of embodiment, be not all the restriction to the utility model scheme, any according to the utility model design, done only for pro forma but not substantial equivalent transformation all should be considered as the technical solution of the utility model category.

Applicant it should be noted that: everyly in the following description occur that upper and lower, left and right, front and rear and so on directionality concept are all for the residing location status of figure of describing, and therefore can not be understood as the specific limited to the utility model scheme.

Refer to Fig. 1 and Fig. 2, provided a casing 1, the structure of this casing 1 preferred rectangular body, in the casing chamber of this casing 1 and the left side and the right side that are positioned at casing chamber be respectively provided with a separate space plate 12, Huo Cheng region, space between separate space plate 12 and the left tank wall of casing 1 in left side is configured to saggar releasing mechanism working chamber 121(also can be by it referred to as separate space), equally, the Huo Cheng region, space between the separate space plate 12 on right side and the right tank wall of casing 1 is configured to batch turning mechanism working chamber 122.As can be seen here, by a pair of separate space plate 12, the casing chamber of casing 1 is separated out to two saggar releasing mechanism working chambers 121 and a batch turning mechanism working chamber 122.

Shown in figure, on the separate space plate 12 in left side and on the separate space plate 12 on right side, respectively offer rotating disk that a position the corresponds to each other chamber 123 of stepping down, that is to say and on a pair of separate space plate 12 and in corresponding position, respectively offer the rotating disk chamber 123 of stepping down.Top at casing 1 is fixed with a Box Cover 13 by one group of Box Cover hold-down screw 134, on this Box Cover 13 and offering a material dirt outlet 133 corresponding to the position of aforementioned batch turning mechanism working chamber 122, in the position corresponding to this material dirt outlet 133, with boot hold-down screw 1311, be fixed with a material dirt boot 131, this material dirt boot 131 is connected as dedusting fan pipeline by pipeline and negative pressure dust collector, by this material dirt boot 131, the material dirt rising in saggar Tilting mechanism 4 batch turning processes is drawn, to guarantee the clean environment of workplace.Again, in the bottom of casing 1, be fixedly connected with a discharge bucket 14, certainly, this discharge bucket 14 is corresponding to the bottom of aforesaid batch turning mechanism working chamber 122, and communicate with batch turning mechanism working chamber 122, the electronic powder material the burning till introducing of coming from discharge bucket 14 is gathered materials in container, and the container that gathers materials can be both the aggregate tube being placed on corresponding to discharge bucket 14 belows, can be to be also the solid bag that gathers materials on discharge bucket 14.And, in the front side of casing 1 (take location status shown in Fig. 1 as example), offer one communicate with batch turning mechanism working chamber 122 for showing for being loaded with the saggar 10(Fig. 2 that burns till product electronic powder material) enter the saggar inlet port 15 in batch turning mechanism working chamber 122, at the position of this saggar inlet port 15, be provided with an inlet port doorframe 151, and form and have an inlet port open-close sluice gate sliding tray 1511 between this inlet port doorframe 151 and the front side outer wall of casing 1.Also, at the rear side (take location status shown in Fig. 1 as example) of casing 1, offer one same that communicate with batch turning mechanism working chamber 122 and position is corresponding with saggar inlet port 15 for confession except the capable outlet 16 of saggar of the empty saggar 10 Hang Chu batch turning mechanism working chambers 122 of the electronic powder material that burns till, at the position of the capable outlet 16 of this saggar, being provided with a line outlet doorframe 161(Fig. 3 shows), and formation has a line outlet open-close sluice gate sliding tray 1611(Fig. 3 to show between this row outlet doorframe 161 and the rear side outer wall of casing 1).

Preferably, between aforesaid a pair of separate space plate 12 and corresponding to the each pivotable in position of aforesaid saggar inlet port 15 and the capable outlet of saggar 16, a transition roller 124 is being set, preferably, on aforesaid Box Cover 13, offer a pair of on access hole 132(Fig. 2 indicate), on access hole 132, be installed with access hole cover plate 1321 on each, a pair of upper access hole 132 communicates with batch turning mechanism working chamber 122.On the left tank wall of aforesaid casing 1 and right tank wall, respectively offer access hole 11, lower access hole 11 communicates with aforesaid saggar releasing mechanism working chamber 121, and is equipped with lower access hole cover plate 111 on lower access hole 11.

In use, by casing hold-down screw 18, casing 1 is fixed on box housing supporting bracket 17, and this box housing supporting bracket 17 matches with the saggar conveying mechanism 9 of the electronic powder manufacture of materials streamline of being illustrated by Fig. 3 under use state.

Ask for an interview Fig. 3, above mentioned saggar conveying mechanism 9 consists of parallel a pair of conveying roller backbar 91 and the saggar conveying roller 92 that is arranged between a pair of conveying roller backbar 91 with interval state pivotable, between adjacent saggar conveying roller 92, by driving chain, by the sprocket wheel being fixed on saggar conveying roller 92, linked, under the work of power drive mechanism, make saggar conveying roller 92 move (rotation).

