CN111923205B - Glaze device is swung to pottery - Google Patents

Abstract

The invention relates to the field of ceramics, in particular to a ceramic glaze swinging device. The technical problem to be solved by the invention is as follows: a ceramic glaze swinging device is provided. The technical scheme of the invention is as follows: a ceramic glaze swinging device comprises a glaze swinging mechanism, a glaze conveying mechanism, a glaze material removing mechanism, a supporting mechanism and a control screen; one side of the glaze swinging mechanism is connected with the glaze conveying mechanism; the other side of the glaze swinging mechanism is connected with a glaze removing mechanism; the lower part of the glaze swinging mechanism is connected with the supporting mechanism; the lower part of the glaze removing mechanism is connected with the supporting mechanism; a control screen is arranged above the supporting mechanism. The invention realizes the operation of swinging the glaze in the ceramic bottle, can automatically finish the whole glaze swinging process on the ceramic bottle only by putting the ceramic bottle into the rotary box, saves labor power, improves the efficiency of the glaze swinging process of the ceramic bottle, and can effectively remove the residual glaze and avoid the waste of glaze slurry for the ceramic bottle with an inward-hooked bottle opening.

Description

Glaze device is swung to pottery

Technical Field

The invention relates to the field of ceramics, in particular to a ceramic glaze swinging device.

Background

The glaze is a colorless or colored vitreous thin layer covered on the surface of the ceramic bottle, can increase the mechanical strength, thermal stability and dielectric strength of the product, and has the characteristics of beautifying the ware, being convenient for wiping and washing, being not eroded by dust, smell and dirt, and the like. And adopting a corresponding glazing method according to different shapes and thicknesses of the blank. The glazing of the inside of a bottle, a pot and other cut devices generally adopts the oscillation glaze, namely, glaze slip is poured into a blank, and then oscillation is carried out, so that the upper part, the lower part, the left part and the right part are uniformly glazed, and the redundant glaze slip is poured out.

The glaze needs to be injected into the ceramic bottle manually in the existing glaze oscillation process, and after the oscillation is completed, the glaze in the ceramic bottle also needs to be poured out manually, so that the manual workload is increased, the whole glaze oscillation process efficiency of the ceramic bottle is low, and in addition, the ceramic bottle with an inward hook design for a bottle opening cannot be completely poured out of redundant glaze slurry, so that the waste of the glaze slurry can be caused, and the quality of the ceramic bottle can be influenced.

In summary, there is a need to develop a ceramic glaze-swinging device to overcome the above problems.

Disclosure of Invention

In order to overcome the current glaze operation of waving and to inject the frit into in the ceramic bottle in the manual work, after the simultaneous oscillation was accomplished, also need the manual glaze of in with the ceramic bottle to pour out, the manual work volume has been increased for the ceramic bottle is whole to wave glaze process efficiency on the low side, and the ceramic bottle that colludes the design in having to the bottleneck in addition, unnecessary glaze slurry can not empty totally, and this not only can cause the waste of glaze slurry, still can influence the shortcoming of the quality of ceramic bottle, and the technical problem that will solve is: a ceramic glaze swinging device is provided.

The technical scheme of the invention is as follows: a ceramic glaze swinging device comprises a glaze swinging mechanism, a glaze conveying mechanism, a glaze material removing mechanism, a supporting mechanism and a control screen; one side of the glaze swinging mechanism is connected with the glaze conveying mechanism; the other side of the glaze swinging mechanism is connected with a glaze removing mechanism; the lower part of the glaze swinging mechanism is connected with the supporting mechanism; the lower part of the glaze removing mechanism is connected with the supporting mechanism; a control screen is arranged above the supporting mechanism.

As a preferred technical scheme of the invention, the glaze swinging mechanism further comprises a motor, a first transmission rod, a first sleeve rod, a first electric push rod, a first bearing, a first bevel gear, a second transmission rod, a first support seat, a second base, a first support rod, a first elastic rod, a first support disc, a rotating disc, a fixed frame, a first handle, a first electric slide rail, a second support rod, a second elastic rod, a second support disc, a first screw rod, a second bearing, a second electric push rod, a third bevel gear, a fourth bevel gear, a third transmission rod, a first transmission wheel, a fourth transmission rod, a third bearing, a first support plate, a second screw rod, a rotating cylinder, a second electric slide rail, a first electric clamp, a second transmission wheel, a second connecting plate, a first base, a sixth connecting plate, a first electric slide plate, a first ceramic bottle, a second ceramic bottle, a ceramic bottle, The ceramic fixing plate, the second ceramic bottle and the tenth transmission rod are arranged on the first transmission rod; the output shaft of the motor is rotationally connected with the first transmission rod; the outer surface of the first transmission rod is rotationally connected with the first sleeve rod; the axle center of the first loop bar is in transmission connection with the tenth transmission bar; the outer surface of the tenth transmission rod is rotatably connected with the second connecting plate; the outer surface of the tenth transmission rod is rotatably connected with the first bearing; the outer surface of the tenth transmission rod is in rotary connection with the first bevel gear; the first electric push rod is welded with the second connecting plate; the first electric push rod is welded with the first base; the outer surface of the first bearing is welded with the first supporting seat; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is rotationally connected with the second transmission rod; the outer surface of the second bevel gear is rotationally connected with the second bearing; the outer surface of the second transmission rod is rotationally connected with the first supporting seat; the inner part of the second transmission rod is connected with the first screw rod in a screwing way; the outer surface of the second transmission rod is rotatably connected with the sixth connecting plate; the outer surface of the second transmission rod is in transmission connection with a third bevel gear; the first supporting seat is welded with the second bearing; the inner part of the first supporting rod is in transmission connection with the first elastic rod; the outer surface of the first support rod is welded with the first support seat; the first elastic rod is welded with the first supporting disc; the upper part of the first supporting disc is in transmission connection with the rotating disc; the upper part of the rotating disc is rotationally connected with the fixed frame; the outer surface of the fixed frame is welded with the first handle; the inner part of the fixing frame is welded with the first electric sliding rail; the interior of the first electric sliding rail is in sliding connection with the first electric sliding plate; the lower part of the first electric slide rail is welded with the ceramic fixing plate; a first ceramic bottle is arranged on one side of the first electric sliding plate; a second ceramic bottle is arranged on the other side of the first electric sliding plate; a first ceramic bottle is arranged on one side of the ceramic fixing plate; a second ceramic bottle is arranged on the other side of the ceramic fixing plate; the outer surface of the second support rod is welded with the first support seat; the inside of the second supporting rod is in transmission connection with the second elastic rod; the upper part of the second elastic rod is welded with the second supporting disk; the upper part of the second supporting disk is in transmission connection with the rotating disk; the first screw rod is in transmission connection with the rotating disc; the lower part of the second electric push rod is welded with the second base; a fourth bevel gear is arranged below the third bevel gear; the axle center of the fourth bevel gear is rotationally connected with the third transmission rod; the outer surface of the third transmission rod is rotationally connected with the second transmission wheel; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the axle center of the first driving wheel is rotationally connected with the fourth driving rod; the outer surface of the fourth transmission rod is rotatably connected with the third bearing; the interior of the fourth transmission rod is connected with the second screw rod in a screwing way; the outer surface of the third bearing is welded with the first supporting plate; one side of the rotary cylinder is in transmission connection with the second screw rod; the other side of the rotary cylinder is rotationally connected with a second electric slide rail; one side of the second electric slide rail is in sliding connection with the first electric clamp; the other side of the second electric sliding rail is in sliding connection with the second electric clamp; the upper part of the first supporting plate is connected with a glaze feeding mechanism; the outer surface of the first transmission rod is connected with the glaze removing mechanism; the lower part of the motor is connected with the supporting mechanism; the lower part of the first supporting seat is connected with a supporting mechanism; the lower part of the second base is connected with the supporting mechanism; the lower part of the first supporting plate is connected with a supporting mechanism; the lower part of the first base is connected with the supporting mechanism; the outer surface of the third transmission rod is rotatably connected with the supporting mechanism; the outer surface of the first transmission rod is rotatably connected with the supporting mechanism.

