CN116460987B

CN116460987B - Glaze device for ceramic manufacture

Info

Publication number: CN116460987B
Application number: CN202310351798.3A
Authority: CN
Inventors: 张七林
Original assignee: Jiangxi Qinyuanchun Ceramics Co ltd
Current assignee: Jiangxi Qinyuanchun Ceramics Co ltd
Priority date: 2023-04-04
Filing date: 2023-04-04
Publication date: 2024-04-09
Anticipated expiration: 2043-04-04
Also published as: CN116460987A

Abstract

The invention discloses a glaze device for ceramic manufacture, which comprises a support frame, wherein the inner side of the support frame is hinged with a protective cover, three transmission rope shafts are connected in a rotating way on the side wall of the protective cover, the outer side of each transmission rope shaft is provided with a transmission rope, the inner side surface of the protective cover is fixedly connected with a slide bar guide rail, the inner side of each slide bar guide rail is connected with two side sliding guide rods in a sliding way, the side surface of each sliding guide rod is fixedly connected with a pull rod spring, the tail end of each transmission rope is fixedly connected with a fixed rope push rod, and the outer side of each sliding guide rod is connected with a slide bar plate in a sliding way.

Description

Glaze device for ceramic manufacture

Technical Field

The invention relates to the technical field of ceramic processing, in particular to a glaze device for ceramic manufacture.

Background

After ceramic is processed and formed, a layer of glaze is required to be smeared on the surface to ensure the smoothness of the container, the integral aesthetic feeling of the ceramic container is improved, and the ceramic is different in form and size and is required to be regulated according to different ceramic wares during glazing so as to ensure the uniformity of the glaze.

The invention patent with the application number of CN201910723304.3 discloses an anti-drip device glaze throwing device for ceramic manufacture, wherein a shell is fixedly arranged on the upper surface of a fixing frame, a movable plate is slidably arranged in the middle of a groove of the shell, buoyancy balls are fixedly arranged on the lower surfaces of two ends of the movable plate, two symmetrical fixing blocks are fixedly arranged in the middle of the upper surface of the movable plate, two symmetrical guide pipes are inserted in the middle of the groove of the shell, and a glaze throwing spray head is fixedly arranged at one end of each guide pipe close to the corresponding fixing block. According to the invention, most of accumulated glaze water can be effectively led down through the inclination of the cabinet cover, and then the fixed column, the water guide frame, the movable rod, the water absorption ball and the water absorption rod are matched for use, so that if a small amount of glaze water falls down from the cabinet cover, the glaze water can be blocked through the water guide frame, the condition that the glaze is directly crashed onto ceramics and influenced on the ceramics is avoided, the condition that glaze slurry is dripped from the cabinet cover is avoided, the condition that the glaze is not dripped onto the blank surface is ensured, the consistency of the glaze thickness of the blank surface is ensured, the attractive appearance and the qualification rate of products are improved, the problem that excessive glaze slurry is easy to drip is solved, the thickness of the coated glaze surface is uneven is solved, and the ceramic glaze manufacturing device with strong practicality and strong fitting property is very necessary.