Above mentioned electronic powder manufacture of materials streamline refers to: a pair of conveying roller backbar 91 is connected between the burner hearth entrance and furnace outlet of electronic kiln under use state, be connected with burner hearth entry and exit, at the length direction of a pair of conveying roller backbar 91, by operation requirement or title station, require to arrange saggar automatic material pouring device, saggar automatic cleaning device, the detection of flaw saggar and device for eliminating, saggar automatic Weighing drawing-in device and the material containing saggar introducing device etc. of electronic powder material solution crushing device, the utility model structure.Because aforesaid a pair of conveying roller backbar 91 is between the burner hearth entrance and furnace outlet of electric kiln, thereby between the burner hearth entrance of electronic kiln and furnace outlet, form a continuous working cycles, form the working cycles of going round and beginning again.More particularly: by saggar 10, carried the electronic powder material that burns till from furnace outlet capable go out, when arriving at the broken station of solution, by this electronic powder material solution crushing device, to the electronic powder material in saggar 10, implement to separate broken, saggar 10 leaves to be separated broken station and is following saggar conveying roller 92 while arriving at inlet orifice position, by saggar automatic material pouring device of the present utility model, saggar 10 is overturn to 180 ° and the electronic powder material in saggar 10 is poured out, and then this automatic material pouring device makes saggar 10 towards turning round 180 ° with previously contrary direction, by the alms bowl mouth of saggar 10 towards upper, saggar 10 continues to advance, when marching to saggar automatic cleaning station, by saggar automatic cleaning device, it is cleaned, when the empty saggar 10 after clean advances to the detection of flaw saggar with part eject station, by flaw saggar, detect with device for eliminating and detect, the flaw saggar detecting is disallowable in saggar conveying roller 92, and intact saggar 10 continues to advance, when arriving saggar automatic Weighing feeding station, by saggar automatic Weighing drawing-in device to the interior feeding of saggar 10, and after shaking up, enter material containing saggar and introduce station, by material containing saggar introducing device, the burner hearth that electronic powder material introducing electronic kiln to be burnt till is housed is burnt till, so circulate and can embody high efficiency, automated production process, form a complete electronic kiln automation production flow line.

Please continue to refer to Fig. 1 and Fig. 2, provided one for aforesaid saggar inlet port 15 being opened or closed the saggar inlet port mechanism for opening/closing 2 of (sealing), this saggar inlet port mechanism for opening/closing 2 is preferably but not the structure being definitely limited to is as follows: comprise that inlet port opens and closes acting cylinder holder 21, inlet port opens and closes acting cylinder 22 and inlet port open-close sluice gate 23, inlet port opens and closes acting cylinder holder 21 and adopts first hold-down screw 211(Fig. 3 to show) fix with the front side of aforementioned Box Cover 13, it is cylinder that inlet port opens and closes acting cylinder 22, show with second hold-down screw 222(Fig. 3) be fixed on inlet port and open and close on acting cylinder holder 21, and the inlet port that this inlet port opens and closes acting cylinder 22 open and close acting cylinder post 221 towards under, inlet port open-close sluice gate 23 is slidably matched with the inlet port open-close sluice gate sliding tray 1511 of the inlet port doorframe 151 at saggar inlet port 15 places (i.e. plug coordinates), in the bending of the top of this inlet port open-close sluice gate 23, form and have an inlet port open-close sluice gate to connect bent plate 231, this inlet port open-close sluice gate connects bent plate 231 and is fixedly connected with aforementioned inlet port keying acting cylinder post 221, and connect on bent plate 231 and be provided with a pair of guide pillar 2311 at this inlet port open-close sluice gate, this a pair of guide pillar 2311 is slidably matched with the cylinder body that inlet port opens and closes acting cylinder 22, by this, correspond respectively to the action stability that inlet port opens and closes a pair of guide pillar 2311 of acting cylinder post 221 both sides and guaranteed inlet port keying acting cylinder post 221.

While stretching outside inlet port opens and closes acting cylinder post 221 opens and closes cylinder body from acting cylinder 22 to inlet port, just by it, promoting inlet port open-close sluice gate 23, to follow inlet port open-close sluice gate sliding tray 1511 descending, saggar inlet port 15 sealed, otherwise open.

Applicant selects cylinder to open and close acting cylinder 22 as inlet port in the present embodiment, if but for the object of evading, adopt oil cylinder to replace cylinder, should be considered as so equivalence and replace and still belong to the disclosed technology contents category of the utility model.The row outlet of the capable outlet of the saggar mechanism for opening/closing 3 that will mention below opens and closes acting cylinder 32 with example.