As a preferred technical scheme of the invention, the glaze conveying mechanism further comprises a glaze barrel, a switch, a second injection pipe, a hose, a third electric slide rail, a second electric slide plate, a sixth electric push rod, a first injection pipe and a shunt pipe; a third electric slide rail is arranged below the glaze barrel; one end of the switch is connected with the glaze barrel; the other end of the switch is connected with the hose; the hose is connected with the shunt pipe; the lower part of the third electric sliding rail is in sliding connection with the second electric sliding plate; the lower part of the second electric sliding plate is connected with a sixth electric push rod; the lower part of the sixth electric push rod is connected with the shunt pipe; one side below the shunt pipe is connected with the first injection pipe; the other side below the shunt pipe is connected with a second injection pipe; the lower part of the glaze barrel is connected with a first supporting plate; the outer surface of the third electric slide rail is connected with the first supporting plate.

As a preferred technical scheme of the present invention, the glaze removing mechanism further comprises a third driving wheel, a fourth driving wheel, a fifth transmission rod, a fifth driving wheel, a sixth transmission rod, a fifth bevel gear, a sixth bevel gear, a second loop bar, a seventh transmission rod, a third connecting plate, a seventh bevel gear, an eighth transmission rod, a seventh driving wheel, an eighth driving wheel, a ninth transmission rod, a glaze discharging pipe, a glaze recovering box, a third base, a third electric push rod, a fourth base, a first residual glaze removing mechanism, a second residual glaze removing mechanism and a glaze collecting barrel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the third driving wheel is rotationally connected with the fifth driving rod; the surface of the fifth transmission rod is rotationally connected with a fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth driving wheel is rotationally connected with the sixth transmission rod; the axis of the sixth transmission rod is rotationally connected with the fifth bevel gear; the fifth bevel gear is meshed with the sixth bevel gear; the axis of the sixth bevel gear is rotationally connected with the seventh transmission rod; the inner part of the second sleeve rod is rotationally connected with a seventh transmission rod; the outer surface of the seventh transmission rod is rotatably connected with the third connecting plate; the outer surface of the seventh transmission rod is rotationally connected with a seventh bevel gear; the outer surface of the third connecting plate is in transmission connection with a third electric push rod; the third electric push rod is welded with the fourth base; the seventh bevel gear is meshed with the eighth bevel gear; the axle center of the eighth bevel gear is rotationally connected with the eighth transmission rod; the outer surface of the eighth transmission rod is rotationally connected with the seventh transmission wheel; the outer surface of the eighth transmission rod is rotatably connected with the glaze recovery box; the outer surface of the eighth transmission rod is in transmission connection with the first residual glaze removing mechanism; the outer surface of the eighth transmission rod is in transmission connection with the third base; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the axle center of the eighth driving wheel is in transmission connection with the ninth transmission rod; the outer surface of the ninth transmission rod is in transmission connection with the third base; the outer surface of the ninth transmission rod is in transmission connection with the second residual glaze removing mechanism; a glaze recovery box is arranged above the glaze discharge pipe; a glaze collecting barrel is arranged below the glaze discharging pipe; the axle center of the fourth driving wheel is rotationally connected with the first driving rod; the lower part of the third base is connected with the supporting mechanism; the lower part of the fourth base is connected with the supporting mechanism; the lower part of the glaze collecting barrel is connected with a supporting mechanism; the outer surface of the sixth transmission rod is connected with the supporting mechanism; the outer surface of the second sleeve rod is connected with the supporting mechanism; the outer surface of the seventh transmission rod is connected with the supporting mechanism; the outer surface of the fifth transmission rod is connected with the supporting mechanism.

As a preferred technical scheme of the present invention, the first surplus glaze removing mechanism further comprises a third lead screw, a second support plate, a first cross bar, a first poking bar, a second cross bar, a second poking bar, a first baffle, a second baffle, a first support small plate, a first thin bar, a fourth connecting plate, a third loop bar, a first movable cone, a first elastic silica gel sleeve, a first rotating bar, a second rotating bar and a fourth electric push rod; one side of the third screw rod is welded with the first cross rod; the other side of the third screw rod is connected with a second cross rod; the upper part of the third screw rod is welded with the first small support plate; one side of the second supporting plate is rotationally connected with the first rotating rod; the other side of the second supporting plate is rotatably connected with the second rotating rod; the outer surface of the first cross rod is welded with the first poke rod; a first baffle is arranged above the first poke rod; the outer surface of the second cross rod is welded with the second poke rod; a second baffle is arranged above the second poke rod; the outer surface of the first baffle is rotationally connected with the first rotating rod; the outer surface of the second baffle is rotatably connected with the second rotating rod; one side of the first small support plate is welded with the first thin rod; the other side of the first small support plate is connected with a fourth electric push rod; the upper part of the first thin rod is in transmission connection with the third sleeve rod; one side of the fourth connecting plate is connected with the third sleeve rod; the other side of the fourth connecting plate is connected with a fourth electric push rod; the third loop bar is connected with the first movable vertebral body; the first movable cone is connected with the first elastic silica gel sleeve; the lower part of the second supporting plate is connected with a glaze recovery box; the lower part of the third screw rod is connected with an eighth transmission rod in a screwing way.

As a preferred technical scheme of the invention, the second surplus glaze removing mechanism further comprises a fourth screw rod, a third supporting plate, a third cross rod, a third poking rod, a fourth cross rod, a fourth poking rod, a third baffle, a fourth baffle, a second small supporting plate, a second thin rod, a fifth connecting plate, a fourth sleeve rod, a second movable cone, a second elastic silica gel sleeve, a third rotating rod, a fourth rotating rod and a fifth electric push rod; one side of the fourth screw rod is welded with the third cross rod; the other side of the fourth screw rod is welded with a fourth cross rod; the upper part of the fourth screw rod is welded with the second small support plate; one side of the third supporting plate is rotatably connected with the third rotating rod; the other side of the third supporting plate is rotatably connected with a fourth rotating rod; the outer surface of the third cross rod is welded with the third poke rod; a third baffle is arranged above the third poke rod; the outer surface of the fourth cross rod is welded with the fourth poke rod; a fourth baffle is arranged above the fourth poke rod; the outer surface of the third baffle is rotatably connected with the third rotating rod; the outer surface of the fourth baffle is rotatably connected with the fourth rotating rod; welding the upper part of the second small support plate with a second thin rod; the fifth connecting plate is connected with the fourth sleeve rod; one side of the fifth connecting plate is connected with a fifth electric push rod; the other side of the fifth connecting plate is connected with the fourth sleeve rod; the fourth loop bar is connected with the second movable vertebral body; the second movable cone is connected with the second elastic silica gel sleeve; the lower part of the third supporting plate is connected with a glaze recovery box; and the lower part of the fourth screw rod is in screwed connection with a ninth transmission rod.

As a preferable technical scheme of the invention, the rotating disc is provided with an annular chute.

As a preferred technical scheme of the invention, the first elastic silica gel sleeve and the second elastic silica gel sleeve are approximately in the shape of a truncated cone.

As a preferred technical scheme of the present invention, a first baffle and a second baffle are disposed above the first elastic silica gel sleeve, and a third baffle and a fourth baffle are disposed above the second elastic silica gel sleeve.

Has the advantages that: in order to solve the problem that the glaze is required to be manually injected into the ceramic bottle in the existing glaze oscillation process, the glaze in the ceramic bottle needs to be manually poured out after the oscillation is completed, the manual operation amount is increased, the whole glaze oscillation process efficiency of the ceramic bottle is low, the ceramic bottle with an inner hook design at the bottle opening is provided, the redundant glaze slip cannot be completely poured out, the waste of the glaze slip can be caused, and the quality of the ceramic bottle can be influenced.