Disclosure of Invention

The present invention is directed to a glaze device for ceramic manufacture, which solves the problems set forth in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a glaze device for ceramic manufacture, includes the support frame, the inboard of support frame articulates and is connected with the protection casing, the lateral wall internal rotation of protection casing is connected with three transmission cable axostylus axostyle, the outside of transmission cable axostylus axostyle is provided with the driving cable, the medial surface fixedly connected with slide bar guide rail of protection casing, the inboard sliding connection of slide bar guide rail has both sides sliding guide, the side fixedly connected with pull rod spring of sliding guide, the terminal fixedly connected with fixed cable push rod of driving cable, sliding guide's outside sliding connection has the slide bar board, the side sliding connection of slide bar board has the glaze piece of inhaling, the outside of fixed cable push rod is provided with the ejector pad spring, the transmission cable axostylus axostyle distributes and is located slide bar guide rail's upper and lower both ends and intermediate position, the pull rod spring is located two the inboard of sliding guide bar, ejector pad spring one end and the glaze piece fixed connection, and the slide bar board fixed connection, and through above-mentioned structure, the motor drive output shaft connection's transmission cable axostylus axostyle outside through the protection casing rotates, and let the terminal fixedly connected with the driving cable push rod move to the fixed cable push rod, and the displacement of fixed cable push rod, the fixed cable push rod moves simultaneously, the outer diameter of the ceramic article is passed the inside the sliding guide rail and the slip plate at the inside the sliding guide bar, and the slip article is moved along the sliding plate, and the inside the sliding plate is moved outside the sliding plate, and the glaze piece is moved along the sliding plate, and the inside the sliding plate is moved by the sliding plate, and the inside the sliding plate.

The bottom of the protective cover is provided with a clamping device, the clamping device comprises a poking rod, the outer side of the poking rod is provided with a vertical groove push rod, the front end of the vertical groove push rod is fixedly connected with a driving toothed plate, the top surface of the driving toothed plate is provided with a supporting bottom plate, the side surface of the driving toothed plate is in meshed connection with a transmission gear, the other side of the transmission gear is in meshed connection with a pushing toothed rod, the left side of the pushing toothed rod is fixedly connected with a spring connecting rod, the right end of the spring connecting rod is in sliding connection with a sliding rod pushing block, the top end of the sliding rod pushing block is fixedly connected with a transverse groove rod, the inner side of the transverse groove rod is in sliding connection with an extrusion guide rod, the outer side of the bottom end of the extrusion guide rod is in sliding connection with a guide groove frame disc, the tail end of the extrusion guide rod is in rotating connection with a rotating wheel rubber belt, the poking rod is in fixed connection with the protective cover, and the driving toothed plate is in sliding connection with the supporting bottom plate, the push rack is connected with the supporting bottom plate in a sliding way, the bottom side of the supporting bottom plate is provided with a sliding groove, the sliding rod push block slides with the supporting bottom plate through the sliding groove, the guide groove frame disk is fixedly connected with the supporting bottom plate, the center of the guide groove frame disk is rotationally connected with a disk driving rotating shaft, the outer side surface of the disk driving rotating shaft is fixedly connected with a rotating shaft disk, the inner side of the rotating shaft disk is connected with a bottom clamping elastic block in a sliding way, the inner side of the bottom clamping elastic block is provided with an elastic block spring, one end of the elastic block spring is fixedly connected with the rotating shaft disk, the other end of the elastic block spring is fixedly connected with the bottom clamping elastic block, the protective cover is closed and drives the bottom connected toggle rod to swing, so that the swinging toggle rod pushes the vertical groove push rod and the driving toothed plate to slide, the driving toothed plate is driven to move, the driving gear drives the push rack to push the spring connecting rod to move, when the runner rubber belt contacts with the bottom of the ceramic container, as the spring is arranged outside the spring connecting rod, when the sliding rod pushing block sliding outside the spring connecting rod is subjected to resistance, the pushing tooth bar pushes the spring connecting rod to slide with the sliding rod pushing block and squeeze the spring, the sliding rod pushing block moves the transverse groove rod in the moving process, then the squeezing guide rod connected with the inner side of the transverse groove rod slides along the guide groove frame disc, and then the bottom of the container is squeezed tightly through the runner rubber belt at the tail end of the squeezing guide rod, and meanwhile, when the container is placed outside the rotating shaft disc, the bottom of the card is squeezed by the ceramic bottom to shrink inwards and squeeze the spring of the spring, the spring of the spring releases elasticity to enable the bottom of the card to squeeze the bottom of the container to be fixed, and when the rotating shaft of the driving disc rotates slowly, the rotating shaft disc is driven by the rotating shaft of the driving disc to rotate in an auxiliary way.

