CN113787591A

CN113787591A - A brick embryo stabilizes conveyor for production of starlight ceramic tile

Info

Publication number: CN113787591A
Application number: CN202111104423.4A
Authority: CN
Inventors: 赵小平; 左明
Original assignee: Anhui Pansheng New Material Technology Co ltd
Current assignee: Anhui Pansheng New Material Technology Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2021-12-14

Abstract

The invention discloses a stable brick blank conveying device for starlight ceramic tile production, which comprises a conveying belt, a placing plate, a stable transverse plate, an elastic pad, a heat-conducting upper plate and a heat-conducting side plate, wherein a support frame is fixedly arranged in the middle of the heat-conducting side plate, and the bottom of the support frame is rotatably connected with a wind-driven blade. The pneumatic blade drives the connecting frame to rotate through the first connecting mechanism and the second connecting mechanism, so as to drive the upper dynamic heating module to rotate, the upper dynamic heating module uniformly heats the upper surface of a green brick to enhance the production quality of the upper surface of the green brick, the pushing bulge is fixedly arranged on the inner edge of the supporting frame, the connecting frame can slide on the pushing bulge in the rotating process, and then the connecting frame shakes under the action of the resetting mechanism to enhance the heating effect of the upper dynamic heating module on the upper surface of the green brick, and meanwhile, air flow is pushed to move towards the position right below the pneumatic blade, so that the rotating speed of the pneumatic blade is increased, and the production quality of the upper surface of the green brick is further improved.

Description

A brick embryo stabilizes conveyor for production of starlight ceramic tile

Technical Field

The invention relates to the field of glass production, in particular to a stable brick blank conveying device for starlight ceramic tile production.

Background

The production process of the starlight ceramic tile comprises the following steps: purple aventurine dry particles are uniformly distributed on the surface of a green brick, a fixing agent is sprayed on the surface of the aventurine dry particle layer to fix the aventurine dry particles, the green brick is conveyed to a roller kiln to be fired through a conveying device, and after subsequent processing, in the conveying process, in order to prevent the green brick from being damaged due to instant high temperature, the green brick needs to be preheated in the conveying process of the conveying device (the temperature is more than 400 ℃, carbonate is oxidized and decomposed), because the glass dry particles are uniformly distributed on the upper surface of the green brick, only one side coated with the glass dry particles can be placed above the green brick and cannot rotate when the green brick is preheated, the lower surface of the green brick cannot be effectively preheated, the green brick is unevenly heated, the production quality of the ceramic tile is easily reduced, and simultaneously, when the green brick is preheated, because the conveying module expands with heat and contracts with cold and the gas of the carbonate in the green brick flows out and decomposes, the green brick can be in a micro-shaking state, the green brick slightly collides with the bearing belt, so that the production quality of the ceramic tile is easily further reduced, and the green brick stable conveying device for starlight ceramic tile production is provided.

Disclosure of Invention

The invention mainly aims to provide a stable brick blank conveying device for starlight ceramic tile production, which can effectively solve the problems in the background technology: because the upper surface equipartition of adobe has the dry grain of glass, when preheating, can only place the one side that scribbles the dry grain of glass in the top, can't rotate, so when preheating, can't effectively preheat the lower surface of adobe, lead to being heated inhomogeneous of adobe like this, the production quality who easily leads to the ceramic tile reduces, when preheating the adobe simultaneously, because the gaseous effluence of the carbonate among transmission module expend with heat and contract with cold and the adobe decomposes, lead to the adobe can be in the small state of rocking, the adobe slightly collides with the bearing belt, the production quality who easily leads to the ceramic tile like this further reduces.

In order to achieve the purpose, the invention adopts the technical scheme that: a stable conveyor of brick embryo for starlight ceramic tile production, includes the transmission band of installing in the heating bottom of the box, the upper surface transmission of transmission band is connected with places the board, place the board upper surface middle part fixed mounting have stabilize the diaphragm, stabilize the diaphragm upper surface fixed mounting have the cushion, place the board upper surface fixed mounting have heat conduction upper plate, the middle part fixed mounting of heat conduction upper plate has heat conduction curb plate, the middle part fixed mounting of heat conduction curb plate has the support frame, the bottom of support frame rotates and is connected with pneumatic blade, pneumatic blade's side is provided with the link, the bottom fixed mounting of link has last dynamic heating module, pneumatic blade drives the link and rotates, the heat conduction upper plate carries out the heat transfer with last dynamic heating module, sets up like this and is provided with placing the board on the upper surface of transmission band, place the adobe and transmit placing the inside stable diaphragm upper surface of board, the arc setting of heat conduction upper plate is with the area of contact of increase heat and heat conduction upper plate, and partly heat is through the transmission of heat conduction curb plate and link, and the transmission is on curved last dynamic heating module, and the air of adobe upper surface is heated in the arc design of going up dynamic heating module, and the hot-air of heating rises to form the air current and drive pneumatic blade and rotate.

