CN217494672U - Ceramic slip casting production line - Google Patents

Abstract

The utility model discloses a pottery slip casting production line, including conveying mechanism, install lift tilting mechanism and the lift turn-over mechanism at the conveying mechanism both ends, lift turn-over mechanism one side is equipped with the lift that is used for getting the embryo and gets embryo mechanism of falling the thick liquid, and wherein conveying mechanism includes upper conveyor and lower floor's conveyor, and lift tilting mechanism includes turning device, is used for drive turning device gliding elevating gear from top to bottom, installs the mud device that connects in the lift frame, the utility model discloses an upper conveyor, lower floor's conveyor, elevating gear, turn-over device, turning device and connect the inseparable cooperation between the mud device, form an automatic production ceramic's production line, replace current multichannel process to accomplish by artifical supplementary, reduce artifical intensity of labour and reduce the cost of labor to effectively improve production efficiency.

Description

Ceramic slip casting production line

Technical Field

The utility model relates to a ceramic forming equipment technical field, concretely relates to pottery slip casting production line.

Background

The slip casting is a method for casting the mud into the plaster mould to make it into the product, the products with complicated shapes such as vase, product pot, teapot, sugar pot, milk level, and love are formed by multi-purpose slip casting, the slip casting method is simple, the mud made from blank is poured into the plaster mould, because the plaster chess has water absorption, the water content of the part of mud near the inner wall of the mould is sucked by porous gypsum to form a mud layer with the same shape as the inner wall of the mould, the mud layer is thickened along with the increase of time, after a while, the surplus mud layer in the casting is poured, and the mud layer near the inner wall of the plaster mould is left in the mould, and after a while, the mud layer naturally shrinks and is separated from the mould, thus the formed rough blank can be taken out.

At present, most manufacturers independently complete each process when producing ceramic by slip casting, do not form a complete production matching chain, and need a large amount of manual auxiliary operation. In actual production, the post skill requirement of operators is high, the labor intensity is high, and the efficiency is low. Particularly, the floor space on site is large, the production layout is unreasonable, the operating environment is bad and the like; the above various practical factors and conditions are the problems which are needed to be solved urgently at present.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned weak point that exists among the prior art, the utility model aims to provide an automatic degree is high, can produce that the product quality is good, production is comparatively clean and the high ceramic slip casting production line of production efficiency.

The utility model discloses a following technical scheme realizes: ceramic slip casting production line, including conveying mechanism, install lift tilting mechanism and the lift turn-over mechanism at the conveying mechanism both ends, lift turn-over mechanism one side is equipped with the lift that is used for getting the embryo and gets embryo pouring machine and construct, and wherein conveying mechanism includes upper conveyor and lower floor's conveyor, and lift tilting mechanism includes turning device, is used for driving turning device gliding elevating gear from top to bottom, installs the mud device that connects in the lift frame.

Preferably, upper conveyor is including carrying the frame, setting in the upper backup pad of carrying the frame both sides, and both ends all are equipped with rotatable upper conveyer belt roller between the upper backup pad of both sides, are connected with the upper conveyer belt between two upper conveyer belt rollers, and one of them upper conveyer belt roller one end is linked with upper conveyer belt reducer output transmission, upper conveyer belt reducer input and motor output end transmission.

Preferably, upper conveyor still includes the first tension adjustment subassembly that is used for adjusting the upper conveyer belt elasticity between two upper conveyer belt roller, and first tension adjustment subassembly is installed respectively in the upper backup pad of both sides.

Preferably, first tensioning adjustment subassembly is including installing the first adjustment mount pad in the upper backup pad, installing first fixed frame on first adjustment mount pad, can be on first fixed frame the first adjusting plate of horizontal slip, be equipped with on the first fixed frame and be used for adjusting first adjusting plate horizontal slip's on first fixed frame first adjusting screw, the both ends of upper conveyer belt roller are passed through the bearing and are installed on first adjusting plate to realize the upper conveyer belt elasticity between two upper conveying belt rollers and adjust.

Preferably, be equipped with mutual first spout and first slide rail between first adjusting plate and the first fixed frame, be equipped with first bolt hole on the first fixed frame, first adjusting screw passes first bolt hole and can dismantle with first adjusting plate and be connected.

Preferably, lower floor's conveyor includes the horizontal transport section and connects the slope transport section at horizontal transport section both ends, horizontal transport section and slope transport section are all including setting up the lower floor's backup pad in carrying the frame both sides, the lower floor's backup pad of each side passes through multisection channel-section steel and connects the constitution, both ends all are equipped with rotatable lower floor's conveyer belt roller between the lower floor's backup pad of both sides, at least, be connected with two lower floor's conveyer belts that are both sides and arrange between two lower floor's conveyer belt rollers, be equipped with drainage through-hole between two lower floor's conveyer belts, wherein lower floor's conveyer belt roller one end and lower floor's conveyer belt reducer output end transmission hookup, lower floor's conveyer belt reducer input and motor output end transmission hookup.

Preferably, lower floor's conveyor is still including being used for adjusting the second tensioning adjustment subassembly of lower floor's conveyer belt elasticity between two lower floor's conveyer belt roller, and second tensioning adjustment subassembly is installed respectively in the lower floor's backup pad of both sides.

Preferably, second tensioning adjustment subassembly is including installing the second adjustment mount pad in the backup pad of lower floor, installing the fixed frame of second in the second adjustment mount pad, can be on the fixed frame horizontal slip second adjusting plate of second, be equipped with on the fixed frame of second and be used for adjusting the second adjusting plate horizontal slip second adjusting screw on the fixed frame of second, the both ends of lower floor's conveyer belt roller are passed through the bearing and are installed on the second adjusting plate to realize the lower floor's conveyer belt elasticity regulation between two lower floor's conveyer belt rollers.

Preferably, be equipped with mutual second spout and second slide rail between the fixed frame of second adjusting plate and second, be equipped with the second bolt hole on the fixed frame of second, second adjusting screw passes the second bolt hole and can dismantle with the second adjusting plate and be connected.

Preferably, still set up the shrouding between upper backup pad and the lower floor's backup pad, the shrouding encloses into the drying chamber with the both sides between upper backup pad and the lower floor's backup pad be equipped with drying device in the drying chamber, drying device includes heating pipe and fan, and the heating pipe is installed at upper backup pad lower extreme.