The function of the capable outlet of above mentioned saggar mechanism for opening/closing 3 be for to saggar capable outlet 16 open or seal, the capable outlet of this saggar mechanism for opening/closing 3 preferably but not the structure being definitely limited to is as follows: comprise that row outlet opens and closes acting cylinder holder 31, row outlet opens and closes acting cylinder 32 and row outlet open-close sluice gate 33, row outlet opens and closes acting cylinder holder 31 and adopts the 3rd hold-down screw 311(Fig. 3 to show) fix with the rear side of aforementioned Box Cover 13, it is cylinder that row outlet opens and closes acting cylinder 32, adopt the 4th hold-down screw 322(Fig. 3 to show) fixing with row outlet keying acting cylinder holder 31, and the row outlet that the outlet of this row opens and closes acting cylinder 32 open and close acting cylinder post 321 towards under, row outlet open-close sluice gate 33 is slidably matched (i.e. plug coordinates) with the row outlet open-close sluice gate sliding tray 1611 of the row outlet doorframe 161 at aforementioned saggar outlet 16 positions, in the top bending of this row outlet open-close sluice gate 33, form and have a line outlet open-close sluice gate to connect bent plate 331, this row outlet open-close sluice gate connects bent plate 331 and is fixedly connected with row outlet keying acting cylinder post 321, and connect on bent plate 331 and be provided with a pair of lead 3311 at this row outlet open-close sluice gate, this a pair of lead 3311 is slidably matched with the cylinder body that row outlet opens and closes acting cylinder 32, by this, correspond respectively to a pair of lead 3311 of row outlet keying acting cylinder post 321 both sides and ensured that row outlet opens and closes the action stability of acting cylinder post 321.Because the operating principle of the capable outlet of this saggar mechanism for opening/closing 3 is identical with aforesaid saggar inlet port mechanism for opening/closing 2, therefore applicant repeats no more.

Please continue to refer to Fig. 1 to Fig. 3, provided a saggar Tilting mechanism 4, this saggar Tilting mechanism 4 is positioned at aforesaid batch turning mechanism working chamber 122, and in the position in the chamber 123 of stepping down corresponding to aforesaid rotating disk, is bearing in rotationally on the left tank wall and right tank wall of casing 1.

Aforesaid saggar Tilting mechanism 4 preferably but not the structure being definitely limited to is as follows: comprise a pair of opposite each other and be discoidal rotary disk 41, rotary disk main shaft 42 and one group of electromotive roller 43, a pair of rotary disk 41 is positioned at described separate space plate 12 towards a side of aforementioned saggar releasing mechanism working chamber 121 and corresponding with the aforesaid rotating disk chamber 23 of stepping down, between this pair of rotary disk 41, by a pair of rotary disk fixed bar 411, be fixedly connected with, the middle part of rotary disk main shaft 42 and the middle position of a pair of rotary disk are fixed, and the left end of rotary disk main shaft 42 (state shown in Fig. 1 and Fig. 2 is example) is being bearing in rotationally by spindle bearing holder 421 on the left tank wall of described casing 1 after described saggar releasing mechanism working chamber 121, and the right-hand member of rotary disk main shaft 42 (take state shown in Fig. 1 and Fig. 2 as example) is stretched in saggar releasing mechanism working chamber 121, and be in transmission connection by main shaft adapter sleeve 422 and the batch turning mechanism drive motors 5 with rotating function, the quantity of one group of electromotive roller 43 is four in the present embodiment, with interval state pivotable, be arranged between a pair of rotary disk 41, and this group of electromotive roller 43 is positioned in same level, by this group of electromotive roller 43, the saggar in aforementioned saggar inlet port 15 enters into batch turning mechanism working chamber 122 is drawn towards the capable outlet 16 of described saggar after falling to remove electronic powder material.As aforementioned, because the quantity of one group of electromotive roller 43 is four, therefore take rotary disk main shaft 42 as boundary, each the distribution two in the both sides of rotary disk main shaft 42, but the quantity of one group of electromotive roller 43 is not subject to illustrating restricted number, for example, can increase and decrease as required and rationally.

Above mentioned batch turning mechanism drive motors 5 has been arranged on the right tank wall of casing 1 in the present embodiment, but is also transferred on the left tank wall of casing 1, that is to say and batch turning mechanism drive motors 5 and the position of spindle bearing holder 421 can be exchanged.

Having provided a pair of saggar folds up mechanism 6 and a pair of saggar releasing mechanism 7 and a pair of saggar and folds up mechanism's brake function cylinder 8, shown in figure, a pair of saggar folds up one of them saggar in mechanism 6 and folds up mechanism and be arranged on one of them rotary disk in aforementioned a pair of rotary disk 41, and a pair of saggar folds up another saggar in mechanism 6, folds up mechanism and is arranged on another rotary disk in a pair of rotary disk 41.A pair of saggar releasing mechanism 7 is connected with a pair of rotary disk 41 respectively, and a pair of saggar folds up on the left tank wall and right tank wall that mechanism's brake function cylinder 8 is separately positioned on casing 1, and folds up mechanism 6 with corresponding saggar separately and connect.