The top fixedly connected with discharging device of protection casing, discharging device includes linkage pendulum rod, linkage pendulum rod's outside sliding connection has the swing push pedal, the side fixedly connected with piston push rod of swing push pedal, piston push rod's outside is provided with the pushing ram, pushing ram's top surface fixedly connected with workbin, the top surface fixedly connected with inlet port of workbin, the inside top surface fixedly connected with vortex flabellum of workbin, the axle center department fixedly connected with puddler of vortex flabellum, pushing ram's top is provided with the one-way material valve, the outside of vortex flabellum is provided with the water conservancy diversion end shell, and water conservancy diversion end shell and workbin fixed connection, pushing ram's bottom surface is provided with the conveying pipeline, and the other end and the glaze suction piece intercommunication of conveying pipeline, through above-mentioned structure, when the protection casing deflects, the fixed linkage pendulum rod in protection casing top will promote the piston push ram motion, and then let the piston push ram inboard material pass through the output tube, when the protection casing is opened, the piston push ram draws the material piston to let the material piston push ram let the material through the vortex piston in the vortex flow state, the vortex flow when the material piston passes through the axial flow through the material inlet port, the vortex flow reduction box rotates the material, the vortex material is passed through the inside the material tank when the vortex flow reduction box, the material is in the end is opened through the material through the side of the material tank, and the vortex material is in the air-cooled down, the material is in the air-phase when the material is in the air-phase through the top box, and the vortex material is in the air-cooled down the inside the material through the air tank.

According to the technical scheme, be provided with the air-drying device under the workbin, the air-drying device includes the solid frame of fan, the both sides face fixedly connected with circular telegram contact of the solid frame of fan, the air-drying flabellum is installed to the inboard of the solid frame of fan, the bottom side fixedly connected with heater strip of air-drying flabellum, the solid frame of fan and workbin bottom surface fixed connection, the solid frame of fan agrees with protection casing top side mutually, through above-mentioned structure, when the both sides protection casing is close to each other, the protection casing side contacts with the circular telegram contact of the solid frame side of fan, and then lets circular telegram contact be in the access state, and then lets the air-drying flabellum and the heater strip operation of the solid frame of fan to let the hot-blast along the container outside flow that blows, promote the drying and the shaping efficiency of smearing material.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the sliding guide rod, the pull rod spring, the fixed cable push rod, the slide rod plate, the glaze suction block and the push block spring are arranged, the rope structure is utilized to drive the rod-shaped structure to move along the irregular groove, so that the bonding degree of the smearing structure and the surface of the container is improved, the smearing is more uniform, and meanwhile, the device is suitable for processing containers with different shapes and sizes, and the application range is wide.

According to the invention, the toggle rod, the vertical groove push rod, the driving toothed plate, the transmission gear, the pushing toothed bar, the spring connecting rod, the sliding bar pushing block, the transverse groove rod, the extrusion guide rod and the runner rubber belt are arranged, the force is applied in the direction of the driving structure of the closed structure, so that the force application driving structure is enabled to slide to realize automatic clamping, and the auxiliary rotating structure is matched, thereby improving the smearing effect.

According to the invention, through the arrangement of the linkage swing rod, the swing push plate, the pushing piston, the feed box, the air inlet port, the vortex fan blade, the stirring rod, the one-way material valve and the piston push rod, the operation of the protection structure is utilized to push the piston structure to operate, so that the material filling is realized, the material is output in advance before processing, the air pressure change in the container is utilized to drive the air to flow, and the structure operation of stirring the material is driven by the air flow, so that the material precipitation is prevented.