Preferably, the lifting turnover mechanism of the utility model comprises a lifting frame, a turnover device driven by a lifting device to lift up and down is arranged on the lifting frame, and a slurry receiving device is also arranged on the lifting frame;

preferably, turning device includes the roll-over stand, is used for driving the rotatory upset speed reducer of roll-over stand, and the roll-over stand both ends are equipped with and to wind a bearing frame pivoted first transmission shaft, and the bearing frame at both ends passes through the bolt fastening on rack erection seat, and roll-over stand bottom below still is equipped with rotatable upset roller, is equipped with a first centre gripping subassembly that is used for the centre gripping mould on the roll-over stand at least.

Preferably, the roll-over stand includes the both sides board, be connected with connecting plate and first bottom plate between the board of both sides, first transmission shaft one end is installed on the curb plate, the first transmission shaft other end passes through bearing and a bearing frame cooperation installation, and one of them first transmission shaft pass behind the bearing frame with the hookup of upset speed reducer output, the bearing frame is fixed on the rack-mount seat by the bolt again, first centre gripping unit mount is on the connecting plate, the upset roller is installed in first bottom plate below, the roll-over stand bottom is equipped with the roller through-hole that supplies the roll-over roller axle part to pass, the roll-over roller passes the roller through-hole and makes the roll-over roller lateral wall be higher than roll-over stand bottom surface.

Preferably, first centre gripping subassembly is equipped with the upset grip block that is used for pressing from both sides tight mould including installing the first centre gripping cylinder on the connecting plate, the both ends of first centre gripping cylinder.

Preferably, lift turn-over mechanism includes elevator frame, the last turn-over device who goes up and down through the elevating gear drive that is equipped with of elevator frame.

Preferably, turn-over device includes the second transmission shaft and with the turn-over speed reducer of second transmission shaft transmission hookup, the both ends of second transmission shaft are passed through bearing frame two and are fixed on rack-mount pad, and wherein one end is connected with turn-over speed reducer transmission, and second transmission shaft both sides are equipped with the second centre gripping subassembly that is used for the centre gripping mould, and the second centre gripping subassembly of every side has at least one.

Preferably, second centre gripping subassembly include with second transmission shaft fixed connection's cylinder base, be equipped with second centre gripping cylinder on the cylinder base, the both ends of second centre gripping cylinder are equipped with the turn-over grip block that is used for pressing from both sides tight mould, and cylinder base still is equipped with the second bottom plate of connecting through the guide arm, and second centre gripping cylinder is located between second bottom plate and the cylinder base.

Preferably, go up and down to get embryo pouring mechanism and include the elevating system frame, install the unloading adjusting device at the elevating system frame top, be equipped with in the elevating system frame through the elevating system drive oscilaltion send the mould subassembly.

Preferably, unloading adjusting device includes the unloading base, is equipped with the registration arm rather than the vertical connection on the unloading base, is equipped with the horizontal adjustment piece of fixing through the bearing cooperation on the registration arm, be equipped with on the horizontal adjustment piece with registration arm vertically horizontal adjustment pipe, be equipped with on the horizontal adjustment pipe through the fixed vertical adjustment piece of bearing cooperation, be equipped with the vertical adjustment pipe on the vertical adjustment piece, be equipped with the unloading pipe base that is used for fixed mud unloading pipe on the vertical adjustment pipe, the mud unloading pipe is installed on the unloading pipe base.

Preferably, be equipped with horizontal adjustment pipe through-hole on the horizontal adjustment piece, with the opening one of horizontal adjustment pipe through-hole intercommunication, with registration arm complex mounting hole, the registration arm passes the mounting hole and makes the horizontal adjustment piece rotatory around the registration arm axis through the bearing cooperation.

Preferably, the vertical adjusting block is equipped with unloading pipe through-hole, vertical adjusting pipe through-hole and with the opening two of vertical adjusting pipe through-hole intercommunication, the mud unloading pipe passes the unloading pipe through-hole and is connected with unloading pipe base, and horizontal adjusting pipe one end is passed vertical adjusting pipe through-hole and is connected with horizontal adjusting pipe through-hole, and is fixed through the bearing cooperation between horizontal adjusting pipe and the vertical adjusting pipe through-hole, makes vertical adjusting block rotatory around horizontal adjusting pipe axis.

Preferably, send the mould subassembly including installing the supporting seat on the rack-mount pad, drive leading many cylinders of conveyer belt transmission, each cylinder rotationally connects between the supporting seat of both sides, the one end of one of them cylinder with send mould subassembly motor drive hookup.

Preferably, the positioning pipe and the horizontal adjusting pipe are provided with hand wheels.

Preferably, the utility model discloses what connect mud device includes the supporting beam of both sides, is equipped with linear guide on every supporting beam, is equipped with on one of them supporting beam and connects the mud cylinder, be equipped with on the linear guide rather than the gliding slider of cooperation, be equipped with on the slider and connect the sliding plate of the fixed mounting of piston rod end of mud cylinder, install between the sliding plate of both sides and connect the mud dish, connect to be equipped with the relief hole on the mud dish, the relief hole setting is connecing the lower of mud dish bottom surface, connect the mud dish bottom surface by middle part arch to slope setting all around.

Preferably, a supporting beam one end is equipped with a supporting beam mounting panel, connect the mud device to fix on the elevator frame through a supporting beam mounting panel.

Preferably, elevating gear includes elevator frame, and the elevator frame both sides all are equipped with synchronous pulley and lower synchronous pulley, go up and link to each other through synchronous belt drive between synchronous pulley and the lower synchronous pulley to by the hookup of dual output shaft speed reducer transmission, all be equipped with the hold-in range clamp plate on the synchronous belt of both sides, rack-mount pad and hold-in range clamp plate fixed connection, the elevator frame both sides still are equipped with the guide post, and on the guide post was located through linear bearing cover to the rack-mount pad, the guide post both ends all were equipped with the guide post fixed with the elevator frame.

Preferably, elevating gear is still including being equipped with the hold-in range adjusting device who is used for adjusting the hold-in range elasticity, hold-in range adjusting device is equipped with through gliding hold-in range axle bed about the bolt adjustment including installing the grudging post in synchronous pulley support both sides on every grudging post, is equipped with the hold-in range shaft between the hold-in range axle bed of both sides, and lower synchronous pulley is installed at the epaxial synchronous pulley.

Preferably, be equipped with mutual third spout and third slide rail between grudging post and the hold-in range wheel axle bed, be equipped with the third bolt hole on the grudging post, the bolt passes the third bolt hole and can dismantle with the hold-in range wheel axle bed and be connected fixedly.