Above mentioned a pair of saggar folds up mechanism 6 and respectively comprises rotation exoneration connector 61, first, the second pull bar sliding sleeve 62, 63, first, the second pull bar 64, 65, first, the second holddown spring 66, 67 and saggar clamping plate 68, rotation exoneration connector 61 is positioned at the side of aforementioned rotary disk 41 towards aforementioned saggar releasing mechanism working chamber 121, and folding up mechanism's brake function cylinder 8 with aforementioned saggar is connected, the first pull bar sliding sleeve 62 and the second pull bar sliding sleeve 63 are fixed on the side of rotary disk 41 towards saggar releasing mechanism working chamber 121, the first pull bar 64 forms and has one first spring base 641 towards one end of saggar clamping plate 68, this first spring base 641 is fixed by one group of the 5th hold-down screw 6411 and one end of saggar clamping plate 68, the first pull bar 64 is connected with one end of rotation exoneration connector 61 after through the first pull bar sliding sleeve 62 towards one end of rotary disk 41, the second pull bar 65 forms and has one second spring base 651 towards one end of saggar clamping plate 68, this second spring base 651 is fixed by one group of the 6th hold-down screw 6511 and the other end of saggar clamping plate 68, the second pull bar 65 is connected with the other end of rotation exoneration connector 61 after through the second sliding sleeve 63 towards one end of rotary disk 41, the tight spring 66 of the first pressure is nested with on the first pull bar 64, one end of this first holddown spring 66 is bearing on the first spring base 641, and being bearing in rotary disk 41, the other end back to described saggar, folds up a side of mechanism's working chamber 121, the tight spring 67 of the second pressure is nested with on the second pull bar 65, one end of this second holddown spring 67 is bearing on the second spring base 651, and being bearing in rotary disk 41 equally, the other end back to saggar, folds up a side of mechanism's working chamber 121, on the top of saggar clamping plate 68, be fixed with a saggar upper edge press strip 681.Because the shape of saggar upper edge press strip 681 takes the shape of the letter U, thereby can push down three of the upper edge of saggar 10 surface simultaneously.

Aforesaid saggar folds up mechanism's brake function cylinder 8 for cylinder, but as aforementioned inlet port is opened and closed the description of acting cylinder 21 and changed into oil cylinder, should be considered as equivalence and substitute.By Fig. 1 and Fig. 2, shown, the saggar that saggar folds up mechanism's brake function cylinder 8 folds up mechanism's brake function cylinder post 81 and is stretched over aforementioned saggar and folds up in mechanism's working chamber 121, and the end formation that folds up mechanism's brake function cylinder post 81 at this saggar has a cylinder column cap 811, on aforesaid rotation exoneration connector 61, form and have a cylinder column cap chamber 611 and cylinder post groove 612, cylinder column cap chamber 611 communicates with cylinder column cap groove 612, aforesaid saggar folds up mechanism's brake function cylinder post 81 and is slidably matched with cylinder post groove 612, and aforesaid cylinder column cap 811 is positioned at described cylinder column cap chamber 611.

Please continue to refer to Fig. 1 and in conjunction with Fig. 2, when the saggar that folds up mechanism's brake function cylinder 8 when saggar folds up the state of mechanism's brake function cylinder post 81 in stretching out outside cylinder body, during the state that is cylinder post connector 811 in rotation exoneration connector 61 not being drawn towards the direction that deviates from rotary disk 41, under the active force of the first holddown spring 66 and the second holddown spring 67, respectively the first spring base 641 and the second spring base 651 are acted on, make saggar clamping plate 68 towards deviating from the direction displacement that adds rotating disk 41, thereby press the side (Fig. 2 shows) by saggar clamping plate 68 to saggar 10, simultaneously spacing to the upper edge of saggar 10 by saggar upper edge press strip 681, so fold up at a pair of saggar under the synergy of mechanism 6 marching to a left side for one group of saggar 10 on electromotive roller 43, right alms bowl wall is clamped.Otherwise when rotation exoneration connector 61 being pulled towards the direction that deviates from rotary disk 41 by cylinder column cap 811, first, second holddown spring 66,67 compresses and energy storage, saggar pressure strip 68 discharges saggar 10.