According to the invention, the fan fixing frame, the power-on contact piece, the air-drying fan blade and the heating wire are arranged, and the state of the structure driving control circuit is utilized, so that the heating and air-drying operation is controlled in real time, the drying and shaping efficiency is improved, and the phenomenon that the overall finished product quality is influenced due to the adhesion of sundries is prevented.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall front perspective of the present invention;

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

FIG. 3 is a schematic view of the bottom of the support frame of the present invention;

FIG. 4 is a schematic view of the structure of the clamping device of the present invention;

FIG. 5 is a schematic view of the structure of the discharging device of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5A according to the present invention;

in the figure: 1. a support frame; 2. a toggle rod; 3. a cable transmission shaft lever; 4. a driving cable; 5. a clamping device; 51. a protective cover; 52. a vertical groove push rod; 53. driving the toothed plate; 54. a transmission gear; 55. a pushing tooth bar; 56. a spring link; 57. a slide bar pushing block; 58. a transverse slot rod; 59. extruding a guide rod; 510. a rubber belt of a rotating wheel; 511. a guide groove tray; 512. a rotating shaft disc; 513. a bottom clamping spring block; 514. a spring block spring; 515. a driving disc rotating shaft; 6. a discharging device; 61. linkage swing rod; 62. swinging the push plate; 63. pushing the material piston; 64. a feed box; 65. an air inlet port; 66. vortex fan blades; 67. an agitating rod; 68. a one-way material valve; 69. a piston push rod; 7. a slide bar guide rail; 8. an air drying device; 81. a fan fixing frame; 82. energizing the contact; 83. air-drying the fan blades; 84. a heating wire; 9. a sliding guide rod; 10. a pull rod spring; 11. a fixed cable push rod; 12. a slide bar plate; 13. a glaze sucking block; 14. and a push block spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: the glaze device for ceramic manufacture comprises a support frame 1, wherein the inner side of the support frame 1 is hinged with a protective cover 51, the side wall of the protective cover 51 is rotationally connected with three transmission rope shaft rods 3, the outer side of the transmission rope shaft rods 3 is provided with a transmission rope 4, the inner side surface of the protective cover 51 is fixedly connected with a slide bar guide rail 7, the inner side of the slide bar guide rail 7 is slidingly connected with two side sliding guide rods 9, the side surface of the sliding guide rod 9 is fixedly connected with a pull bar spring 10, the tail end of the transmission rope 4 is fixedly connected with a fixed rope push rod 11, the outer side of the sliding guide rod 9 is slidingly connected with a slide bar plate 12, the side surface of the slide bar plate 12 is slidingly connected with a glaze absorbing block 13, the outer side of the fixed rope push rod 11 is provided with push bar springs 14, the transmission rope shaft rods 3 are distributed at the upper end, the lower end and the middle position of the slide bar guide rail 7, the pull bar springs 10 are positioned at the inner sides of the two sliding guide rods 9, one end of each push bar spring 14 is fixedly connected with the glaze absorbing block 13, the other end of the push block spring 14 is fixedly connected with the slide bar plate 12, through the structure, the motor outside the protective cover 51 drives the transmission rope shaft lever 3 which is connected with the output shaft to rotate, so that the transmission rope 4 outside the transmission rope shaft lever 3 moves, the fixed rope push rod 11 is pulled to move, the fixed rope push rod 11 moves, meanwhile, the slide guide bar 9 connected with the two ends of the slide bar plate 12 slides in the slide bar guide rail 7, one end of the slide bar plate 12 is fixed with the slide guide bar 9, the other end of the slide bar plate 12 passes through the other slide guide bar 9 to slide, the slide guide bar 9 moves up and down along the inner side of the slide bar guide rail 7, the paint on the glaze suction block 13 is smeared on the ceramic outer wall, the glaze suction block 13 is always attached to a ceramic product, when the glaze suction block 13 moves to a position with a larger outer diameter of the ceramic product, the glaze suction block 13 presses the push block spring 14 and approaches the slide bar plate 12, thereby shrinking the structure, the rope structure is utilized to drive the rod-shaped structure to move along the irregular groove, so that the fitting degree of the smearing structure and the surface of the container is improved, the smearing is more uniform, and the device is suitable for processing containers and sizes in different shapes and wide in application range.