Preferably, go up synchronous pulley and fix at the top of lifting frame through last synchronous pulley bearing frame, lower synchronous pulley is fixed in the bottom of lifting frame through lower synchronous pulley bearing frame, and synchronous pulley or lower synchronous pulley are gone up in the drive of third transmission shaft in the both ends of dual output shaft speed reducer.

Preferably, the dual output shaft speed reducer is fixed on the dual output shaft speed reducer mounting panel, the dual output shaft speed reducer mounting panel is fixed at the lifting frame top.

Preferably, the frame mount pads are connected through the cross beam.

Compared with the prior art, the utility model, following advantage and beneficial effect have: the utility model discloses an upper conveyor, lower floor's conveyor, elevating gear, turn-over device, turning device and connect the inseparable cooperation between the mud device, form an automatic production ceramic's production line, replace current multichannel process to be accomplished by artifical supplementary, reduce artifical intensity of labour and reduce the cost of labor to effectively improve production efficiency.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is a schematic structural view of the upper layer conveying device of the present invention;

fig. 4 is a schematic front view of the lower layer conveying device of the present invention;

FIG. 5 is a schematic top view of the structure of FIG. 4;

FIG. 6 is a schematic view of the lower layer conveying device according to the present invention;

FIG. 7 is an enlarged view of A of FIG. 3;

FIG. 8 is an enlarged view of B of FIG. 6;

fig. 9 is a schematic structural view of the lifting and turning mechanism of the present invention;

FIG. 10 is a schematic perspective view of FIG. 9;

fig. 11 is a schematic front view of the turning device of the present invention;

FIG. 12 is a schematic perspective view of FIG. 11;

fig. 13 is a schematic front view of the slurry receiving device of the present invention;

FIG. 14 is a schematic perspective view of FIG. 13;

fig. 15 is a schematic front view of the lifting turn-over mechanism of the present invention;

FIG. 16 is a schematic perspective view of FIG. 15;

fig. 17 is a schematic front view of the turn-over device of the present invention;

FIG. 18 is a schematic perspective view of FIG. 17;

fig. 19 is a schematic view of a partial structure of the turn-over device of the present invention;

FIG. 20 is a schematic view of the elevation structure of the lifting embryo-taking and pulp-pouring mechanism of the present invention;

FIG. 21 is a schematic perspective view of FIG. 20;

fig. 22 is a schematic structural view of the blanking adjusting device of the present invention;

fig. 23 is a schematic front view of the die feeding assembly of the present invention;

FIG. 24 is a schematic perspective view of FIG. 23;

fig. 25 is a schematic structural view of the lifting device of the present invention;

fig. 26 is a schematic structural view of the synchronous belt adjusting device of the present invention;

wherein:

1-conveying mechanism, 10-mould

2-upper conveyer device, 20-conveyer frame, 21-upper supporting plate, 22-upper conveyer belt roller shaft, 23-upper conveyer belt, 25-first tensioning adjusting component, 251-first fixing frame, 252-first adjusting plate, 253-first adjusting screw, 254-first sliding groove, 255-first sliding rail, 256-first bolt hole

3-lower floor conveyor, 30-horizontal transport section, 31-slope transport section, 32-lower floor's backup pad, 33-lower floor's conveyer belt roller, 34-lower floor's conveyer belt, 35-drainage through hole, 36-lower floor's conveyer belt speed reducer, 37-second tensioning adjustment subassembly, 38-shrouding, 370-second adjustment mount pad, 371-second fixed frame, 372-second adjustment board, 373-second adjusting screw, 374-second spout, 375-second slide rail, 376-second bolt hole

4-lifting turnover mechanism

5-turnover device, 50-turnover frame, 51-turnover speed reducer, 52-bearing seat I, 53-first transmission shaft, 54-turnover roller shaft, 55-first clamping component, 56-cross beam, 500-two side plates, 501-connecting plate, 502-first bottom plate, 503-roller shaft through hole, 550-first clamping cylinder, 551-turnover clamping plate

6-lifting device, 60-lifting frame, 61-upper synchronous pulley, 62-lower synchronous pulley, 63-synchronous belt, 64-third transmission shaft, 65-double output shaft reducer, 66-synchronous belt pressing plate, 67-frame mounting seat, 68-guide column, 69-linear bearing, 600-guide column, 601-guide seat, 602-synchronous pulley bearing seat, 603-synchronous belt adjusting device, 604-synchronous pulley support seat, 605-bolt, 606-synchronous pulley shaft seat, 607-synchronous pulley shaft seat, 608-third chute, 609-third slide rail, 610-third bolt hole, 611-vertical frame

7-slurry receiving device, 70-supporting beam, 71-linear guide rail, 72-sliding block, 73-sliding plate, 74-slurry receiving disc, 75-discharge hole, 76-supporting beam mounting plate and 77-slurry receiving cylinder

8-lifting turn-over mechanism, 80-turn-over device, 81-second transmission shaft, 82-turn-over speed reducer, 83-bearing seat II, 84-, 830-cylinder base, 831-second clamping cylinder, 832-turn-over clamping plate, 833-guide rod, 834-second bottom plate

9-lifting embryo taking and pouring mechanism, 90-blanking adjusting device, 92-die feeding assembly, 93-hand wheel, 900-blanking base, 901-positioning pipe, 902-horizontal adjusting block, 903-horizontal adjusting pipe, 904-vertical adjusting block, 905-vertical adjusting pipe, 906-mud blanking pipe, 907-blanking pipe base, 908-horizontal adjusting pipe through hole, 909-first opening, 910-mounting hole, 911-blanking pipe through hole, 912-second opening, 913-vertical adjusting pipe through hole, 920-supporting base, preposed delivery 921-belt conveying, 922-roller and 923-die feeding assembly motor.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The ceramic slip casting production line of this embodiment, as shown in fig. 1 to 26, including conveying mechanism 1, install lift tilting mechanism 4 and lift turn-over mechanism 8 at conveying mechanism 1 both ends, lift turn-over mechanism 8 one side is equipped with the lift that is used for getting the embryo and gets embryo pouring mechanism 9, wherein conveying mechanism 1 includes upper conveyor 2 and lower floor's conveyor 3, lift turn-over mechanism 8 includes turn-over device 80, be used for driving 5 gliding elevating gear 6 from top to bottom of turning device, lift tilting mechanism 4 includes turning device 5, be used for driving 5 gliding elevating gear 6 from top to bottom of turning device, install and connect mud device 7 in the elevating rack.