Above mentioned a pair of saggar releasing mechanism 7 respectively comprises clearance acting cylinder 71, arm shaft 72, saggar clearance lifter plate 73, arm shaft revolution release link 74, push rod 75 and spring 76, clearance acting cylinder 71 is arranged in described saggar releasing mechanism working chamber 121, and be positioned at the bottom of one end (when the front machine of casing 1) of the length direction of saggar releasing mechanism working chamber 121, arm shaft 72 is arranged between described a pair of rotary disk 41, and corresponding to the side-lower of the electromotive roller towards saggar inlet port 15 in aforesaid one group of electromotive roller 43, in the middle position of the length direction of this arm shaft 72, be fixed with a saggar clearance lifter plate holder 721, and the end, two ends of arm shaft 72 is respectively insinuated in aforementioned saggar releasing mechanism working chamber 121 through rotary disk 41, and be fixed with a swing arm seat 722, on swing arm seat 722 and towards the direction of clearance acting cylinder 71, be extended with a swing arm 7221, swing arm 7221 is corresponding with the top of the clearance acting cylinder post 711 of clearance acting cylinder 71, one end of saggar clearance lifter plate 73 is fixing with aforementioned saggar clearance lifter plate holder 721 by one group of the 7th hold-down screw 732, and the other end of saggar clearance lifter plate 73 is corresponding with an electromotive roller towards aforementioned saggar outlet 16 in described one group of electromotive roller 43 and form and have a position-limited claw 731, when this position-limited claw 731 leans out the upper surface of electromotive roller 43, saggar 10 stays on electromotive roller 43, and when position-limited claw 731 drops to below the upper surface of electromotive roller 43, stay in saggar 10 on electromotive roller 43 and go out aforementioned batch turning mechanism working chamber 122 to the direction row of the capable outlet 16 of described saggar, one end and the described swing arm seat 722 of arm shaft revolution release link 74 are fixing, one end of pull bar 75 is connected with the other end of arm shaft revolution release link 74, and the other end of pull bar 75 is fixed on draw-bar seat 751, spring 76 is nested with on pull bar 75, one end of this spring 76 is bearing in described arm shaft revolution release link 74, and the other end of spring 76 is bearing on draw-bar seat 751.

Aforesaid clearance acting cylinder 71 is selected with cylinder in the utility model, specifically as the description that inlet port is opened and closed to acting cylinder 21.

Applicant describes the course of work of the present utility model in conjunction with Fig. 1 to Fig. 3, by saggar conveying roller 92, the saggar 10 that comes from electronic kiln is carried towards the direction of casing 1, and before arriving at casing 1, at the broken station of solution, by separating crushing device, the electronic powder material burning till in saggar 10 is separated broken before this.The inlet port open-close sluice gate 23 of saggar inlet port mechanism for opening/closing 2 is now in the opening to saggar inlet port 15, and the row outlet open-close sluice gate 33 of the capable outlet of saggar mechanism for opening/closing 3 is in (sealing) state of closing to the capable outlet 16 of saggar, and a pair of saggar folds up the state that a pair of saggar clamping plate 68 of mechanism 7 is opened in phase mutual exclusion.Simultaneously, the acting cylinder post 711 that folds up of the clearance acting cylinder 71 of a pair of saggar releasing mechanism 7 does not act on swing arm 7221, so under self restoring force effect of the spring 76 of saggar releasing mechanism 7, on the other end (being connected with one end of push rod 75) of promotion arm shaft revolution release link 74, lift, in this process, make the other end of arm shaft revolution release link 74 to counter clockwise direction, rotate an angle with one end that swing arm seat 722 fixes, by swing arm seat 722, drive arm shaft 72 to rotate an angle to counter clockwise direction, because the saggar clearance lifter plate holder 721 on one end and the arm shaft 72 of saggar clearance lifter plate 73 is fixing, thereby when arm shaft 72 is when rotating counterclockwise an angle, the position-limited claw 731 of the other end of saggar clearance lifter plate 73 is to top offset, lean out the surface of one group of electromotive roller 43, be the state shown in Fig. 1 and Fig. 3.Just at this moment saggar 10 from saggar inlet port 15 transition roller 124 through transition roller 124(saggar inlet port 15 places) enter on one group of in running order electromotive roller 43, because position-limited claw 731 is in upwarping state, in exceeding the state of upper surface of electromotive roller 43, therefore saggar 10 suffers stopping of position-limited claw 731 and cannot move to the direction row of the capable outlet 16 of saggar, rests on one group of electromotive roller 43.Then, inlet port open-close sluice gate 23 is descending, saggar inlet port 15 is sealed, by applicant, saggar is folded up the description of mechanism 6 in the above simultaneously, a pair of saggar clamping plate 68 that a pair of saggar folds up mechanism 6 is clamped the both sides of saggar 10 as the left side of Fig. 2 signal and the alms bowl wall on right side, and by saggar upper edge press strip 681, the upper edge of saggar 10 is limited simultaneously.And then, batch turning mechanism drive motors 5 is worked clockwise, drive rotary disk main shaft 42 Rotate 180s ° of saggar Tilting mechanism 4, because rotary disk main shaft 42 is fixing with a pair of rotary disk 41, therefore by rotary disk main shaft 42, drive a pair of rotary disk 41 to turning clockwise 180 °, until make swing arm 7221 let pass acting cylinder 71 clearance acting cylinder post 711 obstruction and rotary disk 41 is no longer rotated, the alms bowl mouth of saggar 10 now just towards under, make the electronic powder material in the alms bowl chamber of saggar 10 pour discharge bucket 14 into.Then batch turning mechanism drive motors 5 reverse operations, make rotary disk main shaft 42 turn round 180 ° to counter clockwise direction, and a pair of rotary disk 41 is reset to state shown in Fig. 1 and Fig. 2, namely makes the alms bowl mouth of empty saggar 10 towards upper.Now the clearance acting cylinder 71 of a pair of saggar releasing mechanism 7 is worked, clearance acting cylinder post 711 stretches outside cylinder body, promote swing arm 7221, make swing arm seat 722 towards rotating an angle with the rightabout of previous rotation, turn over clockwise an angle, by it, drive arm shaft 72 to rotate an angle to clockwise direction, make the position-limited claw 731 of saggar clearance lifter plate 73 descending, leave stopping or claiming spacing saggar 10.By the superincumbent description of applicant, the saggar clamping plate 68 that a pair of saggar folds up mechanism 6 leaves saggar 10, saggar 10 is discharged simultaneously.Also simultaneously, the row outlet open-close sluice gate 33 of the capable outlet of saggar mechanism for opening/closing 3 is up and inlet port open-close sluice gate 23 is also up, empty saggar 10 is in transit through the capable transition roller 124 that exports 16 places of transition roller 124(saggar from one group of electromotive roller 41) from capable 16 row that export of saggar, go out, under the effect of saggar conveying roller 92, by it, towards next station, be aforesaid saggar automated cleaning station, by the saggar automatic cleaning device at this station place, it cleaned.After saggar 10 row go out the capable outlet 16 of saggar, by row, export open-close sluice gate 33 to capable outlet 16 sealings of saggar, work so again and again.