When in use, the ceramic glaze swinging device is firstly placed at a position to be used, then is externally connected with a power supply, and is controlled to be started through a control screen; and then fixing the ceramic bottle in a glaze swinging mechanism, starting a glaze conveying mechanism to inject glaze slurry into the ceramic bottle, starting the glaze swinging mechanism to rotate the ceramic bottle, utilizing centrifugal force to make glaze swing to enable the glaze slurry to be fully distributed in the blank body, transferring the ceramic bottle into a glaze removing mechanism, removing redundant glaze slurry, overturning the ceramic bottle to pour out most of the glaze slurry during removing, and removing the redundant glaze slurry attached to the bottle opening.

The invention realizes the operation of swinging the glaze in the ceramic bottle, can automatically finish the whole glaze swinging process on the ceramic bottle only by putting the ceramic bottle into the rotary box, saves labor power, improves the efficiency of the glaze swinging process of the ceramic bottle, and can effectively remove the residual glaze and avoid the waste of glaze slurry for the ceramic bottle with an inward-hooked bottle opening.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of a first embodiment of the glaze oscillating mechanism according to the present invention;

FIG. 4 is a schematic perspective view of a second glaze oscillating mechanism according to the present invention;

FIG. 5 is a schematic perspective view of the glaze feeding mechanism of the present invention;

FIG. 6 is a schematic perspective view of a first embodiment of the glaze removal mechanism of the present invention;

fig. 7 is a schematic perspective view of a second glaze removal mechanism of the present invention;

fig. 8 is a schematic combined three-dimensional structure diagram of the first and second excess glaze removing mechanisms according to the present invention.

Fig. 9 is a schematic perspective view of the first residual glaze removing mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second residual glaze removing mechanism according to the present invention.

Fig. 11 is an enlarged view of region a of the present invention.

Labeled as: 1-oscillation glaze mechanism, 2-feeding glaze mechanism, 3-glaze removing mechanism, 4-supporting mechanism, 5-control screen, 101-motor, 102-first transmission rod, 103-first loop bar, 104-first electric push rod, 105-first bearing, 106-first bevel gear, 107-second bevel gear, 108-second transmission rod, 109-first supporting seat, 1010-second base, 1011-first supporting rod, 1012-first elastic rod, 1013-first supporting disk, 1014-rotating disk, 1015-fixing frame, 1016-first handle, 1017-first electric sliding rail, 1018-second supporting rod, 1019-second elastic rod, 1020-second supporting disk, 1021-first screw rod, 1022-second bearing, 1023-second electric push rod, 1024-a third bevel gear, 1025-a fourth bevel gear, 1026-a third drive rod, 1027-a first drive wheel, 1028-a fourth drive rod, 1029-a third bearing, 1030-a first support plate, 1031-a second screw, 1032-a rotary cylinder, 1033-a second electric slide rail, 1034-a first electric clamp, 1035-a second electric clamp, 1036-a second drive wheel, 1037-a second connecting plate, 1038-a first base, 1039-a sixth connecting plate, 1040-a first electric slide plate, 1041-a first ceramic bottle, 1042-a ceramic fixing plate, 1043-a second ceramic bottle, 1044-a tenth drive rod, 201-a glaze barrel, 202-a switch, 203-a second injection tube, 204-a hose, 205-a third electric slide rail, 206-a second electric slide plate, 207-a sixth electric push rod, 208-a first injection pipe, 209-a shunt pipe, 301-a third transmission wheel, 302-a fourth transmission wheel, 303-a fifth transmission rod, 304-a fifth transmission wheel, 305-a sixth transmission wheel, 306-a sixth transmission rod, 307-a fifth bevel gear, 308-a sixth bevel gear, 309-a second loop bar, 3010-a seventh transmission rod, 3011-a third connecting plate, 3012-a seventh bevel gear, 3013-an eighth bevel gear, 3014-an eighth transmission rod, 3015-a seventh transmission wheel, 3016-an eighth transmission wheel, 3017-a ninth transmission rod, 3018-a glaze discharging pipe, 3019-a glaze recovery box, 3020-a third base, 3021-a third electric push rod, 3022-a fourth base, 3023-a first residual glaze removing mechanism, 3024-second remaining glaze removing mechanism, 3025-glaze collecting barrel, 302301-third screw rod, 302302-second support plate, 302303-first cross bar, 302304-first tap rod, 302305-second cross bar, 302306-second tap rod, 302307-first baffle, 302308-second baffle, 302309-first small support plate, 3023010-first thin rod, 3023011-fourth connecting plate, 3023012-third rod, 3023013-first movable cone, 3023014-first elastic silicone rubber sleeve, 3023015-first rotating rod, 3023016-second rotating rod, 3023017-fourth electric push rod, 302401-fourth screw rod, 302402-third support plate, 302403-third cross bar, 302404-third tap rod, 302405-fourth cross bar, 302406-fourth tap rod, 302407-third baffle, 302408-a fourth baffle, 302409-a second small support plate, 3024010-a second thin rod, 3024011-a fifth connecting plate, 3024012-a fourth loop bar, 3024013-a second movable cone, 3024014-a second elastic silica gel sleeve, 3024015-a third rotating rod, 3024016-a fourth rotating rod and 3024017-a fifth electric push rod.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

A ceramic glaze swinging device is shown in figures 1-11 and comprises a glaze swinging mechanism 1, a glaze conveying mechanism 2, a glaze material removing mechanism 3, a supporting mechanism 4 and a control screen 5; one side of the glaze swinging mechanism 1 is connected with the glaze conveying mechanism 2; the other side of the glaze swinging mechanism 1 is connected with a glaze removing mechanism 3; the lower part of the glaze swinging mechanism 1 is connected with a supporting mechanism 4; the lower part of the glaze removing mechanism 3 is connected with a supporting mechanism 4; a control screen 5 is arranged above the supporting mechanism 4.

The working principle is as follows: when in use, the ceramic glaze swinging device is firstly placed at a position to be used, then is externally connected with a power supply, and is controlled to be started through the control screen 5; then fixing the ceramic bottle in a glaze swinging mechanism 1, starting a glaze conveying mechanism 2 to inject glaze slurry into the ceramic bottle, starting the glaze swinging mechanism 1 to rotate the ceramic bottle, utilizing centrifugal force to make glaze swing to enable the glaze slurry to be fully distributed in a blank body, transferring the ceramic bottle into a glaze removing mechanism 3 to remove redundant glaze slurry, overturning the ceramic bottle to dump most of the glaze slurry during removing, and removing the redundant glaze slurry attached to the bottle mouth; the invention realizes the operation of swinging the glaze in the ceramic bottle, can automatically finish the whole glaze swinging process on the ceramic bottle only by putting the ceramic bottle into the rotary box, saves labor power, improves the efficiency of the glaze swinging process of the ceramic bottle, and can effectively remove the residual glaze and avoid the waste of glaze slurry for the ceramic bottle with an inward-hooked bottle opening.