The bottom end of the protective cover 51 is provided with a clamping device 5, the clamping device 5 comprises a poking rod 2, the outer side of the poking rod 2 is provided with a vertical groove push rod 52, the front end of the vertical groove push rod 52 is fixedly connected with a driving toothed plate 53, the top surface of the driving toothed plate 53 is provided with a supporting bottom plate, the side surface of the driving toothed plate 53 is in meshed connection with a transmission gear 54, the other side of the transmission gear 54 is in meshed connection with a pushing toothed rod 55, the left side of the pushing toothed rod 55 is fixedly connected with a spring connecting rod 56, the right end of the spring connecting rod 56 is in sliding connection with a sliding rod push block 57, the top end of the sliding rod push block 57 is fixedly connected with a transverse groove rod 58, the inner side of the transverse groove rod 58 is in sliding connection with a pressing guide rod 59, the outer side of the bottom end of the pressing guide rod 59 is in sliding connection with a guide groove frame disc 511, the tail end of the pressing guide rod 59 is in rotating connection with a rotating wheel rubber belt 510, the poking rod 2 is fixedly connected with the protective cover 51, the driving toothed plate 53 is in sliding connection with the supporting bottom plate, the bottom side of the supporting bottom plate is provided with a sliding groove, a sliding rod pushing block 57 slides with the supporting bottom plate through the sliding groove, a guide groove frame disc 511 is fixedly connected with the supporting bottom plate, a driving disc rotating shaft 515 is rotatably connected at the center of the guide groove frame disc 511, a rotating shaft disc 512 is fixedly connected with the outer side surface of the driving disc rotating shaft 515, a clamping bottom elastic block 513 is slidably connected at the inner side of the rotating shaft disc 512, an elastic block spring 514 is arranged at the inner side of the clamping bottom elastic block 513, one end of the elastic block spring 514 is fixedly connected with the rotating shaft disc 512, the other end of the elastic block spring 514 is fixedly connected with the clamping bottom elastic block 513, through the structure, a protective cover 51 is closed and drives a poking rod 2 connected with the bottom to swing, the swinging poking rod 2 pushes a vertical groove push rod 52 and a driving toothed plate 53 to slide, the driving toothed plate 53 moves to push a transmission gear 54, the transmission gear 54 drives the poking rod 55 to push a spring connecting rod 56 to move, when the runner rubber belt 510 contacts with the bottom of the ceramic container, as the outer side of the spring connecting rod 56 is provided with a spring, when the sliding rod pushing block 57 sliding outside the spring connecting rod 56 receives resistance, the pushing tooth rod 55 pushes the spring connecting rod 56 and the sliding rod pushing block 57 to slide and press the spring, the sliding rod pushing block 57 drives the transverse groove rod 58 to move in the moving process, the pressing guide rod 59 connected with the inner side of the transverse groove rod 58 slides along the guide groove frame disc 511, the bottom of the container is tightly pressed by the runner rubber belt 510 at the tail end of the pressing guide rod 59, and meanwhile, when the container is placed outside the rotating shaft disc 512, the bottom clamping elastic block 513 is pressed by the ceramic bottom to shrink inwards and press the elastic block spring 514, the elastic block spring 514 releases elasticity, so that the bottom clamping elastic block 513 is pressed to fix the bottom of the container, and when the rotating shaft 515 of the driving disc slowly rotates, the rotating shaft disc 512 is driven to rotate in an auxiliary mode by the driving structure of the driving shaft 515, the driving structure of the application force is further so that the driving structure slides to realize automatic clamping by the driving structure of the application structure, and the auxiliary rotating structure is matched with the auxiliary rotating structure, and the effect of the application is improved.