The upper-layer conveying device 2 comprises a conveying rack 20 and upper-layer supporting plates 21 arranged on two sides of the conveying rack 20, rotatable upper-layer conveying belt roll shafts 22 are arranged at two ends between the upper-layer supporting plates 21 on the two sides, an upper-layer conveying belt 23 is connected between the two upper-layer conveying belt roll shafts 22, one end of each upper-layer conveying belt 23 roll shaft is in transmission connection with the output end of an upper-layer conveying belt speed reducer 24, and the input end of the upper-layer conveying belt speed reducer 24 is in transmission connection with the output end of a motor.

In order to facilitate the installation of the upper layer conveyor belt 23 and solve the problem that the upper layer conveyor belt 23 is loosened after long-term use, the upper layer conveying device 2 further comprises a first tensioning adjustment assembly 25 for adjusting the tightness of the upper layer conveyor belt 23 between the two upper layer conveyor belt roller shafts 22, the first tensioning adjustment assembly 25 is respectively installed on the upper layer supporting plates 21 on the two sides, that is, the first tensioning adjustment assembly 25 is installed at both ends of the upper layer supporting plates 21 on the two sides.

The first tensioning adjustment assembly 25 comprises a first adjustment mounting seat 250 mounted on the upper support plate 21, a first fixing frame 251 mounted on the first adjustment mounting seat 250, and a first adjustment plate 252 capable of sliding left and right on the first fixing frame 251, wherein the first fixing frame 251 is provided with a first adjustment screw 253 for adjusting the first adjustment plate 252 to slide left and right on the first fixing frame 251, two ends of the upper layer conveyor belt roller shaft 22 are mounted on the first adjustment plate 252 through bearings so as to realize the tightness adjustment of the upper layer conveyor belt 23 between the two upper layer conveyor belt roller shafts 22,

a first sliding groove 254 and a first sliding rail 255 are arranged between the first adjustment plate 252 and the first fixed frame 251, the first sliding groove 254 may be disposed on the first adjustment plate 252 or the first fixed frame 251, when the first sliding groove 254 is disposed on the first adjustment plate 252, the first sliding rail 255 is disposed on the first fixed frame 251, when the first sliding groove 254 is disposed on the first fixed frame 251, the first sliding rail 255 is disposed on the first adjustment plate 252, a first bolt hole 256 is disposed on the first fixed frame 251, the first adjustment screw 253 passes through the first bolt hole 256 and is detachably connected to the first adjustment plate 252, and the first adjustment screw 253 may be adjusted to drive the first adjustment plate 252 to slide back and forth on the first fixed frame 251, thereby adjusting the tightness of the upper layer conveyor belt 23.

The lower layer conveying device 3 comprises a horizontal conveying section 30 and inclined conveying sections 31 connected with two ends of the horizontal conveying section, wherein the horizontal conveying section 30 and the inclined conveying sections 31 respectively comprise lower layer supporting plates 32 arranged at two sides of the conveying rack 20, the lower layer supporting plates 32 at each side are respectively formed by connecting a plurality of sections of channel steel, rotatable lower layer conveying belt roll shafts 33 are arranged at two ends between the lower layer supporting plates 32 at two sides, at least two lower layer conveying belts 34 arranged at two sides are connected between the two lower layer conveying belt roll shafts 33, a drainage through hole 35 is arranged between the two lower layer conveying belts 34, one end of one lower layer conveying belt roll shaft 33 is in transmission connection with the output end of a lower layer conveying belt speed reducer 36, the input end of the lower layer conveying belt speed reducer 36 is in transmission connection with the output end of a motor, when a mold is reversely buckled on the lower layer conveying belts 34 for conveying, the mold is conveyed upwards in an inclined mode through the inclined conveying section 31 at the first section, at the moment, the residual water on the bottom of the mold flows down along the inclined side walls, then passes through the horizontal conveying section, and finally passes through the second inclined conveying section 31 to be conveyed in a downhill mode, so that the residual water on the top of the mold can flow down to the side walls alternately.

In order to facilitate the installation of the lower layer conveyor belt 34 and solve the problem that the lower layer conveyor belt 34 loosens after a long period of use, the lower layer conveyor 3 further includes a second tensioning adjustment assembly 37 for adjusting the tightness of the lower layer conveyor belt 34 between the two lower layer conveyor belt roller shafts 33, and the second tensioning adjustment assembly 37 is respectively installed on the lower layer support plates 32 on both sides.

The second tensioning adjustment assembly 37 comprises a second adjustment mounting seat 370 mounted on the lower support plate 32, a second fixing frame 371 mounted on the second adjustment mounting seat 370, and a second adjustment plate 372 capable of sliding left and right on the second fixing frame 371, wherein a second adjustment screw 373 used for adjusting the second adjustment plate 372 to slide left and right on the second fixing frame 371 is arranged on the second fixing frame 371, and two ends of the lower conveyor belt roller shaft 33 are mounted on the second adjustment plate 372 through bearings, so that the tightness adjustment of the lower conveyor belt 34 between the two lower conveyor belt roller shafts 33 is realized.

A second sliding groove 374 and a second sliding rail 375 are arranged between the second adjusting plate 372 and the second fixing frame 371, the second sliding groove 374 can be arranged on the second adjusting plate 372 or the second fixing frame 371, when the second sliding groove 374 is arranged on the second adjusting plate 372, the second sliding rail 375 is arranged on the second fixing frame 371, when the second sliding groove 374 is arranged on the second fixing frame 371, the second sliding rail 375 is arranged on the second adjusting plate 372, a second bolt hole 376 is arranged on the second fixing frame 371, a second adjusting screw 373 is detachably connected with the second adjusting plate 372 through the second bolt hole 376, the second adjusting screw can be adjusted to drive the second adjusting plate 372 to slide back and forth on the second fixing frame 371, and tightness of the lower layer conveyor belt 34 can be adjusted.

In order to further accelerate the rapid forming of the embryo body in the mould, a sealing plate 38 is further arranged between the upper supporting plate 21 and the lower supporting plate 32, the sealing plate 38 encloses the two sides between the upper supporting plate 21 and the lower supporting plate 32 into a drying chamber, a drying device is arranged in the drying chamber and comprises a heating pipe and a fan, the heating pipe is arranged at the lower end of the upper supporting plate and is arranged along the conveying direction of the conveying belt, when the mould with the embryo body passes through the lower conveying belt, the cooperation of the heating pipe and the fan can rapidly heat and form the embryo body in the mould

The lifting turnover mechanism 4 comprises a lifting rack 60, the lifting rack 60 is provided with a turnover device 5 which is driven by a lifting device 6 to lift up and down, and the lifting rack 60 is also provided with a slurry receiving device 7;

the turnover device 5 comprises a turnover frame 50 and a turnover speed reducer 51 for driving the turnover frame 50 to rotate, wherein first transmission shafts 53 capable of rotating around first bearing seats 52 are arranged at two ends of the turnover frame 50, the first bearing seats 52 at the two ends are fixed on a frame mounting seat 67 through bolts, a rotatable turnover roller shaft 54 is further arranged below the bottom of the turnover frame 50, a first clamping assembly 55 for clamping a mold is arranged on the turnover frame 50, the first clamping assembly 55 comprises a first clamping cylinder 550 arranged on a connecting plate 501, turnover clamping plates 551 for clamping the mold are arranged at two ends of the first clamping cylinder 550, the number of the first clamping assembly 55 can be determined according to production requirements, the mold conveyed by an upper layer of conveying belt can be clamped through the first clamping assembly 55, and residual water after grouting in the mold is poured into a mud receiving disc to be collected and discharged in a unified mode.