The glaze oscillating mechanism 1 further comprises a motor 101, a first transmission rod 102, a first sleeve rod 103, a first electric push rod 104, a first bearing 105, a first bevel gear 106, a second bevel gear 107, a second transmission rod 108, a first support seat 109, a second base 1010, a first support rod 1011, a first elastic rod 1012, a first support disk 1013, a rotating disk 1014, a fixed frame 1015, a first handle 1016, a first electric slide rail 1017, a second support rod 1018, a second elastic rod 1019, a second support disk 1020, a first lead screw 1021, a second bearing, a second electric push rod 1023, a third bevel gear 1024, a fourth bevel gear 1025, a third transmission rod 1026, a first transmission wheel 1027, a fourth transmission rod 1028, a third bearing 1029, a first support plate 1030, a second lead screw 1031, a rotating cylinder 1032, a second electric slide rail 1033, a first electric clamp 1034, a second electric clamp 1035, a second electric drive wheel 1036 and a transmission wheel, A second connecting plate 1037, a first base 1038, a sixth connecting plate 1039, a first electric sliding plate 1040, a first ceramic bottle 1041, a ceramic fixing plate 1042, a second ceramic bottle 1043 and a tenth transmission rod 1044; an output shaft of the motor 101 is rotationally connected with the first transmission rod 102; the outer surface of the first transmission rod 102 is rotatably connected with the first sleeve rod 103; the axis of the first loop bar 103 is in transmission connection with a tenth transmission bar 1044; the outer surface of the tenth transmission rod 1044 is rotationally connected with the second connecting plate 1037; the outer surface of the tenth transmission rod 1044 is rotatably connected with the first bearing 105; the outer surface of the tenth transmission rod 1044 is in rotational connection with the first bevel gear 106; the first electric push rod 104 is welded with the second connecting plate 1037; the first electric push rod 104 is welded with the first base 1038; the outer surface of the first bearing 105 is welded with the first supporting seat 109; the first bevel gear 106 meshes with the second bevel gear 107; the axle center of the second bevel gear 107 is rotationally connected with a second transmission rod 108; the outer surface of the second bevel gear 107 is in rotational connection with a second bearing 1022; the outer surface of the second transmission rod 108 is rotatably connected with the first supporting seat 109; the interior of the second transmission rod 108 is connected with the first screw rod 1021 in a screwing way; the outer surface of the second transmission rod 108 is rotatably connected with the sixth connecting plate 1039; the outer surface of the second transmission rod 108 is in transmission connection with a third bevel gear 1024; the first supporting seat 109 and the second bearing 1022 are welded; the inside of the first supporting rod 1011 is in transmission connection with a first elastic rod 1012; the outer surface of the first support rod 1011 is welded with the first support seat 109; the first elastic rod 1012 is welded to the first support plate 1013; the upper part of the first supporting disk 1013 is in transmission connection with a rotating disk 1014; the upper part of the rotating disc 1014 is rotationally connected with a fixed frame 1015; the outer surface of the fixing frame 1015 is welded with the first handle 1016; the inside of the fixing frame 1015 is welded with the first electric slide rail 1017; the inside of the first electric slide rail 1017 is connected with the first electric slide plate 1040 in a sliding manner; the lower part of the first electric slide rail 1017 is welded with a ceramic fixing plate 1042; a first ceramic bottle 1041 is arranged on one side of the first electric sliding plate 1040; a second ceramic bottle 1043 is arranged on the other side of the first electric sliding plate 1040; a first ceramic bottle 1041 is arranged at one side of the ceramic fixing plate 1042; a second ceramic bottle 1043 is arranged at the other side of the ceramic fixing plate 1042; the outer surface of the second support rod 1018 is welded with the first support seat 109; the inside of the second supporting rod 1018 is in transmission connection with a second elastic rod 1019; the upper part of the second elastic rod 1019 is welded with the second support disc 1020; the upper part of the second supporting plate 1020 is in transmission connection with the rotary disc 1014; the first lead screw 1021 is in transmission connection with the rotary disc 1014; the lower part of the second electric push rod 1023 is welded with the second base 1010; a fourth bevel gear 1025 is arranged below the third bevel gear 1024; the axle center of the fourth bevel gear 1025 is rotationally connected with the third transmission rod 1026; the outer surface of the third driving shaft 1026 is rotatably connected to a second driving wheel 1036; the outer annular surface of the second driving wheel 1036 is in transmission connection with the first driving wheel 1027 through a belt; the axle center of the first transmission wheel 1027 is rotationally connected with a fourth transmission rod 1028; the outer surface of fourth transmission rod 1028 is rotatably connected to third bearing 1029; the interior of the fourth transmission rod 1028 is screwed with the second lead screw 1031; the outer surface of the third bearing 1029 is welded with the first supporting plate 1030; one side of the rotary cylinder 1032 is in transmission connection with the second lead screw 1031; the other side of the rotary cylinder 1032 is rotatably connected with a second electric slide rail 1033; one side of the second electric slide rail 1033 is connected with the first electric clamp 1034 in a sliding way; the other side of the second electric slide rail 1033 is connected with a second electric clamp 1035 in a sliding way; the upper part of the first supporting plate 1030 is connected with the glaze feeding mechanism 2; the outer surface of the first transmission rod 102 is connected with the glaze removing mechanism 3; the lower part of the motor 101 is connected with the supporting mechanism 4; the lower part of the first supporting seat 109 is connected with the supporting mechanism 4; the lower part of the second base 1010 is connected with the supporting mechanism 4; the lower part of the first supporting plate 1030 is connected with a supporting mechanism 4; the lower part of the first base 1038 is connected with the supporting mechanism 4; the outer surface of the third transmission rod 1026 is rotatably connected with the supporting mechanism 4; the outer surface of the first transmission rod 102 is rotatably connected with the support mechanism 4.

Firstly, opening one side of a fixing frame 1015 by using a first handle 1016, then starting a first electric sliding plate 1040 to move upwards along a first electric sliding rail 1017, then putting the ceramic bottle into a ceramic fixing plate 1042, and then moving the first electric sliding plate 1040 downwards to fix the ceramic bottle; then, after the glaze slurry is injected into the ceramic bottle by the glaze feeding mechanism 2, the motor 101 is started to drive the first transmission rod 102 to rotate, the first transmission rod 102 is rotated to drive the first sleeve rod 103 to rotate, the first sleeve rod 103 is rotated to drive the tenth transmission rod 1044 to rotate, the tenth transmission rod 1044 is rotated to drive the first bevel gear 106 to rotate, as the place where the tenth transmission rod 1044 is connected with the first sleeve rod 103 is provided with a sliding projection, the tenth transmission rod can slide when rotating, the first electric push rod 104 is started to drive the second connecting plate 1037 to move, the second connecting plate 1037 is moved to drive the tenth transmission rod 1044 to move, the tenth transmission rod 1044 is moved to drive the first bevel gear 106 to move towards the second bevel gear 107, so that the first bevel gear 106 and the second bevel gear 107 are engaged, the first bevel gear 106 rotates to drive the second bevel gear 107 to rotate, the second bevel gear 107 rotates to drive the second transmission rod 108 to rotate, and the second transmission rod 108 rotates to drive the third bevel gear 1024 to rotate, the second transmission rod 108 rotates to drive the first screw rod 1021 to rotate and move downwards at the same time, the first screw rod 1021 rotates to drive the rotating disc 1014, the fixing frame 1015, the first handle 1016, the first electric slide rail 1017, the first electric slide plate 1040, the first ceramic bottle 1041, the ceramic fixing plate 1042 and the second ceramic bottle 1043 to rotate, and the glaze slip is fully distributed in the ceramic blank body by using centrifugal force; due to the supporting and limiting effects of the first support rod 1011, the second support rod 1018, the first elastic rod 1012 and the second elastic rod 1019, after the parts above the first lead screw 1021 and the rotating disc 1014 move downwards for a distance reaching the maximum deformation amount of the elastic rods, the second transmission rod 108 itself also moves downwards, due to the sliding protrusions arranged at the joints of the second transmission rod 108 with the bearings on the second bevel gear 107, the third bevel gear 1024 and the sixth connecting plate 1039, the second transmission rod 108 drives the second bevel gear 107, the third bevel gear 1024 and the sixth connecting plate 1039 to move downwards when moving downwards, but due to the limiting effect of the second bearing 1022, the second bevel gear 107 does not move downwards but continues to be engaged with the first bevel gear 106, while the third bevel gear 1024 moves downwards to a position engaged with the fourth bevel gear 1025, the second transmission rod 108 is separated from the first lead screw 1021, therefore, the part driven by the first lead screw 1021 stops rotating, the third bevel gear 1024 rotates to drive the fourth bevel gear 1025 to rotate, the fourth bevel gear 1025 rotates to drive the third transmission rod 1026 to rotate, the third transmission rod 1026 rotates to drive the second transmission wheel 1036 to rotate, the second transmission wheel 1036 rotates to drive the first transmission wheel 1027 to rotate, the first transmission wheel 1027 rotates to drive the fourth transmission rod 1028 to rotate, the fourth transmission rod 1028 rotates to drive the second lead screw 1031, the rotary cylinder 1032, the second electric slide rail 1033, the first electric clamp 1034 and the second electric clamp 1035 to move, when the part moves to 1015, the first electric clamp fixing frame 1035 and the second electric clamp 1035 move to start to grab and fix the part, and then the fixing frame 1015 and the ceramic bottle inside the ceramic bottle are continuously moved to be conveyed into the glaze removing mechanism 3 to remove residual glaze; after the fixing frame 1015 and the ceramic bottles therein reach the designated position, the first electric push rod 104 is started to drive the second connecting plate 1037 to move, the second connecting plate 1037 drives the tenth transmission rod 1044 to move, the tenth transmission rod 1044 drives the first bevel gear 106 to move, so that the first bevel gear 106 is separated from the second bevel gear 107, the second bevel gear 107 stops rotating, and finally the fixing frame 1015 and the ceramic bottles therein stop at the designated position; after the glaze removing mechanism 3 finishes removing the residual glaze, the first electric push rod 104 is started to enable the first bevel gear 106 and the second bevel gear 107 to be in a meshed state, meanwhile, the motor 101 rotates reversely to drive the second screw 1031, the rotary cylinder 1032, the second electric slide rail 1033, the first electric clamp 1034 and the second electric clamp 1035 to move back for resetting, after the resetting is completed, the second electric push rod 1023 is started to drive the second transmission rod 108 to move upwards, the second transmission rod 108 moves upwards to drive the third bevel gear 1024 to move, so that the third bevel gear 1024 is separated from the fourth bevel gear 1025, and the fourth bevel gear 1025 stops rotating, and finally the motor 101 rotates reversely to drive the second screw 1031, the rotary cylinder 1032, the second electric slide rail 1033, the first electric clamp 1034 and the second electric clamp 1035 to stop moving, the second transmission rod 108 moves upwards to be connected with the first screw 1021 for resetting, and the motor 101 stops rotating after the resetting is completed.