The invention has the further improvement that a pushing bulge is fixedly arranged on the inner edge of the support frame, the outer side of the connecting frame is connected with the pushing bulge in a sliding manner, a transmission part is fixedly arranged in the middle of the pneumatic blade, the upper end of the transmission part is rotatably connected with a lantern ring, the upper end of the lantern ring is fixedly connected with the upper top of the support frame, a first connecting mechanism is fixedly arranged in the middle of the transmission part, one end of the first connecting mechanism, which is far away from the transmission part, is connected with a second connecting mechanism in a sliding manner, one end of the second connecting mechanism, which is far away from the first connecting mechanism, is fixedly connected with the connecting frame, the connecting frame slides on a sliding rail in the support frame, the pneumatic blade is arranged to drive the connecting frame to rotate through the first connecting mechanism and the second connecting mechanism, so that the upper dynamic heating module uniformly applies heat to the upper surface of a brick blank, to enhance the production quality of the upper surface of the green brick.

The invention is further improved in that one end of the second connecting mechanism, which is far away from the connecting frame, is fixedly provided with a connecting cylinder, one end of the first connecting mechanism, which is far away from the driving part, is fixedly provided with a push plate, the push plate slides in the connecting cylinder, the inside of the connecting cylinder is fixedly provided with a reset mechanism, the left side of the push plate is fixedly connected with the reset mechanism, the push plate is fixedly arranged on the inner edge of the supporting frame, the connecting frame can slide on the push boss in the rotating process, and then the push plate swings under the action of the reset mechanism, so that the heating effect of the upper dynamic heating module on the upper surface of a brick blank is enhanced, and meanwhile, the airflow is pushed to move towards the right lower part of the wind-driven blade, so that the rotating speed of the wind-driven blade is increased, and the production quality of the upper surface of the brick blank is further improved.

The improved structure of the heating device is characterized in that a bottom cavity is formed in the middle of the placing plate, a bottom heat conducting plate is fixedly mounted inside the placing plate and located on the side face of the bottom cavity, the heat conducting upper plate and the bottom heat conducting plate conduct heat transfer, the output end of the bottom heat conducting plate extends into the bottom cavity, a lower fixed heating module is fixedly mounted at the inner bottom of the bottom cavity, and one side, facing the stabilizing transverse plate, of the lower fixed heating module is arc-shaped.

The invention has the further improvement that an air bag is fixedly arranged inside the stabilizing transverse plate, the air inside the air bag is heated to expand to jack up the elastic cushion, a bottom heat conducting plate is arranged inside the placing plate, part of heat transmitted by the heat conducting upper plate is transferred to the arc-shaped lower fixed heating module through the bottom heat conducting plate, the lower fixed heating module uniformly heats the lower surface of the green brick on the stabilizing transverse plate, the air bag inside the stabilizing transverse plate expands after being heated to jack up the elastic cushion on the upper surface of the stabilizing transverse plate and the green brick, so that air buffering is provided to suspend the green brick, the contact area between hot air flow and the lower surface of the green brick is increased, and the lower surface of the green brick is prevented from slightly colliding with the bearing belt, so that the production quality of the lower surface of the green brick is improved.

The invention is further improved in that an output port is formed in the side surface of the placing plate, the input end of the output port is communicated with the bottom cavity, a wedge-shaped airflow guide block is fixedly installed at the opening of the bottom cavity, the airflow guide block arranged at the opening of the bottom cavity is arranged in such a way, hot air flows to the middle of the green brick and is guided to uniformly heat the side wall of the green brick under the combined action of the airflow guide block and the arc-shaped upper dynamic heating module, and meanwhile, hot air flow formed in the bottom cavity also moves towards the right lower part of the wind-driven blade so as to increase the rotating speed of the wind-driven blade.