The roll-over stand 50 comprises two side plates 500, a connecting plate 501 and a first bottom plate 502 are connected between the two side plates 500, one end of a first transmission shaft 53 is installed on the side plates 500, the other end of the first transmission shaft 53 is installed in a matching way with a first bearing seat 52 through a bearing, one of the first transmission shafts penetrates through the first bearing seat 52 and then is connected with the output end of a roll-over reducer 51, the first bearing seat 52 is fixed on a rack installation seat 67 through bolts, a first clamping assembly 55 is installed on the connecting plate 501, a roll-over roller 54 is installed below the first bottom plate, the bottom of the roll-over stand 50 is provided with a roller shaft through hole 503 for the roll-over roller 54 to partially penetrate through, the roll-over roller 54 penetrates through the roller shaft through hole 503 to enable the side wall of the roll-over roller 54 to be higher than the bottom surface of the roll-over stand 50, when the first clamping assembly 55 clamps the residual water in the mold to be poured out, the mold is lowered to the position of a lower layer conveying belt 34 through a lifting device 6, the roll-over device 5 enables the mold to form a certain inclination angle, the mold is then rotated by the reversing roller 54 to abut the lower belt 34 and is transported by the lower belt to the other end for removal.

The mud receiving device 7 comprises supporting beams 70 at two sides, a supporting beam mounting plate 76 is arranged at one end of each supporting beam 70, the mud receiving device 7 is fixed on the lifting frame 60 through the supporting beam mounting plate 76, a linear guide rail 71 is arranged on each supporting beam 70, wherein a mud receiving cylinder 77 is arranged on one supporting beam 70, a slide block 72 which is matched with the linear guide rail 71 to slide is arranged on the linear guide rail 71, a sliding plate 73 which is fixedly arranged with a piston rod end of the mud receiving cylinder 77 is arranged on the slide block 72, a mud receiving disc 74 is arranged between the sliding plates 73 at the two sides, a discharge hole 75 is arranged on the mud receiving disc 74, the discharge hole 75 is arranged at the lowest part of the bottom surface of the mud receiving disc 74, the bottom surface of the mud receiving disc 74 is arranged in an inclined way from the middle part to the periphery, when the residual water in the mold is poured into the mud receiving disc 74, the residual water flows along the lower part of the mud receiving disc 74, so that the residual water is discharged from the discharge hole 75, and the discharged residual water is uniformly collected and discharged.

The lifting turnover mechanism 8 comprises a lifting frame 60, and a turnover device 80 driven by the lifting device 6 to lift up and down is arranged on the lifting frame 60; the turn-over device 80 comprises a second transmission shaft 81 and a turn-over speed reducer 82 in transmission connection with the second transmission shaft 81, two ends of the second transmission shaft 81 are fixed on the rack mounting seat 67 through a second bearing seat 83, one end of the second transmission shaft is in transmission connection with the turn-over speed reducer 82, two sides of the second transmission shaft 81 are provided with second clamping assemblies 84 for clamping the mold, at least one or more second clamping assemblies 84 are arranged on each side surface of the second transmission shaft 81, the specific number of the second clamping assemblies 84 can be determined according to the requirement of ceramic blank production, wherein the second clamping assemblies 84 comprise a cylinder base 830 fixedly connected with the second transmission shaft 81, a second clamping cylinder 831 is arranged on the cylinder base 830, two ends of the second clamping cylinder 831 are provided with turn-over clamping plates 832 for clamping the mold, the cylinder base 830 is further provided with a second bottom plate 834 connected through a guide rod 833, the second clamping cylinder 831 is positioned between the second bottom plate 834 and the cylinder base 830, the turnover clamping plates 832 at two ends clamp the die through the extension of the second clamping cylinder 831, and the die is clamped on the front conveying belt 921, so that the front conveying belt 921 is lifted up by the lifting device 6 to manually take out ceramic blanks in the die, and meanwhile, the die is cleaned and then put into the original position, so that the preparation of subsequent work is facilitated.

The lifting embryo taking and pulp pouring mechanism 9 comprises a lifting frame 60 and a blanking adjusting device 90 arranged at the top of the lifting frame 60, and a mould conveying assembly 92 driven by the lifting device 6 to lift up and down is arranged on the lifting frame 60;

in order to guarantee the accurate unloading of mud in the injection mold, the utility model discloses unloading adjusting device's concrete structure produces as follows, unloading adjusting device 90 includes unloading base 900, be equipped with the registration arm 901 rather than the perpendicular connection on the unloading base 900, still be equipped with hand wheel 93 on registration arm 901 and the horizontal regulation pipe 903, convenient operation regulation, be equipped with the horizontal adjustment piece 902 through bearing cooperation fixed on the registration arm 901, be equipped with the horizontal regulation pipe 903 perpendicular with registration arm 901 on the horizontal adjustment piece 902, be equipped with the vertical adjustment piece 904 through bearing cooperation fixed on the horizontal adjustment pipe 903, be equipped with vertical adjustment pipe 905 on the vertical adjustment piece 904, be equipped with the unloading pipe base 907 that is used for fixed mud unloading pipe 906 on the vertical adjustment pipe 905, mud unloading pipe 906 is installed on unloading pipe base 907, be equipped with horizontal adjustment pipe through-hole 908 on the horizontal adjustment piece 902, an opening 909, with horizontal adjustment pipe through-hole 908 intercommunication, The positioning pipe 901 passes through the mounting hole 910 and is matched with a bearing to enable the horizontal adjusting block 902 to rotate around the axis of the positioning pipe 901; the vertical adjusting block 904 is provided with a feeding pipe through hole 911, a vertical adjusting pipe through hole 913 and a second opening 912 communicated with the through hole of the vertical adjusting pipe 905, the slurry feeding pipe 906 penetrates through the feeding pipe through hole 911 to be connected with a feeding pipe base 907, one end of the horizontal adjusting pipe 903 penetrates through the vertical adjusting pipe through hole 913 to be connected with the horizontal adjusting pipe through hole 908, and the horizontal adjusting pipe 903 and the vertical adjusting pipe through hole 913 are fixed in a matched mode through a bearing, so that the vertical adjusting block 904 rotates around the axis of the horizontal adjusting pipe 903.