According to the invention, the glaze conveying mechanism 2 further comprises a glaze barrel 201, a switch 202, a second injection pipe 203, a hose 204, a third electric slide rail 205, a second electric slide plate 206, a sixth electric push rod 207, a first injection pipe 208 and a shunt pipe 209; a third electric slide rail 205 is arranged below the glaze barrel 201; one end of the switch 202 is connected with the glaze barrel 201; the other end of the switch 202 is connected with a hose 204; the hose 204 is connected to a shunt tube 209; the lower part of the third electric slide rail 205 is connected with the second electric slide plate 206 in a sliding way; the lower part of the second electric sliding plate 206 is connected with a sixth electric push rod 207; the lower part of the sixth electric push rod 207 is connected with a shunt pipe 209; the lower side of the shunt pipe 209 is connected with the first injection pipe 208; the other side below the shunt pipe 209 is connected with a second injection pipe 203; the lower part of the glaze barrel 201 is connected with a first supporting plate 1030; the outer surface of the third electric slide rail 205 is connected with the first support plate 1030.

After the ceramic bottle is fixed in the glaze swinging mechanism 1, the second electric sliding plate 206 is started to drive the second injection tube 203, the first injection tube 208 and the shunt tube 209 to move to the upper part of the ceramic bottle along the third electric sliding rail 205, then the switch 202 is started to inject glaze slurry into the ceramic bottle, the switch 202 is closed after the injection is finished, finally the second electric sliding plate 206 is started to drive the second injection tube 203, the first injection tube 208 and the shunt tube 209 to move back for resetting, and the action is stopped after the resetting is finished.

The glaze removing mechanism 3 further comprises a third driving wheel 301, a fourth driving wheel 302, a fifth driving rod 303, a fifth driving wheel 304, a sixth driving wheel 305, a sixth driving rod 306, a fifth bevel gear 307, a sixth bevel gear 308, a second sleeve rod 309, a seventh driving rod 3010, a third connecting plate 3011, a seventh bevel gear 3012, an eighth bevel gear 3013, an eighth driving rod 3014, a seventh driving wheel 3015, an eighth driving wheel 3016, a ninth driving rod 3017, a glaze discharging pipe 3018, a glaze recycling box 3019, a third base 3020, a third electric push rod 3021, a fourth base 3022, a first residual glaze removing mechanism 3023, a second residual glaze removing mechanism 3024 and a glaze collecting barrel 3025; the outer annular surface of the third driving wheel 301 is in transmission connection with a fourth driving wheel 302 through a belt; the axle center of the third driving wheel 301 is rotationally connected with the fifth transmission rod 303; the surface of the fifth transmission rod 303 is rotationally connected with a fifth transmission wheel 304; the outer annular surface of the fifth driving wheel 304 is in driving connection with a sixth driving wheel 305 through a belt; the axis of the sixth transmission wheel 305 is rotationally connected with the sixth transmission rod 306; the axis of the sixth transmission rod 306 is rotationally connected with a fifth bevel gear 307; the fifth bevel gear 307 meshes with the sixth bevel gear 308; the axis of the sixth bevel gear 308 is rotatably connected with a seventh transmission rod 3010; the interior of the second loop bar 309 is rotatably connected with a seventh transmission rod 3010; the outer surface of the seventh transmission rod 3010 is rotatably connected with the third connecting plate 3011; the outer surface of the seventh transmission rod 3010 is rotatably connected with a seventh bevel gear 3012; the outer surface of the third connecting plate 3011 is in transmission connection with a third electric push rod 3021; the third electric push rod 3021 is welded with the fourth base 3022; seventh bevel gear 3012 meshes with eighth bevel gear 3013; the axis of the eighth bevel gear 3013 is rotatably connected to an eighth transmission rod 3014; the outer surface of the eighth transmission rod 3014 is rotatably connected with the seventh transmission wheel 3015; the outer surface of the eighth transmission rod 3014 is rotatably connected with the glaze recovery box 3019; the outer surface of the eighth transmission rod 3014 is in transmission connection with the first residual glaze removing mechanism 3023; the outer surface of the eighth transmission rod 3014 is in transmission connection with the third base 3020; the outer ring surface of the seventh driving wheel 3015 is in transmission connection with the eighth driving wheel 3016 through a belt; the axle center of the eighth driving wheel 3016 is in driving connection with the ninth driving rod 3017; the outer surface of the ninth transmission rod 3017 is in transmission connection with the third base 3020; the outer surface of the ninth transmission rod 3017 is in transmission connection with the second residual glaze removing mechanism 3024; a glaze recovery box 3019 is arranged above the glaze discharging pipe 3018; a glaze material collecting barrel 3025 is arranged below the glaze discharging pipe 3018; the axle center of the fourth driving wheel 302 is rotationally connected with the first driving rod 102; the lower part of the third base 3020 is connected with the supporting mechanism 4; the lower part of the fourth base 3022 is connected with the supporting mechanism 4; the lower part of the glaze material collecting barrel 3025 is connected with the supporting mechanism 4; the outer surface of the sixth transmission rod 306 is connected with the supporting mechanism 4; the outer surface of the second loop bar 309 is connected with the supporting mechanism 4; the outer surface of the seventh transmission rod 3010 is connected with the supporting mechanism 4; the outer surface of the fifth transmission rod 303 is connected to the support mechanism 4.