The invention is further improved in that the upper dynamic heating module is arranged to be arc-shaped, and the upper surface of the heat-conducting upper plate is arranged to be arc-shaped.

The invention further improves the brick blank stable conveying device for starlight ceramic tile production, and the using steps are as follows:

a: the manufactured green bricks are placed on the upper surface of a stable transverse plate inside the placing plate to be transmitted, the conveying belt drives the placing plate to move towards the inside of the heating box body, the arc-shaped arrangement of the heat conducting upper plate is used for increasing the contact area of heat and the heat conducting upper plate, a part of heat is transmitted to the arc-shaped upper dynamic heating module through the heat conducting side plates and the connecting frame, the air on the upper surface of the green bricks is heated through the arc-shaped design of the upper dynamic heating module, the heated hot air rises to form air flow to drive the pneumatic blades to rotate, the pneumatic blades drive the connecting frame to rotate through the first connecting mechanism and the second connecting mechanism, and the upper dynamic heating module is driven to rotate, so that the upper dynamic heating module uniformly applies heat to the upper surface of the green bricks, and the production quality of the upper surface of the green bricks is enhanced;

b: when the step A is finished, the pushing bulge is fixedly installed on the inner edge of the supporting frame, the connecting frame can slide on the pushing bulge in the rotating process, and then the connecting frame shakes under the action of the reset mechanism so as to enhance the heating effect of the upper dynamic heating module on the upper surface of the green brick, and meanwhile, the airflow is pushed to move towards the position right below the wind-driven blade so as to increase the rotating speed of the wind-driven blade and further improve the production quality of the upper surface of the green brick;

c: when the step B is completed, part of heat transmitted by the heat conduction upper plate is transferred to the arc-shaped lower fixed heating module through the bottom heat conduction plate, the lower fixed heating module uniformly heats the lower surface of the green brick on the stabilizing transverse plate, and the air bag in the stabilizing transverse plate expands after being heated to jack up the elastic cushion on the upper surface of the stabilizing transverse plate and the green brick, so that gas buffering is provided to suspend the green brick, the contact area of hot air flow and the lower surface of the green brick is increased, and the lower surface of the green brick is prevented from slightly colliding with the bearing belt, so that the production quality of the lower surface of the green brick is improved;

d: after the step C is finished, the airflow guide block arranged at the opening of the bottom cavity guides hot air to the middle of the green brick, the airflow guide block and the arc-shaped upper dynamic heating module act together to uniformly heat the side wall of the green brick, and meanwhile, hot air flow formed inside the bottom cavity also moves towards the right lower part of the wind-driven blade so as to increase the rotating speed of the wind-driven blade.

Compared with the prior art, the invention has the advantages that the placing plate is arranged on the upper surface of the transmission belt, the green bricks are placed on the upper surface of the stable transverse plate in the placing plate for transmission, the arc-shaped arrangement of the heat-conducting upper plate is used for increasing the contact area of heat and the heat-conducting upper plate, a part of heat is transmitted on the arc-shaped upper dynamic heating module through the heat-conducting side plates and the connecting frame, the air on the upper surface of the green bricks is heated by the arc-shaped design of the upper dynamic heating module, the heated hot air rises to form air flow to drive the pneumatic blades to rotate, the pneumatic blades drive the connecting frame to rotate through the first connecting mechanism and the second connecting mechanism, so as to drive the upper dynamic heating module to rotate, the upper dynamic heating module uniformly applies heat to the upper surface of the green bricks, the production quality of the upper surface of the green bricks is enhanced, the pushing bulges are fixedly arranged on the inner edge of the supporting frame, and the connecting frame can slide on the pushing bulges in the rotating process, at the moment, the brick blank is shaken under the action of the reset mechanism to enhance the heating effect of the upper dynamic heating module on the upper surface of the brick blank, and meanwhile, the airflow is pushed to move towards the right lower part of the wind blade so as to increase the rotating speed of the wind blade and further improve the production quality of the upper surface of the brick blank;