The top end of the protective cover 51 is fixedly connected with a discharging device 6, the discharging device 6 comprises a linkage swing rod 61, the outer side of the linkage swing rod 61 is slidably connected with a swing push plate 62, the side surface of the swing push plate 62 is fixedly connected with a piston push rod 69, the outer side of the piston push rod 69 is provided with a pushing piston 63, the top surface of the pushing piston 63 is fixedly connected with a feed box 64, the top surface of the feed box 64 is fixedly connected with an air inlet port 65, the inner top surface of the feed box 64 is fixedly connected with a vortex fan blade 66, the axis of the vortex fan blade 66 is fixedly connected with a stirring rod 67, the top end of the pushing piston 63 is provided with a one-way material valve 68, the outer side of the vortex fan blade 66 is provided with a diversion end shell, the diversion end shell is fixedly connected with the feed box 64, the bottom surface of the pushing piston 63 is provided with a material conveying pipe, the other end of the material conveying pipe is communicated with a glaze sucking block 13, the linkage swing rod 61 fixed at the top of the protective cover 51 deflects the swinging push plate 62 to push the piston push rod 69 to move, so that the piston push rod 69 outputs the material at the inner side of the pushing piston 63 through the output pipe, when the protective cover 51 is opened, the piston push rod 69 is in a stretching state, the piston push rod 69 pumps the pushing piston 63 to enable the material in the pushing piston 63 to enter the pushing piston 63 through the one-way material valve 68, at the moment, the tail end of the output pipe at the bottom of the pushing piston 63 is in a one-way closing state, when the liquid level of the feed box 64 is lowered, the air pressure in the feed box 64 is reduced, external air enters the interior through the air inlet port 65 at the top of the feed box 64, when the air passes through the vortex fan blades 66, the vortex fan blades 66 are driven to rotate, and simultaneously the stirring rod 67 coaxial with the vortex fan blades 66 stirs the material in the feed box 64, and the material is output in advance before processing, and meanwhile, the air flow is driven by the air pressure change in the container, and the structure operation of stirring the material is driven by the air flow, so that the material is prevented from precipitating.

The utility model provides a be provided with air-drying device 8 under workbin 64, air-drying device 8 includes fan solid frame 81, fan solid frame 81's both sides face fixedly connected with circular telegram contact 82, fan solid frame 81's inboard installs air-drying flabellum 83, air-drying flabellum 83's bottom side fixedly connected with heater strip 84, fan solid frame 81 and workbin 64 bottom surface fixed connection, fan solid frame 81 agrees with the top side of protection casing 51, when both sides protection casing 51 are close to each other, the circular telegram contact 82 of protection casing 51 side and fan solid frame 81 side, and then circular telegram contact 82 is in the state of passageway, and then let the inside air-drying flabellum 83 of fan solid frame 81 and heater strip 84 function, and let the hot-blast in the container outside of blowing out flow, promote the drying and the shaping efficiency of painting material, utilize the state of structure drive control circuit, and then control heating and air-drying function in real time, and promote drying and shaping efficiency, prevent debris sticky and influence holistic finished product quality.

Working principle: after the container is placed, the protective cover 51 is closed, the motor outside the protective cover 51 drives the transmission cable shaft rod 3 connected with the output shaft to rotate, the transmission cable 4 outside the transmission cable shaft rod 3 is further moved, the fixed cable push rod 11 is pulled to move, the sliding guide rod 9 connected with two ends of the sliding rod plate 12 slides in the sliding rod guide rail 7 while the fixed cable push rod 11 moves, one end of the sliding rod plate 12 is fixed with the sliding guide rod 9, the other end of the sliding rod plate 12 passes through the sliding guide rod 9 at the other position to slide, the sliding guide rod 9 moves up and down along the inner side of the sliding rod guide rail 7, the paint on the glaze suction block 13 is smeared on the ceramic outer wall, the glaze suction block 13 is always attached to the ceramic product, and when the glaze suction block 13 moves to the position with larger outer diameter of the ceramic product, the glaze suction block 13 presses the push block spring 14 and approaches the sliding rod plate 12, and the attaching degree of the smearing structure and the container surface is improved.