Finally, removing redundant glaze slip, wherein after the ceramic bottle is moved to a specified position by the glaze swinging mechanism 1, the rotary cylinder 1032 rotates one hundred eighty degrees to enable the bottle mouth to face downwards, most of the glaze slip flows out of the glaze recovery box 3019 and then flows into the glaze collection barrel 3025 through the glaze discharging pipe 3018 to be recovered; for the ceramic bottle with the inner hook design, residual glaze slip is arranged at the opening of the ceramic bottle and needs to be further removed; firstly, the third electric push rod 3021 is started to drive the third connecting plate 3011 to move, the third connecting plate 3011 moves to drive the seventh transmission rod 3010 to move, and since the connection between the seventh transmission rod 3010 and the second sleeve rod 309 is provided with a sliding projection, the seventh transmission rod 3010 and the second sleeve rod can slide while rotating, the seventh transmission rod 3010 moves to drive the sixth bevel gear 308 to move so as to be meshed with the fifth bevel gear 307, and drives the seventh bevel gear 3012 to move so as to be meshed with the eighth bevel gear 3013; the first transmission rod 102 is linked with the fourth transmission wheel 302 to rotate, the fourth transmission wheel 302 rotates to drive the third transmission wheel 301 to rotate, the third transmission wheel 301 rotates to drive the fifth transmission rod 303 to rotate, the fifth transmission rod 303 rotates to drive the fifth transmission wheel 304 to rotate, the fifth transmission wheel 304 rotates to drive the sixth transmission wheel 305 to rotate, the sixth transmission wheel 305 rotates to drive the sixth transmission rod 306 to rotate, the sixth transmission rod 306 rotates to drive the fifth bevel gear 307 to rotate, the fifth bevel gear 307 rotates to drive the sixth bevel gear 308 to rotate, the sixth bevel gear 308 rotates to drive the seventh transmission rod 3010 to rotate, the seventh transmission rod 3010 rotates to drive the seventh bevel gear 3012 to rotate, the seventh bevel gear 3012 rotates to drive the eighth bevel gear 3013 to rotate, the eighth bevel gear 3013 drives the eighth transmission rod 3014 to rotate, the eighth transmission rod 3014 rotates to drive the seventh transmission wheel 3015 to rotate, the seventh transmission wheel 3015 rotates to drive the eighth transmission wheel 3016 to rotate, the eighth driving wheel 3016 rotates to drive the ninth driving rod 3017 to rotate, the eighth driving rod 3014 and the ninth driving rod 3017 rotate to drive the first residual glaze removing mechanism 3023 and the second residual glaze removing mechanism 3024 to move upwards at the same time to remove residual glaze on the bottleneck, after moving to a specified position, the third electric push rod 3021 starts to drive the third connecting plate 3011 to move, the third connecting plate 3011 moves to drive the seventh driving rod 3010 to move, the seventh driving rod 3010 moves to drive the sixth bevel gear 308 to move so that the sixth bevel gear 308 and the fifth bevel gear 307 are changed from an engaged state to a separated state, and drive the seventh bevel gear 3012 to move so that the seventh bevel gear 3013 and the eighth bevel gear are changed from an engaged state to a separated state, and then return to the engaged state after the residual glaze on the bottleneck is removed; then the motor 101 rotates reversely to drive the first residual glaze removing mechanism 3023 and the second residual glaze removing mechanism 3024 to move back for a reset action, after the reset action is completed, the third electric push rod 3021 is started to separate the sixth bevel gear 308 from the fifth bevel gear 307, and the seventh bevel gear 3012 is separated from the eighth bevel gear 3013.

In the present invention, the first surplus glaze removing mechanism 3023 further includes a third lead screw 302301, a second supporting plate 302302, a first cross bar 302303, a first tap rod 302304, a second cross bar 302305, a second tap rod 302306, a first baffle 302307, a second baffle 302308, a first small supporting plate 302309, a first thin rod 3023010, a fourth connecting plate 3023011, a third sleeve 3023012, a first movable cone 3023013, a first elastic silica gel sleeve 3023014, a first rotating rod 3023015, a second rotating rod 3023016, and a fourth electric push rod 3023017; one side of the third lead screw 302301 is welded with the first cross bar 302303; the other side of the third lead screw 302301 is connected with a second cross bar 302305; the upper part of the third screw 302301 is welded with the first small support plate 302309; one side of the second supporting plate 302302 is rotatably connected with the first rotating rod 3023015; the other side of the second support plate 302302 is rotatably connected with the second rotating rod 3023016; the outer surface of the first cross bar 302303 is welded with the first tap lever 302304; a first baffle 302307 is arranged above the first poke rod 302304; the outer surface of the second cross bar 302305 is welded with the second poke rod 302306; a second baffle 302308 is arranged above the second poke rod 302306; the outer surface of the first baffle 302307 is rotatably connected with the first rotating rod 3023015; the outer surface of the second flap 302308 is rotatably coupled to the second rotating shaft 3023016; one side of the first small support plate 302309 is welded with the first thin rod 3023010; the other side of the first small support plate 302309 is connected with a fourth electric push rod 3023017; the upper part of the first thin rod 3023010 is in transmission connection with a third sleeve rod 3023012; one side of the fourth connecting plate 3023011 is connected with the third sleeve rod 3023012; the other side of the fourth connecting plate 3023011 is connected with a fourth electric push rod 3023017; the third sleeve 3023012 is connected to the first mobile vertebral body 3023013; the first movable cone 3023013 is connected with a first elastic silica gel sleeve 3023014; the lower part of the second supporting plate 302302 is connected with a glaze recovery box 3019; the lower part of the third screw 302301 is screwed with an eighth transmission rod 3014.

Finally, residual glaze at the bottle mouth is removed, the eighth transmission rod 3014 rotates to drive the third lead screw 302301 to move upwards, the third lead screw 302301 moves upwards to drive the first cross rod 302303, the first poking rod 302304, the second cross rod 302305, the second poking rod 302306, the first small support plate 302309, the first thin rod 3023010, the fourth connecting plate 3023011, the third sleeve rod 3023012, the first movable cone 3023013, the first elastic silica gel sleeve 3023014 and the fourth electric push rod 3023017 to move upwards; then, the fourth electric push rod 3023017 is started to drive the fourth connecting plate 3023011 to move upwards, the fourth connecting plate 3023011 moves upwards to drive the third sleeve rod 3023012 to move upwards, the third sleeve rod 3023012 moves upwards to drive the first movable cone 3023013 to move upwards, the first movable cone 3023013 moves upwards and is limited by the first elastic silica gel sleeve 3023014 so as to disperse around, the first elastic silica gel sleeve 3023014 is forced to expand outwards until the inner wall of the blank body, residual glaze on the bottle mouth is extruded in the expanding process, the cleaning purpose is achieved, the fourth electric push rod 3023017 moves downwards after the cleaning is finished, the fourth electric push rod 3023017 moves downwards to drive the first movable cone 3023013 to move downwards, and the first movable cone 3023013 moves downwards to restore the first elastic silica gel sleeve 3023014; the first baffle 302307 and the second baffle 302308 function to prevent the silica gel sleeve from being excessively wetted by the poured glaze slip, and the first elastic silica gel sleeve 3023014 is separated from the second shifting rod 302306 by the first shifting rod 302304 while moving upward, so that the first elastic silica gel sleeve 3023014 can move conveniently.