the bottom heat conducting plate is arranged in the placing plate, part of heat transmitted by the heat conducting upper plate is transferred to the arc-shaped lower fixed heating module through the bottom heat conducting plate, the lower fixed heating module uniformly heats the lower surface of a green brick on the stabilizing transverse plate, the air bag in the stabilizing transverse plate expands after being heated, the elastic cushion on the upper surface of the stabilizing transverse plate and the green brick are jacked up, thus providing gas buffering to suspend the green brick, increasing the contact area of hot gas flow and the lower surface of the green brick, preventing the lower surface of the green brick from slightly colliding with the bearing belt at the same time, improving the production quality of the lower surface of the green brick, the air flow guide block arranged at the opening of the bottom cavity guides the hot gas flow to the middle part of the green brick, the hot gas flow is guided to uniformly heat the side wall of the green brick under the combined action of the arc-shaped upper dynamic heating module, and simultaneously, the hot gas flow formed in the bottom cavity also moves towards the right lower part of the air moving blade, so as to increase the rotating speed of the wind blade and improve the integral production quality of the green brick.

Drawings

FIG. 1 is a schematic view of the overall structure of a stable conveying device for green bricks in starlight ceramic tile production according to the present invention.

FIG. 2 is a schematic view of a part of the structure of a stable conveying device for green bricks in the production of star glazed tiles.

FIG. 3 is a schematic view of the inside of a placing plate of the stable conveying device for the adobe for starlight ceramic tile production.

FIG. 4 is an overall schematic view of a supporting frame of the stable conveying device for the adobe for starlight ceramic tile production.

FIG. 5 is a schematic view of the inside of the supporting frame of the stable conveying device for the adobe for starlight tile production.

FIG. 6 is an enlarged schematic view A in FIG. 5 of a stable conveying device for the adobe for starlight tile production according to the present invention.

In the figure: 1. heating the box body; 2. a conveyor belt; 3. placing the plate; 4. stabilizing the transverse plate; 5. an elastic pad; 6. a thermally conductive upper plate; 7. a heat conducting side plate; 8. a support frame; 9. a wind blade; 10. a bottom cavity; 11. a connecting frame; 12. an upper dynamic heating module; 13. an air bag; 14. an output port; 15. a lower fixed heating module; 16. an airflow guide block; 17. a bottom heat conducting plate; 18. pushing the protrusion; 19. a transmission member; 20. a collar; 21. a first connecting mechanism; 22. a second connecting mechanism; 23. pushing the plate; 24. a reset mechanism; 25. the cylinder body is connected.

Detailed Description

In order to make the technical means, the original characteristics, the achieved objects and the functions of the present invention easy to understand, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the orientation or the positional relationship based on the orientation or the positional relationship shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, but not for indicating or implying that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The invention will be further illustrated with reference to specific embodiments.

Example 1

As shown in figures 1-6, a stable brick blank conveying device for starlight ceramic tile production comprises a conveying belt (2) installed at the bottom of a heating box body (1), the upper surface of the conveying belt (2) is connected with a placing plate (3) in a conveying manner, a stable transverse plate (4) is fixedly installed in the middle of the upper surface of the placing plate (3), an elastic pad (5) is fixedly installed on the upper surface of the stable transverse plate (4), a heat-conducting upper plate (6) is fixedly installed on the upper surface of the placing plate (3), a heat-conducting side plate (7) is fixedly installed in the middle of the heat-conducting upper plate (6), a support frame (8) is fixedly installed in the middle of the heat-conducting side plate (7), a pneumatic blade (9) is rotatably connected to the bottom of the support frame (8), a connecting frame (11) is arranged on the side surface of the pneumatic blade (9), and an upper dynamic heating module (12) is fixedly installed on the bottom of the connecting frame (11), the pneumatic blade (9) drives the connecting frame (11) to rotate, and the heat conducting upper plate (6) and the upper dynamic heating module (12) carry out heat transfer.

In this embodiment, there are promotion arch (18) along fixed mounting in support frame (8), the outside and the promotion arch (18) sliding connection of link (11), middle part fixed mounting of pnematic blade (9) has driving medium (19), the upper end of driving medium (19) is rotated and is connected with lantern ring (20), the upper end of lantern ring (20) and the fixed connection that pushes up of support frame (8), the middle part fixed mounting of driving medium (19) has coupling mechanism (21) No. one, the one end sliding connection who keeps away from driving medium (19) of coupling mechanism (21) has coupling mechanism (22) No. two, the one end and the link (11) fixed connection of keeping away from coupling mechanism (21) of coupling mechanism (22) No. two, link (11) slide on the inside slide rail of support frame (8).