In sum, the technical scheme that the utility model provides has overcome the drawback in prior art, has successfully completed invention task, has embodied all technique effects in the superincumbent technique effect of applicant hurdle.

Claims (10)

1. the saggar automatic material pouring device that a kind of electronic powder manufacture of materials streamline is used, it is characterized in that comprising a casing (1), in the casing chamber of this casing (1) and the left side and the right side that are positioned at casing chamber be respectively provided with a separate space plate (12), space between the separate space plate (12) in this left side and the left tank wall of casing (1) is configured to saggar releasing mechanism working chamber (121), the same saggar releasing mechanism working chamber (121) that is configured in space between the separate space plate (12) on right side and the right tank wall of casing (1), and space between the separate space plate (12) on this left side and right side is configured to batch turning mechanism working chamber (122), and on the separate space plate (12) on and right side upper at the separate space plate (12) in this left side, respectively offer rotating disk that a position the corresponds to each other chamber (123) of stepping down, at the top of casing (1), be fixed with a Box Cover (13), upper and being provided with the material dirt boot (131) for the material dirt resulting from batch turning mechanism working chamber (122) is drawn corresponding to the position of described batch turning mechanism's working chamber (122) at this Box Cover (13), this material dirt boot (131) is connected with negative pressure dust removing device by pipeline under use state, in the bottom of casing (1), be connected with a discharge bucket (14), this discharge bucket (14) communicates with described batch turning mechanism working chamber (122), in the front side of casing (1), form and have a saggar that is loaded with the electronic powder material burning till for confession communicating with described batch turning mechanism's working chamber (122) to enter the saggar inlet port (15) in batch turning mechanism working chamber (122), at the rear side of casing (1), form and have that one is that communicate with batch turning mechanism working chamber (122) equally and position is corresponding with described saggar inlet port (15) for confession except the capable outlet of saggar (16) of saggar Hang Chu batch turning mechanism's working chamber (122) of the electronic powder material that burns till, one for the saggar inlet port mechanism for opening/closing (2) to described saggar inlet port (15) opening and closing of fault, and this saggar inlet port mechanism for opening/closing (2) is arranged on the front side of described Box Cover (13) and matches with saggar inlet port (15), one for the capable outlet of the saggar mechanism for opening/closing (3) to the capable outlet of described saggar (16) opening and closing of fault, and this saggar capable outlet mechanism for opening/closing (3) is arranged on the rear side of described Box Cover (13) and matches with the capable outlet of saggar (16), one is positioned at the saggar Tilting mechanism (4) of described batch turning mechanism's working chamber (122), and this saggar Tilting mechanism (4) is bearing in rotationally in the position in the chamber (123) of stepping down corresponding to described rotating disk on the left tank wall and right tank wall of casing (1), one batch turning disk-drive motor (5), this batch turning disk-drive motor (5) is fixed on the left tank wall or right tank wall of described casing (1), and is connected with described saggar Tilting mechanism (4), a pair of saggar folds up mechanism (6), and this pair of saggar folds up mechanism (6) and is arranged in described saggar Tilting mechanism (4) with the state facing each other, a pair of saggar folds up mechanism's brake function cylinder (8), this a pair of saggar folds up one of them saggar in mechanism's brake function cylinder (8) and folds up on the described left tank wall that mechanism's brake function cylinder is arranged on described casing (1), and in described saggar releasing mechanism working chamber (121), folding up one of them saggar in mechanism (6) with described a pair of saggar folds up mechanism and is connected, and folding up another saggar in mechanism's brake function cylinder (8), a pair of saggar folds up on the described right tank wall that mechanism's brake function cylinder is arranged on casing (1), and in saggar releasing mechanism working chamber (121), folding up another saggar in mechanism (6) with described a pair of saggar equally folds up mechanism and is connected, a pair of for opening or block the saggar releasing mechanism (7) of the passage between the capable outlet of described saggar Tilting mechanism (4) and described saggar (16), this a pair of saggar releasing mechanism (7) is separately positioned in described saggar releasing mechanism working chamber (121) and is connected with described saggar Tilting mechanism (4), wherein: it is upper that described casing (1) is fixed on box housing supporting bracket (17), and box housing supporting bracket (17) matches with the saggar conveying mechanism (9) of electronic powder manufacture of materials streamline under use state.

2. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 1 is used, it is characterized in that described saggar inlet port mechanism for opening/closing (2) comprises that inlet port opens and closes acting cylinder holder (21), inlet port opens and closes acting cylinder (22) and inlet port open-close sluice gate (23), inlet port keying acting cylinder holder (21) is fixed on the front side of described Box Cover (13), it is cylinder that inlet port opens and closes acting cylinder (22), being fixed on inlet port opens and closes on acting cylinder holder (21), and the inlet port that this inlet port opens and closes acting cylinder (22) open and close acting cylinder post (221) towards under, inlet port open-close sluice gate (23) coordinates with described saggar inlet port (15) plug, in the top bending of this inlet port open-close sluice gate (23), form and have an inlet port open-close sluice gate to connect bent plate (231), it is fixing with described inlet port keying acting cylinder post (221) that this inlet port open-close sluice gate connects bent plate (231), and connect on bent plate (231) and be provided with a pair of guide pillar (2311) at this inlet port open-close sluice gate, this a pair of guide pillar (2311) is slidably matched with the cylinder body that inlet port opens and closes acting cylinder (22).

3. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 1 is used, it is characterized in that the described capable outlet of saggar mechanism for opening/closing (3) comprises that row outlet opens and closes acting cylinder holder (31), row outlet opens and closes acting cylinder (32) and row outlet open-close sluice gate (33), row outlet keying acting cylinder holder (31) is fixed on the rear side of described Box Cover (13), it is cylinder that row outlet opens and closes acting cylinder (32), the outlet of being fixedly expert at opens and closes on acting cylinder holder (31), and the row outlet that the outlet of this row opens and closes acting cylinder (32) open and close acting cylinder post (321) towards under, row outlet open-close sluice gate (33) coordinates with described saggar outlet (16) plug, in the top bending of this row outlet open-close sluice gate (33), form and have a line outlet open-close sluice gate to connect bent plate (331), it is fixing with described row outlet keying acting cylinder post (321) that this row outlet open-close sluice gate connects bent plate (331), and connect on bent plate (331) and be provided with a pair of lead (3311) at this row outlet open-close sluice gate, this a pair of lead (3311) is slidably matched with the cylinder body that row outlet opens and closes acting cylinder (32).

4. the saggar automatic material pouring device of using according to the electronic powder manufacture of materials streamline described in claim 1 or 2 or 3, it is characterized in that on described Box Cover (13), being provided with upper access hole (132), on upper access hole (132), be provided with upper access hole cover plate (1321).

5. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 1 is used, it is characterized in that respectively offering access hole (11) on the left tank wall of described casing (1) and right tank wall, lower access hole (11) communicates with described saggar releasing mechanism working chamber (121), and is equipped with lower access hole cover plate (111) on lower access hole (11).

6. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 1 is used, it is characterized in that described saggar Tilting mechanism (4) comprises a pair of rotary disk opposite each other (41), rotary disk main shaft (42) and one group of electromotive roller (43), a pair of rotary disk (41) is positioned at described separate space plate (12) towards a side of described saggar releasing mechanism working chamber (121) and corresponding with the described rotating disk chamber (23) of stepping down, between this pair of rotary disk (41), by a pair of rotary disk fixed bar (411), be fixedly connected with, the middle part of rotary disk main shaft (42) and the middle position of a pair of rotary disk are fixed, the left end of rotary disk main shaft (42) is being bearing in rotationally on the left tank wall of described casing (1) by spindle bearing holder (421) after described saggar releasing mechanism working chamber (121), and the right-hand member of rotary disk main shaft (42) is stretched in saggar releasing mechanism working chamber (121), and be in transmission connection by main shaft adapter sleeve (422) and described batch turning mechanism's drive motors (5), one group of electromotive roller (43) is arranged between a pair of rotary disk (41) with interval state pivotable, and this one group of electromotive roller (43) is positioned in same level, by this one group of electromotive roller (43), the saggar in described saggar inlet port (15) enters into batch turning mechanism working chamber (122) is drawn towards the capable outlet of described saggar (16) after falling to remove electronic powder material, described a pair of saggar folds up mechanism (6) and is separately positioned on a pair of rotary disk (41), and in described saggar folds up mechanism's working chamber (121), folding up mechanism's brake function cylinder (8) with described saggar is connected, described a pair of saggar releasing mechanism (7) is connected with described a pair of rotary disk (41) respectively.

7. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 6 is used, it is characterized in that described a pair of saggar folds up mechanism (6) and respectively comprises rotation exoneration connector (61), first, the second pull bar sliding sleeve (62, 63), first, the second pull bar (64, 65), first, the second holddown spring (66, 67) and saggar clamping plate (68), rotation exoneration connector (61) is positioned at the side of described rotary disk (41) towards described saggar releasing mechanism working chamber (121), and folding up mechanism's brake function cylinder (8) with described saggar is connected, the first pull bar sliding sleeve (62) and the second pull bar sliding sleeve (63) are fixed on the side of rotary disk (41) towards saggar releasing mechanism working chamber (121), the first pull bar (64) forms and has one first spring base (641) towards one end of saggar clamping plate (68), this first spring base (641) is fixed with one end of saggar clamping plate (68), the first pull bar (64) is being connected with one end of rotation exoneration connector (61) through the first pull bar sliding sleeve (62) is rear towards one end of rotary disk (41), the second pull bar (65) forms and has one second spring base (651) towards one end of saggar clamping plate (68), this second spring base (651) is fixed with the other end of saggar clamping plate (68), the second pull bar (65) is being connected with the other end of rotation exoneration connector (61) through the second sliding sleeve (63) is rear towards one end of rotary disk (41), the first holddown spring (66) is nested with on the first pull bar (64), one end of this first holddown spring (66) is bearing on the first spring base (641), and being bearing in rotary disk (41), the other end back to described saggar, folds up a side of mechanism's working chamber (121), the second holddown spring (67) is nested with on the second pull bar (65), one end of this second holddown spring (67) is bearing on the second spring base (651), and being bearing in rotary disk (41) equally, the other end back to saggar, folds up a side of mechanism's working chamber (121), on the top of saggar clamping plate (68), be fixed with a saggar upper edge press strip (681).

8. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 7 is used, it is characterized in that it is cylinder that described saggar folds up mechanism's brake function cylinder (8), the saggar that this saggar folds up mechanism's brake function cylinder (8) folds up mechanism's brake function cylinder post (81) and is stretched over described saggar and folds up in mechanism's working chamber (121), and the end formation that folds up mechanism's brake function cylinder post (81) at this saggar has a cylinder column cap (811), in the upper formation of described rotation exoneration connector (61), there are a cylinder column cap chamber (611) and cylinder post groove (612), cylinder column cap chamber (611) communicates with cylinder column cap groove (612), described saggar folds up mechanism's brake function cylinder post (81) and is slidably matched with cylinder post groove (612), and described cylinder column cap (811) is positioned at described cylinder column cap chamber (611).

9. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 6 is used, it is characterized in that described a pair of saggar releasing mechanism (7) respectively comprises clearance acting cylinder (71), arm shaft (72), saggar clearance lifter plate (73), arm shaft revolution release link (74), push rod (75) and spring (76), clearance acting cylinder (71) is arranged in described saggar releasing mechanism working chamber (121), and be positioned at the bottom of one end of the length direction of saggar releasing mechanism working chamber (121), arm shaft (72) is arranged between described a pair of rotary disk (41), and corresponding to the side-lower of the electromotive roller towards described saggar inlet port (15) in described one group of electromotive roller (43), in the middle position of the length direction of this arm shaft (72), be fixed with a saggar clearance lifter plate holder (721), and the end, two ends of arm shaft (72) is respectively insinuated in described saggar releasing mechanism working chamber (121) through rotary disk (41), and be fixed with a swing arm seat (722), on swing arm seat (722), be extended with a swing arm (7221), swing arm (7221) is corresponding with the clearance acting cylinder post (711) of clearance acting cylinder (71), one end of saggar clearance lifter plate (73) and described saggar clearance lifter plate holder (721) are fixing, and the other end of saggar clearance lifter plate (73) is corresponding with an electromotive roller towards described saggar outlet (16) in described one group of electromotive roller (43) and form and have a position-limited claw (731), when this position-limited claw (731) leans out the upper surface of electromotive roller (43), saggar stays on electromotive roller (43), and when position-limited claw (731) drops to the upper surface lower than electromotive roller (43), the saggar staying on electromotive roller (43) goes out described batch turning mechanism's working chamber (122) to the direction row of the capable outlet of described saggar (16), one end of arm shaft revolution release link (74) and described swing arm seat (722) are fixing, one end of pull bar (75) is connected with the other end of arm shaft revolution release link (74), and the other end of pull bar (75) is fixed on draw-bar seat (751), spring (76) is nested with on pull bar (75), one end of this spring (76) is bearing in described arm shaft revolution release link (74), and the other end of spring (76) is bearing on draw-bar seat (751).

10. the saggar automatic material pouring device that electronic powder manufacture of materials streamline according to claim 9 is used, is characterized in that described clearance acting cylinder (71) is cylinder.

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