In the present invention, the second surplus glaze removing mechanism 3024 further includes a fourth screw rod 302401, a third supporting plate 302402, a third cross bar 302403, a third toggle rod 302404, a fourth cross bar 302405, a fourth toggle rod 302406, a third baffle 302407, a fourth baffle 302408, a second small supporting plate 302409, a second thin rod 3024010, a fifth connecting plate 3024011, a fourth set of rods 3024012, a second movable cone 3024013, a second elastic silica gel sleeve 3024014, a third rotating rod 3024015, a fourth rotating rod 3024016, and a fifth electric push rod 3024017; one side of the fourth screw rod 302401 is welded with the third cross bar 302403; the other side of the fourth screw rod 302401 is welded with a fourth cross bar 302405; the upper part of the fourth screw rod 302401 is welded with the second small support plate 302409; one side of the third support plate 302402 is rotatably connected to the third rotating lever 3024015; the other side of the third supporting plate 302402 is rotatably connected with the fourth rotating rod 3024016; the outer surface of the third cross bar 302403 is welded with the third poke rod 302404; a third baffle 302407 is arranged above the third poke rod 302404; the outer surface of the fourth cross bar 302405 is welded with the fourth shifting rod 302406; a fourth baffle 302408 is arranged above the fourth poke rod 302406; the outer surface of the third flap 302407 is rotatably coupled to the third rotating shaft 3024015; the outer surface of the fourth flap 302408 is rotatably coupled to the fourth rotating shaft 3024016; a second thin rod 3024010 is welded above the second small support plate 302409; the fifth connecting plate 3024011 is connected with the fourth sleeve rod 3024012; one side of the fifth connecting plate 3024011 is connected with a fifth electric push rod 3024017; the other side of the fifth connecting plate 3024011 is connected with a fourth sleeve rod 3024012; the fourth set of rods 3024012 is connected to the second mobile vertebral body 3024013; the second movable cone 3024013 is connected with a second elastic silica gel sleeve 3024014; the lower part of the third supporting plate 302402 is connected with a glaze recovery box 3019; the lower part of the fourth screw rod 302401 is screwed with the ninth transmission rod 3017.

The ninth driving rod 3017 rotates to drive the fourth screw rod 302401 to move upward, the fourth screw rod 302401 moves upward to drive the third cross bar 302403, the third toggle rod 302404, the fourth cross bar 302405, the fourth toggle rod 302406, the second small support plate 302409, the second thin rod 3024010, the fifth connecting plate 3024011, the fourth set rod 3024012, the second movable vertebral body 3024013, the second elastic silica gel sleeve 3024014, and the fifth electric push rod 3024017 to move upward; then the fifth electric push rod 3024017 is started to drive the fifth connecting plate 3024011 to move upwards, the fifth connecting plate 3024011 moves upwards to drive the fourth connecting plate 3024012 to move upwards, the fourth connecting plate 3024012 moves upwards to drive the second movable cone 3024013 to move upwards, the second movable cone 3024013 moves upwards as the upper part of the second movable cone is limited by the second elastic silica gel sleeve 3024014 so as to disperse around, the second elastic silica gel sleeve 3024014 is forced to expand outwards until the inner wall of the blank body, the residual glaze of the bottle mouth is squeezed out in the expanding process, so as to achieve the purpose of clearing, the fifth electric push rod 3024017 moves downwards after clearing is finished, the fifth electric push rod 3024017 moves downwards to drive the second movable cone 3024013 to move downwards, the second movable cone 3024013 moves downwards to restore the first elastic silica gel sleeve 3023014, the third baffle 302407 and the fourth baffle 302408 function to prevent the silica gel sleeve from being excessively wetted by the poured glaze slurry, when the second elastic silica gel sleeve 3024014 moves upwards, the third moving rod 302404 and the fourth shifting rod 302406 separate, the second elastic silicone sleeve 3024014 is convenient to move.

The rotating disc 1014 is provided with an annular chute as described herein.

The rotating action of the rotating disc 1014 may be facilitated.

According to the invention, the first elastic silica gel sleeve 3023014 and the second elastic silica gel sleeve 3024014 are approximately in a shape of a truncated cone.

The glaze color on the surfaces of other parts except the cleaning part can be prevented from being rubbed by other parts except the cleaning part when the first elastic silica gel sleeve 3023014 and the second elastic silica gel sleeve 3024014 enter the ceramic bottle.

According to the invention, a first baffle 302307 and a second baffle 302308 are arranged above the first elastic silicone rubber sleeve 3023014, and a third baffle 302407 and a fourth baffle 302408 are arranged above the second elastic silicone rubber sleeve 3024014.

The cleaning effect can be prevented from being influenced by the soaking of the silica gel sleeve by the poured glaze slip.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (4)

1. The utility model provides a pottery is swung glaze device, is including supporting mechanism and control panel, its characterized in that: the glaze spraying device also comprises a glaze swinging mechanism, a glaze conveying mechanism and a glaze material removing mechanism; one side of the glaze swinging mechanism is connected with the glaze conveying mechanism; the other side of the glaze swinging mechanism is connected with a glaze removing mechanism; the lower part of the glaze swinging mechanism is connected with the supporting mechanism; the lower part of the glaze removing mechanism is connected with the supporting mechanism; a control screen is arranged above the supporting mechanism;

the glaze swinging mechanism also comprises a motor, a first transmission rod, a first loop bar, a first electric push rod, a first bearing, a first bevel gear, a second transmission rod, a first supporting seat, a second base, a first supporting rod, a first elastic rod, a first supporting disc, a rotating disc, a fixing frame, a first handle, a first electric slide rail, a second supporting rod, a second elastic rod, a second supporting disc, a first screw rod and a second bearing, the device comprises a first electric push rod, a first bevel gear, a first transmission rod, a first transmission wheel, a first transmission rod, a first bearing, a first supporting plate, a first screw rod, a rotary cylinder, a first electric slide rail, a first electric clamp, a second electric clamp, a first transmission wheel, a second connecting plate, a first base, a sixth connecting plate, a first electric slide plate, a first ceramic bottle, a ceramic fixing plate, a second ceramic bottle and a tenth transmission rod; the output shaft of the motor is rotationally connected with the first transmission rod; the outer surface of the first transmission rod is rotationally connected with the first sleeve rod; the axle center of the first loop bar is in transmission connection with the tenth transmission bar; the outer surface of the tenth transmission rod is rotatably connected with the second connecting plate; the outer surface of the tenth transmission rod is rotatably connected with the first bearing; the outer surface of the tenth transmission rod is in rotary connection with the first bevel gear; the first electric push rod is welded with the second connecting plate; the first electric push rod is welded with the first base; the outer surface of the first bearing is welded with the first supporting seat; the first bevel gear is meshed with the second bevel gear; the second bevel gear core is rotationally connected with the second transmission rod; the outer surface of the second bevel gear is rotationally connected with the second bearing; the outer surface of the second transmission rod is rotationally connected with the first supporting seat; the inner part of the second transmission rod is connected with the first screw rod in a screwing way; the outer surface of the second transmission rod is rotatably connected with the sixth connecting plate; the outer surface of the second transmission rod is in transmission connection with a third bevel gear; the first supporting seat is welded with the second bearing; the inner part of the first supporting rod is in transmission connection with the first elastic rod; the outer surface of the first support rod is welded with the first support seat; the first elastic rod is welded with the first supporting disc; the upper part of the first supporting disc is in transmission connection with the rotating disc; the upper part of the rotating disc is rotationally connected with the fixed frame; the outer surface of the fixed frame is welded with the first handle; the inner part of the fixing frame is welded with the first electric sliding rail; the interior of the first electric sliding rail is in sliding connection with the first electric sliding plate; the lower part of the first electric slide rail is welded with the ceramic fixing plate; a first ceramic bottle is arranged on one side of the first electric sliding plate; a second ceramic bottle is arranged on the other side of the first electric sliding plate; a first ceramic bottle is arranged on one side of the ceramic fixing plate; a second ceramic bottle is arranged on the other side of the ceramic fixing plate; the outer surface of the second support rod is welded with the first support seat; the inside of the second supporting rod is in transmission connection with the second elastic rod; the upper part of the second elastic rod is welded with the second supporting disk; the upper part of the second supporting disk is in transmission connection with the rotating disk; the first screw rod is in transmission connection with the rotating disc; the lower part of the second electric push rod is welded with the second base; a fourth bevel gear is arranged below the third bevel gear; the axle center of the fourth bevel gear is rotationally connected with the third transmission rod; the outer surface of the third transmission rod is rotationally connected with the second transmission wheel; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the axle center of the first driving wheel is rotationally connected with the fourth driving rod; the outer surface of the fourth transmission rod is rotatably connected with the third bearing; the interior of the fourth transmission rod is connected with the second screw rod in a screwing way; the outer surface of the third bearing is welded with the first supporting plate; one side of the rotary cylinder is in transmission connection with the second screw rod; the other side of the rotary cylinder is rotationally connected with a second electric slide rail; one side of the second electric slide rail is in sliding connection with the first electric clamp; the other side of the second electric sliding rail is in sliding connection with the second electric clamp; the upper part of the first supporting plate is connected with a glaze feeding mechanism; the outer surface of the first transmission rod is connected with the glaze removing mechanism; the lower part of the motor is connected with the supporting mechanism; the lower part of the first supporting seat is connected with a supporting mechanism; the lower part of the second base is connected with the supporting mechanism; the lower part of the first supporting plate is connected with a supporting mechanism; the lower part of the first base is connected with the supporting mechanism; the outer surface of the third transmission rod is rotatably connected with the supporting mechanism; the outer surface of the first transmission rod is rotationally connected with the supporting mechanism;