Send module 92 including installing supporting seat 920 on rack-mount seat 67, drive leading conveyer belt 921 driven many cylinders 922, each cylinder 922 rotationally connects between the supporting seat 920 of both sides, and one end and the sending module motor 923 transmission hookup of one of them cylinder 922 are worked as elevating gear and are sent module 92 to rise to with upper conveyer belt same position, make send module 92 can send the mould into upper conveyer belt to can carry out the unloading to the mould (pour into mud into).

In order to satisfy turning device 5, turning device 80 and send the oscilaltion requirement of mould subassembly 92, the utility model discloses a concrete structure of elevating gear 6 produces as follows, elevating gear 6 includes lift frame 60, lift frame 60 both sides all are equipped with synchronous pulley 61 and lower synchronous pulley 62, it links to each other through synchronous belt 63 transmission between synchronous pulley 61 and the lower synchronous pulley 62, all be equipped with synchronous belt clamp plate 66 on the synchronous belt 63 of both sides, frame mount 67 and synchronous belt clamp plate 66 fixed connection, it fixes the top at lift frame 60 through synchronous pulley bearing frame 602 to go up synchronous pulley 61, lower synchronous pulley 62 passes through synchronous pulley bearing frame 602 and fixes the bottom at lift frame 60, the both ends of dual output shaft speed reducer 65 pass through third transmission shaft 64 drive upper synchronous pulley 61 or lower synchronous pulley 62.

More specifically, the first output end of the dual output shaft speed reducer 65 is connected to the upper synchronous pulley 61 on one side of the lifting frame 60 through the third transmission shaft 64, the second output end of the dual output shaft speed reducer 65 is connected to the upper synchronous pulley 61 on the other side of the lifting frame 60 through the third transmission shaft 64, of course, the first output end of the dual output shaft speed reducer 65 can also be connected to the lower synchronous pulley 62 on one side of the lifting frame 60 through the third transmission shaft 64, and the second output end of the dual output shaft speed reducer 65 is connected to the lower synchronous pulley 62 on the other side of the lifting frame 60 through the third transmission shaft 64, for example, the lifting device in the turn-over device 80 of the present invention adopts such a structure, so as to operate better.

The double-output-shaft speed reducer 65 is fixed on a double-output-shaft speed reducer mounting plate 650, the double-output-shaft speed reducer mounting plate 650 can be fixed at the top or the bottom of the lifting frame 60, the mounting position of the double-output-shaft speed reducer mounting plate 650 is determined according to the mounting position of the double-output-shaft speed reducer, guide posts 68 are further arranged on two sides of the lifting frame 60, the frame mounting seat 67 is sleeved on the guide posts 68 through linear bearings 69, and guide seats 601 fixed with the lifting frame 60 are arranged at two ends of each guide post 68.

For the convenience of the installation and operation of the synchronous belt 63, the synchronous belt adjusting device 603 for adjusting the tightness of the synchronous belt 63 is further arranged on the synchronous belt bearing seat 602, the synchronous belt adjusting device 603 can be arranged at the position of the upper synchronous belt pulley 61 or the lower synchronous belt pulley 62, for example, the utility model discloses the synchronous belt adjusting device 603 in the middle turnover device 80 is arranged at the position of the upper synchronous belt pulley 61, and the synchronous belt adjusting device 603 in the turnover device 5 and the die feeding assembly 92 are arranged at the position of the upper synchronous belt pulley 62, and the positions are set according to the structural cooperation of different devices.

More specifically, the synchronous belt adjusting device 603 includes vertical frames 611 installed at two sides of the synchronous pulley support 604, each vertical frame 611 is provided with a synchronous pulley shaft seat 606 which slides up and down through a bolt 605, a synchronous pulley shaft 607 is installed between the synchronous pulley shaft seats 606 at two sides, the lower synchronous pulley 62 is installed on the synchronous pulley shaft 607, a third sliding slot 608 and a third sliding rail 609 are installed between the vertical frame 611 and the synchronous pulley shaft seat 606, so that the synchronous pulley shaft seat 606 can slide up and down on the vertical frame 611 more easily, the third sliding slot 608 can be installed on the vertical frame 611 or the synchronous pulley shaft seat 606, when the third sliding slot 608 is installed on the synchronous pulley shaft seat 606, the third sliding rail 609 is installed on the vertical frame 611, when the third sliding slot 608 is installed on the vertical frame 611, the vertical frame 611 is provided with a third bolt hole 610, the bolt 605 passes through the third bolt hole 610 and is detachably connected and fixed with the synchronous pulley shaft seat 606, the bolt 605 is used for driving the synchronous belt pulley shaft seat 606 to slide up and down on the vertical frame 611 by the adjusting bolt 605, so that the tightness or installation adjustment of the synchronous belt is realized.

The stability and the fastness of the frame installation bases on the two sides in the lifting device in the vertical lifting process are further improved, and the frame installation bases 67 on the two sides are connected through the cross beam 56.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. Pottery slip casting production line, its characterized in that: the device comprises a conveying mechanism (1), a lifting turnover mechanism (4) and a lifting turnover mechanism (8) which are arranged at two ends of the conveying mechanism (1), wherein a lifting embryo taking and slurry pouring mechanism (9) used for taking embryos is arranged on one side of the lifting turnover mechanism (8), the conveying mechanism (1) comprises an upper-layer conveying device (2) and a lower-layer conveying device (3), the lifting turnover mechanism (4) comprises a turnover device (5), a lifting device (6) used for driving the turnover device (5) to slide up and down, and a slurry receiving device (7) arranged on a lifting rack.