When the protective cover 51 is closed, the bottom-connected poking rod 2 is driven to swing, the swinging poking rod 2 pushes the vertical groove push rod 52 and the driving toothed plate 53 to slide, the driving toothed plate 53 moves to push the transmission gear 54, the transmission gear 54 drives the poking rod 55 to push the spring connecting rod 56 to move, when the rotating wheel rubber belt 510 is contacted with the bottom of the ceramic container, as the spring is arranged outside the spring connecting rod 56, the sliding rod push block 57 sliding outside the spring connecting rod 56 is subjected to resistance, the poking rod 55 pushes the spring connecting rod 56 and the sliding rod push block 57 to slide and squeeze the spring, the sliding rod push block 57 drives the transverse groove rod 58 to move in the moving process, the extruding guide rod 59 connected with the inner side of the transverse groove rod 58 slides along the guide groove frame disc 511, the container bottom is extruded by the extruding guide rod 59, meanwhile, when the container is placed outside the rotating shaft disc 512, the container bottom is extruded by the ceramic bottom-extruding clamping elastic block 513 to shrink inwards, the elastic block spring 514 is released, the container bottom is extruded to be fixed by the clamping elastic block spring 513, and when the driving disc 515 rotates slowly, the rotating shaft is driven by the driving disc 515 to rotate automatically, and the auxiliary force-applying structure is driven to slide by the rotating shaft 512;

when the protective cover 51 deflects, the linkage swinging rod 61 fixed at the top of the protective cover 51 deflects the swinging push plate 62 and pushes the piston push rod 69 to move, so that the piston push rod 69 outputs the material at the inner side of the pushing piston 63 through an output pipe, when the protective cover 51 is opened, the piston push rod 69 draws the pushing piston 63, the material in the pushing piston 63 enters the pushing piston 63 through the one-way material valve 68, at the moment, the tail end of the output pipe at the bottom of the pushing piston 63 is in a one-way closed state, when the liquid level of the feed box 64 is lowered, the air pressure in the feed box 64 is reduced, external air enters the interior through the air inlet port 65 at the top of the feed box 64, and when the air passes through the vortex fan blades 66, the vortex fan blades 66 are driven to rotate, and meanwhile, the stirring rod 67 coaxial with the vortex fan blades 66 stirs the material in the feed box 64, so that the material is prevented from precipitating;

when the two side shields 51 approach each other, the side surfaces of the shields 51 contact with the power-on contact 82 on the side surface of the fan fixing frame 81, so that the power-on contact 82 is in a passage state, and the air-drying fan blades 83 and the heating wires 84 on the inner side of the fan fixing frame 81 are operated, and the blown hot air flows along the outer side of the container, so that the adhesion of sundries is prevented, and the overall product quality is affected.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Glaze device for ceramic manufacture, including support frame (1), its characterized in that: the inner side of the support frame (1) is hinged with a protective cover (51), three transmission rope shafts (3) are rotationally connected to the side wall of the protective cover (51), transmission ropes (4) are arranged on the outer side of the transmission rope shafts (3), sliding rod guide rails (7) are fixedly connected to the inner side surfaces of the protective cover (51), sliding guide rods (9) are slidingly connected to the inner sides of the sliding rod guide rails (7), pull rod springs (10) are fixedly connected to the side surfaces of the sliding guide rods (9), fixed rope push rods (11) are fixedly connected to the tail ends of the transmission ropes (4), sliding rod plates (12) are slidingly connected to the outer sides of the sliding guide rods (9), glaze sucking blocks (13) are slidingly connected to the side surfaces of the sliding rod plates (12), and pushing block springs (14) are arranged on the outer sides of the fixed rope push rods (11).