the glaze conveying mechanism also comprises a glaze barrel, a switch, a second injection pipe, a hose, a third electric slide rail, a second electric slide plate, a sixth electric push rod, a first injection pipe and a shunt pipe; a third electric slide rail is arranged below the glaze barrel; one end of the switch is connected with the glaze barrel; the other end of the switch is connected with the hose; the hose is connected with the shunt pipe; the lower part of the third electric sliding rail is in sliding connection with the second electric sliding plate; the lower part of the second electric sliding plate is connected with a sixth electric push rod; the lower part of the sixth electric push rod is connected with the shunt pipe; one side below the shunt pipe is connected with the first injection pipe; the other side below the shunt pipe is connected with a second injection pipe; the lower part of the glaze barrel is connected with a first supporting plate; the outer surface of the third electric slide rail is connected with the first supporting plate;

the glaze removing mechanism also comprises a third driving wheel, a fourth driving wheel, a fifth transmission rod, a fifth driving wheel, a sixth transmission rod, a fifth bevel gear, a sixth bevel gear, a second loop bar, a seventh transmission rod, a third connecting plate, a seventh bevel gear, an eighth transmission rod, a seventh driving wheel, an eighth driving wheel, a ninth transmission rod, a glaze discharging pipe, a glaze recycling box, a third base, a third electric push rod, a fourth base, a first residual glaze removing mechanism, a second residual glaze removing mechanism and a glaze collecting barrel; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the third driving wheel is rotationally connected with the fifth driving rod; the surface of the fifth transmission rod is rotationally connected with a fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the axis of the sixth driving wheel is rotationally connected with the sixth transmission rod; the axis of the sixth transmission rod is rotationally connected with the fifth bevel gear; the fifth bevel gear is meshed with the sixth bevel gear; the axis of the sixth bevel gear is rotationally connected with the seventh transmission rod; the inner part of the second sleeve rod is rotationally connected with a seventh transmission rod; the outer surface of the seventh transmission rod is rotatably connected with the third connecting plate; the outer surface of the seventh transmission rod is rotationally connected with a seventh bevel gear; the outer surface of the third connecting plate is in transmission connection with a third electric push rod; the third electric push rod is welded with the fourth base; the seventh bevel gear is meshed with the eighth bevel gear; the axle center of the eighth bevel gear is rotationally connected with the eighth transmission rod; the outer surface of the eighth transmission rod is rotationally connected with the seventh transmission wheel; the outer surface of the eighth transmission rod is rotatably connected with the glaze recovery box; the outer surface of the eighth transmission rod is in transmission connection with the first residual glaze removing mechanism; the outer surface of the eighth transmission rod is in transmission connection with the third base; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the axle center of the eighth driving wheel is in transmission connection with the ninth transmission rod; the outer surface of the ninth transmission rod is in transmission connection with the third base; the outer surface of the ninth transmission rod is in transmission connection with the second residual glaze removing mechanism; a glaze recovery box is arranged above the glaze discharge pipe; a glaze collecting barrel is arranged below the glaze discharging pipe; the axle center of the fourth driving wheel is rotationally connected with the first driving rod; the lower part of the third base is connected with the supporting mechanism; the lower part of the fourth base is connected with the supporting mechanism; the lower part of the glaze collecting barrel is connected with a supporting mechanism; the outer surface of the sixth transmission rod is connected with the supporting mechanism; the outer surface of the second sleeve rod is connected with the supporting mechanism; the outer surface of the seventh transmission rod is connected with the supporting mechanism; the outer surface of the fifth transmission rod is connected with the supporting mechanism;

the first residual glaze removing mechanism also comprises a third screw rod, a second supporting plate, a first cross rod, a first poking rod, a second cross rod, a second poking rod, a first baffle, a second baffle, a first supporting small plate, a first thin rod, a fourth connecting plate, a third sleeve rod, a first movable cone, a first elastic silica gel sleeve, a first rotating rod, a second rotating rod and a fourth electric push rod; one side of the third screw rod is welded with the first cross rod; the other side of the third screw rod is connected with a second cross rod; the upper part of the third screw rod is welded with the first small support plate; one side of the second supporting plate is rotationally connected with the first rotating rod; the other side of the second supporting plate is rotatably connected with the second rotating rod; the outer surface of the first cross rod is welded with the first poke rod; a first baffle is arranged above the first poke rod; the outer surface of the second cross rod is welded with the second poke rod; a second baffle is arranged above the second poke rod; the outer surface of the first baffle is rotationally connected with the first rotating rod; the outer surface of the second baffle is rotatably connected with the second rotating rod; one side of the first small support plate is welded with the first thin rod; the other side of the first small support plate is connected with a fourth electric push rod; the upper part of the first thin rod is in transmission connection with the third sleeve rod; one side of the fourth connecting plate is connected with the third sleeve rod; the other side of the fourth connecting plate is connected with a fourth electric push rod; the third loop bar is connected with the first movable cone; the first movable cone is connected with the first elastic silica gel sleeve; the lower part of the second supporting plate is connected with a glaze recovery box; the lower part of the third screw rod is in screwed connection with an eighth transmission rod;

the second residual glaze removing mechanism also comprises a fourth screw rod, a third supporting plate, a third cross rod, a third poking rod, a fourth cross rod, a fourth poking rod, a third baffle, a fourth baffle, a second supporting small plate, a second thin rod, a fifth connecting plate, a fourth sleeve rod, a second movable cone, a second elastic silica gel sleeve, a third rotating rod, a fourth rotating rod and a fifth electric push rod; one side of the fourth screw rod is welded with the third cross rod; the other side of the fourth screw rod is welded with a fourth cross rod; the upper part of the fourth screw rod is welded with the second small support plate; one side of the third supporting plate is rotatably connected with the third rotating rod; the other side of the third supporting plate is rotatably connected with a fourth rotating rod; the outer surface of the third cross rod is welded with the third poke rod; a third baffle is arranged above the third poke rod; the outer surface of the fourth cross rod is welded with the fourth poke rod; a fourth baffle is arranged above the fourth poke rod; the outer surface of the third baffle is rotatably connected with the third rotating rod; the outer surface of the fourth baffle is rotatably connected with the fourth rotating rod; welding the upper part of the second small support plate with a second thin rod; the fifth connecting plate is connected with the fourth sleeve rod; one side of the fifth connecting plate is connected with a fifth electric push rod; the other side of the fifth connecting plate is connected with the fourth sleeve rod; the fourth loop bar is connected with the second movable cone; the second movable cone is connected with the second elastic silica gel sleeve; the lower part of the third supporting plate is connected with a glaze recovery box; and the lower part of the fourth screw rod is in screwed connection with a ninth transmission rod.

2. The ceramic glaze oscillating device according to claim 1, wherein: the rotating disc is provided with an annular chute.

3. The ceramic glaze oscillating device according to claim 2, wherein: the first elastic silica gel sleeve and the second elastic silica gel sleeve are approximately in the shape of a truncated cone.

4. A ceramic glaze oscillating device according to claim 3, wherein: a first baffle and a second baffle are arranged above the first elastic silica gel sleeve, and a third baffle and a fourth baffle are arranged above the second elastic silica gel sleeve.

Images