2. The ceramic slip casting production line of claim 1, characterized in that: the upper-layer conveying device (2) comprises a conveying rack (20) and upper-layer supporting plates (21) arranged on two sides of the conveying rack (20), rotatable upper-layer conveying belt roll shafts (22) are arranged at two ends between the upper-layer supporting plates (21) on two sides, an upper-layer conveying belt (23) is connected between the two upper-layer conveying belt roll shafts (22), one end of a roll shaft of one upper-layer conveying belt (23) is in transmission connection with the output end of an upper-layer conveying belt speed reducer, and the input end of the upper-layer conveying belt speed reducer is in transmission connection with the output end of a motor;

the upper-layer conveying device (2) further comprises a first tensioning adjusting component (25) for adjusting the tightness of the upper-layer conveying belt (23) between the two upper-layer conveying belt roller shafts (22), and the first tensioning adjusting component (25) is respectively arranged on the upper-layer supporting plates (21) on the two sides;

the first tensioning and adjusting assembly (25) comprises a first adjusting installation seat (250) installed on the upper layer supporting plate (21), a first fixed frame (251) installed on the first adjusting installation seat (250), and a first adjusting plate (252) capable of sliding left and right on the first fixed frame (251), wherein a first adjusting screw (253) used for adjusting the first adjusting plate (252) to slide left and right on the first fixed frame (251) is arranged on the first fixed frame (251), and two ends of the upper layer conveying belt roll shaft (22) are installed on the first adjusting plate (252) through bearings so as to realize the tightness adjustment of the upper layer conveying belt (23) between the two upper layer conveying belt roll shafts (22);

a first sliding groove (254) and a first sliding rail (255) are arranged between the first adjusting plate (252) and the first fixing frame (251), a first bolt hole (256) is formed in the first fixing frame (251), and a first adjusting screw (253) penetrates through the first bolt hole (256) to be detachably connected with the first adjusting plate (252).

3. The ceramic slip casting production line of claim 1, characterized in that: the lower layer conveying device (3) comprises a horizontal conveying section (30) and inclined conveying sections (31) connected to two ends of the horizontal conveying section, the horizontal conveying section (30) and the inclined conveying sections (31) respectively comprise lower layer supporting plates (32) arranged on two sides of a conveying rack (20), the lower layer supporting plates (32) on each side are respectively formed by connecting a plurality of sections of channel steel, rotatable lower layer conveying belt roll shafts (33) are arranged at two ends between the lower layer supporting plates (32) on two sides, at least two lower layer conveying belts (34) arranged on two sides are connected between the two lower layer conveying belt roll shafts (33), and a drainage through hole (35) is arranged between the two lower layer conveying belts (34), one end of one lower-layer conveyer belt roll shaft (33) is in transmission connection with the output end of a lower-layer conveyer belt speed reducer (36), and the input end of the lower-layer conveyer belt speed reducer (36) is in transmission connection with the output end of a motor;

the lower-layer conveying device (3) further comprises a second tensioning adjusting component (37) for adjusting the tightness of the lower-layer conveying belt (34) between the two lower-layer conveying belt roller shafts (33), and the second tensioning adjusting component (37) is respectively arranged on the lower-layer supporting plates (32) on the two sides;

the second tensioning adjusting assembly (37) comprises a second adjusting mounting seat (370) installed on the lower support plate (32), a second fixing frame (371) installed on the second adjusting mounting seat (370), and a second adjusting plate (372) capable of sliding left and right on the second fixing frame (371), wherein a second adjusting screw (373) used for adjusting the second adjusting plate (372) to slide left and right on the second fixing frame (371) is arranged on the second fixing frame (371), and two ends of the lower conveying belt roller shaft (33) are installed on the second adjusting plate (372) through bearings so as to realize the tightness adjustment of the lower conveying belt (34) between the two lower conveying belt roller shafts (33);

be equipped with mutual second spout (374) and second slide rail (375) between second adjusting plate (372) and the fixed frame of second (371), be equipped with second bolt hole (376) on the fixed frame of second (371), second adjusting screw (373) pass second bolt hole (376) and can dismantle with second adjusting plate (372) and be connected.

4. The ceramic slip casting production line of claim 2, characterized in that: still set up shrouding (38) between upper backup pad (21) and lower floor backup pad (32), shrouding (38) enclose into the drying chamber with the both sides between upper backup pad (21) and lower floor backup pad (32) be equipped with drying device in the drying chamber, drying device includes heating pipe and fan, and the heating pipe is installed at upper backup pad lower extreme.

5. The ceramic slip casting production line of claim 1, characterized in that: the lifting turnover mechanism (4) comprises a lifting rack (60), a turnover device (5) which is driven by a lifting device (6) to lift up and down is arranged on the lifting rack (60), and a slurry receiving device (7) is also arranged on the lifting rack (60);

the turnover device (5) comprises a turnover frame (50) and a turnover speed reducer (51) for driving the turnover frame (50) to rotate, wherein first transmission shafts (53) capable of rotating around bearing seats I (52) are arranged at two ends of the turnover frame (50), the bearing seats I (52) at two ends are fixed on a rack mounting seat (67) through bolts, a rotatable turnover roller shaft (54) is further arranged below the bottom of the turnover frame (50), and at least one first clamping assembly (55) for clamping a mold is arranged on the turnover frame (50);

the roll-over stand (50) comprises two side plates (500), a connecting plate (501) and a first bottom plate (502) are connected between the two side plates (500), one end of a first transmission shaft (53) is installed on the side plates (500), the other end of the first transmission shaft (53) is installed with a first bearing seat (52) in a matching mode through a bearing, a first transmission shaft penetrates through a first bearing seat (52) and then is connected with the output end of the turnover speed reducer (51), the first bearing seat (52) is fixed on a rack mounting seat (67) through bolts, a first clamping assembly (55) is mounted on a connecting plate (501), a turnover roller shaft (54) is mounted below a first base plate (502), a roller shaft through hole (503) for the turnover roller shaft (54) to partially penetrate through is formed in the bottom of the turnover frame (50), and the turnover roller shaft (54) penetrates through the roller shaft through hole (503) to enable the side wall of the turnover roller shaft (54) to be higher than the bottom surface of the turnover frame (50);

the first clamping assembly (55) comprises a first clamping cylinder (550) installed on the connecting plate (501), and two ends of the first clamping cylinder (550) are provided with overturning clamping plates (551) used for clamping the die.

6. The ceramic slip casting production line of claim 1, characterized in that: the lifting turnover mechanism (8) comprises a lifting rack (60), and a turnover device (80) which is driven by the lifting device (6) to lift up and down is arranged on the lifting rack (60);

the turnover device (80) comprises a second transmission shaft (81) and a turnover speed reducer (82) in transmission connection with the second transmission shaft (81), two ends of the second transmission shaft (81) are fixed on the rack mounting seat (67) through a second bearing seat (83), one end of the second transmission shaft is in transmission connection with the turnover speed reducer (82), second clamping assemblies (84) used for clamping a mold are arranged on two sides of the second transmission shaft (81), and at least one second clamping assembly (84) is arranged on each side surface of the second transmission shaft (81);

the second clamping assembly (84) comprises a cylinder base (830) fixedly connected with a second transmission shaft (81), a second clamping cylinder (831) is arranged on the cylinder base (830), two ends of the second clamping cylinder (831) are provided with turnover clamping plates (832) used for clamping a mold, the cylinder base (830) is further provided with a second bottom plate (834) connected through a guide rod (833), and the second clamping cylinder (831) is located between the second bottom plate (834) and the cylinder base (830).