The cable transmission shaft rods (3) are distributed at the upper end, the lower end and the middle position of the slide bar guide rail (7), the pull bar springs (10) are positioned at the inner sides of the two slide guide rods (9), one ends of the push block springs (14) are fixedly connected with the glaze suction blocks (13), and the other ends of the push block springs (14) are fixedly connected with the slide bar plates (12);

the bottom of protection casing (51) is provided with clamping device (5), clamping device (5) are including stirring rod (2), the outside of stirring rod (2) is provided with vertical groove push rod (52), the front side end fixedly connected with of vertical groove push rod (52) drives pinion rack (53), the top surface of drive pinion rack (53) sets up supporting baseplate, drive pinion rack (53) side meshing is connected with drive gear (54), the opposite side meshing of drive gear (54) is connected with pushing tooth pole (55), the left side fixedly connected with spring connecting rod (56) of pushing tooth pole (55), the right-hand member sliding connection of spring connecting rod (56) has slide bar ejector pad (57), the top fixedly connected with cross slot pole (58) of slide bar ejector pad (57), the inboard sliding connection of cross slot pole (58) has extrusion guide arm (59), the bottom outside sliding connection of extrusion guide arm (59) has guide arm frame dish (511), the end rotation of extrusion guide arm (59) is connected with runner rubber band (510);

the toggle rod (2) is fixedly connected with the protective cover (51), the driving toothed plate (53) is in sliding connection with the supporting bottom plate, the pushing toothed bar (55) is in sliding connection with the supporting bottom plate, a sliding groove is formed in the bottom side of the supporting bottom plate, the sliding rod pushing block (57) slides with the supporting bottom plate through the sliding groove, the guide groove frame disc (511) is fixedly connected with the supporting bottom plate, one end of the sliding rod plate (12) is fixed with the sliding guide rod (9), and the other end of the sliding rod plate (12) penetrates through the other sliding guide rod (9) to slide;

the center department rotation of guide slot frame dish (511) is connected with drives dish pivot (515), the lateral surface fixedly connected with pivot dish (512) of driving dish pivot (515), the inboard sliding connection of pivot dish (512) has card end bullet piece (513), the inboard of card end bullet piece (513) is provided with bullet piece spring (514), bullet piece spring (514) one end and pivot dish (512) fixed connection, and bullet piece spring (514) other end and card end bullet piece (513) fixed connection.

2. A glaze apparatus for ceramic manufacture according to claim 1, wherein: the top fixedly connected with discharging device (6) of protection casing (51), discharging device (6) are including linkage pendulum rod (61), the outside sliding connection of linkage pendulum rod (61) has swing push pedal (62), the side fixedly connected with piston push rod (69) of swing push pedal (62), the outside of piston push rod (69) is provided with pushes away material piston (63), the top surface fixedly connected with workbin (64) of pushing away material piston (63).

3. A glaze apparatus for ceramic manufacture according to claim 2, wherein: the top surface fixedly connected with air inlet (65) of workbin (64), the inside top surface fixedly connected with vortex flabellum (66) of workbin (64), the axle center department fixedly connected with stirring rod (67) of vortex flabellum (66), the top of pushing away material piston (63) is provided with one-way material valve (68).

4. A glaze apparatus for ceramic manufacture according to claim 3, wherein: the outside of vortex flabellum (66) is provided with water conservancy diversion end shell, and water conservancy diversion end shell and workbin (64) fixed connection, the bottom surface of pushing away material piston (63) is provided with the conveying pipeline, and the other end and the glaze suction piece (13) of conveying pipeline communicate.

5. The glaze apparatus for ceramic manufacture according to claim 4, wherein: an air drying device (8) is arranged right below the feed box (64), the air drying device (8) comprises a fan fixing frame (81), two side faces of the fan fixing frame (81) are fixedly connected with power-on contacts (82), air drying fan blades (83) are arranged on the inner side of the fan fixing frame (81), and heating wires (84) are fixedly connected to the bottom sides of the air drying fan blades (83).

6. The glaze apparatus for ceramic manufacture according to claim 5, wherein: the fan fixing frame (81) is fixedly connected with the bottom surface of the feed box (64), and the fan fixing frame (81) is matched with the side surface of the top end of the protective cover (51).