7. The ceramic slip casting production line of claim 1, characterized in that: the lifting embryo taking and pulp pouring mechanism (9) comprises a lifting rack (60) and a blanking adjusting device (90) arranged at the top of the lifting rack (60), and a mould conveying assembly (92) driven by the lifting device (6) to lift up and down is arranged on the lifting rack (60);

the blanking adjusting device (90) comprises a blanking base (900), a positioning pipe (901) vertically connected with the blanking base (900) is arranged on the blanking base (900), a horizontal adjusting block (902) matched and fixed through a bearing is arranged on the positioning pipe (901), a horizontal adjusting pipe (903) perpendicular to the positioning pipe (901) is arranged on the horizontal adjusting block (902), a vertical adjusting block (904) matched and fixed through a bearing is arranged on the horizontal adjusting pipe (903), a vertical adjusting pipe (905) is arranged on the vertical adjusting block (904), a blanking pipe base (907) used for fixing a slurry blanking pipe (906) is arranged on the vertical adjusting pipe (905), and the slurry blanking pipe (906) is installed on the blanking pipe base (907);

the horizontal adjusting block (902) is provided with a horizontal adjusting pipe through hole (908), a first opening (909) communicated with the horizontal adjusting pipe through hole (908), and a mounting hole (910) matched with the positioning pipe (901), and the positioning pipe (901) passes through the mounting hole (910) and is matched through a bearing to enable the horizontal adjusting block (902) to rotate around the axis of the positioning pipe (901);

the vertical adjusting block (904) is provided with a feeding pipe through hole (911), a vertical adjusting pipe through hole (913) and a second opening (912) communicated with the vertical adjusting pipe (905) through hole, a slurry feeding pipe (906) penetrates through the feeding pipe through hole (911) to be connected with a feeding pipe base (907), one end of a horizontal adjusting pipe (903) penetrates through the vertical adjusting pipe through hole (913) to be connected with the horizontal adjusting pipe through hole (908), and the horizontal adjusting pipe (903) and the vertical adjusting pipe through hole (913) are matched and fixed through a bearing, so that the vertical adjusting block (904) rotates around the axis of the horizontal adjusting pipe (903);

the die feeding assembly (92) comprises a supporting seat (920) arranged on a rack mounting seat (67) and a plurality of rollers (922) for driving the front conveying belt (921) to transmit, each roller (922) is rotatably connected between the supporting seats (920) at two sides, and one end of one roller (922) is in transmission connection with a die feeding assembly motor (923); and hand wheels (93) are also arranged on the positioning pipe (901) and the horizontal adjusting pipe (903).

8. The ceramic slip casting production line of claim 1, characterized in that: the mud receiving device (7) comprises supporting beams (70) on two sides, a linear guide rail (71) is arranged on each supporting beam (70), a mud receiving cylinder (77) is arranged on one supporting beam (70), a sliding block (72) which is matched with the linear guide rail to slide is arranged on the linear guide rail (71), a sliding plate (73) fixedly mounted with a piston rod end of the mud receiving cylinder (77) is arranged on the sliding block (72), a mud receiving disc (74) is mounted between the sliding plates (73) on the two sides, a discharge hole (75) is formed in the mud receiving disc (74), the discharge hole (75) is arranged at the lowest position of the bottom surface of the mud receiving disc (74), and the bottom surface of the mud receiving disc (74) is obliquely arranged from a middle bulge to the periphery; supporting beam mounting panel (76) are equipped with to supporting beam (70) one end, connect mud device (7) to fix on lift frame (60) through supporting beam mounting panel (76).

9. Ceramic slip casting production line according to any of claims 5 to 6, characterized in that: the lifting device (6) comprises a lifting rack (60), an upper synchronous belt wheel (61) and a lower synchronous belt wheel (62) are arranged on two sides of the lifting rack (60), the upper synchronous belt wheel (61) and the lower synchronous belt wheel (62) are in transmission connection through a synchronous belt (63) and are in transmission connection through a double-output-shaft speed reducer (65), synchronous belt pressing plates (66) are arranged on the synchronous belts (63) on the two sides, a rack mounting seat (67) is fixedly connected with the synchronous belt pressing plates (66), guide columns (68) are further arranged on two sides of the lifting rack (60), the rack mounting seat (67) is sleeved on the guide columns (68) through linear bearings (69), and guide seats (601) fixed with the lifting rack (60) are arranged at two ends of each guide column (68);

the upper synchronous pulley (61) is fixed at the top of the lifting rack (60) through a synchronous pulley bearing seat (602), the lower synchronous pulley (62) is fixed at the bottom of the lifting rack (60) through the synchronous pulley bearing seat (602), and two ends of the double-output-shaft speed reducer (65) drive the upper synchronous pulley (61) or the lower synchronous pulley (62) through a third transmission shaft (64);

the double-output-shaft speed reducer (65) is fixed on a double-output-shaft speed reducer mounting plate (650), and the double-output-shaft speed reducer mounting plate (650) is fixed at the top of the lifting frame (60);

the lifting device (6) further comprises a synchronous belt adjusting device (603) used for adjusting the tightness of a synchronous belt (63), the synchronous belt adjusting device (603) comprises vertical frames (611) arranged on two sides of a synchronous belt wheel support (604), each vertical frame (611) is provided with a synchronous belt wheel shaft seat (606) which can adjust the vertical sliding through a bolt (605), a synchronous belt wheel shaft (607) is arranged between the synchronous belt wheel shaft seats (606) on the two sides, and a lower synchronous belt wheel (62) is arranged on the synchronous belt wheel shaft (607);

be equipped with mutual third spout (608) and third slide rail (609) between grudging frame (611) and synchronous pulley axle bed (606), be equipped with third bolt hole (610) on grudging frame (611), bolt (605) passes third bolt hole (610) and can dismantle with synchronous pulley axle bed (606) and be connected fixedly.

10. The ceramic slip casting production line of claim 9, characterized in that: the rack mounting seats (67) are connected through a cross beam (56).

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