In this embodiment, a connecting cylinder (25) is fixedly mounted at one end of the second connecting mechanism (22) far away from the connecting frame (11), a push plate (23) is fixedly mounted at one end of the first connecting mechanism (21) far away from the transmission member (19), the push plate (23) slides inside the connecting cylinder (25), a reset mechanism (24) is fixedly mounted inside the connecting cylinder (25), and the left side of the push plate (23) is fixedly connected with the reset mechanism (24).

In this embodiment, bottom chamber (10) have been seted up at the middle part of placing board (3), the side fixed mounting who places the inside of board (3) and be located bottom chamber (10) has bottom heat-conducting plate (17), heat conduction upper plate (6) carry out thermal transmission with bottom heat-conducting plate (17), the output of bottom heat-conducting plate (17) extends to the inside of bottom chamber (10), bottom fixed mounting has lower fixed heating module (15) bottom the interior bottom fixed mounting of bottom chamber (10), one side towards stabilizing diaphragm (4) of lower fixed heating module (15) sets up to the arc.

In the embodiment, an air bag (13) is fixedly arranged inside the stabilizing transverse plate (4), and the air inside the air bag (13) is heated to expand to jack up the elastic cushion (5).

In the embodiment, an output port (14) is formed in the side surface of the placing plate (3), the input end of the output port (14) is communicated with the bottom cavity (10), and a wedge-shaped airflow guide block (16) is fixedly mounted at the opening of the bottom cavity (10).

In the embodiment, the upper dynamic heating module (12) is arranged to be arc-shaped, and the upper surface of the heat-conducting upper plate (6) is arranged to be arc-shaped.

The embodiment can realize that: the placing plate (3) is arranged on the upper surface of the conveying belt (2), the green bricks are placed on the upper surface of the stable transverse plate (4) inside the placing plate (3) for transmission, the arc-shaped arrangement of the heat-conducting upper plate (6) is used for increasing the contact area between heat and the heat-conducting upper plate (6), a part of heat is transmitted through the heat-conducting side plates (7) and the connecting frame (11) and is transmitted on the arc-shaped upper dynamic heating module (12), the air on the upper surface of the green bricks is heated through the arc-shaped design of the upper dynamic heating module (12), the heated hot air rises to form air flow to drive the pneumatic blades (9) to rotate, the pneumatic blades (9) drive the connecting frame (11) to rotate through the first connecting mechanism (21) and the second connecting mechanism (22), so as to drive the upper dynamic heating module (12) to rotate, the upper dynamic heating module (12) uniformly heats the upper surface of the green bricks, the production quality of the upper surface of a green brick is enhanced, the pushing protrusion (18) is fixedly installed on the inner edge of the support frame (8), the connecting frame (11) can slide on the pushing protrusion (18) in the rotating process, and then the connecting frame shakes under the action of the reset mechanism (24) to enhance the heating effect of the upper dynamic heating module (12) on the upper surface of the green brick, and meanwhile, the air flow is pushed to move towards the position right below the air vane (9) so as to increase the rotating speed of the air vane (9) and further improve the production quality of the upper surface of the green brick.

Example 2

The embodiment can realize that: a bottom heat-conducting plate (17) is arranged inside a placing plate (3), a part of heat transmitted by a heat-conducting upper plate (6) is transferred to an arc-shaped lower fixed heating module (15) through the bottom heat-conducting plate (17), the lower fixed heating module (15) uniformly heats the lower surface of a green brick on a stabilizing transverse plate (4), an air bag (13) inside the stabilizing transverse plate (4) expands after being heated, an elastic cushion (5) for stabilizing the upper surface of the transverse plate (4) and the green brick are jacked up, so that the green brick is suspended by providing air buffering, the contact area between a hot air flow and the lower surface of the green brick is increased, the lower surface of the green brick is prevented from slightly colliding with a bearing belt, the production quality of the lower surface of the green brick is improved, an air flow guide block (16) arranged at an opening of a bottom cavity (10) guides the hot air flow to the middle part of the green brick, the hot air flow is uniformly heated by the combined action of an arc-shaped upper dynamic heating module (12), meanwhile, hot air flow formed in the bottom cavity (10) also moves towards the right lower part of the wind blade (9) so as to increase the rotating speed of the wind blade (9), thereby improving the integral production quality of the green brick.

The invention is to be noted that the invention relates to a stable brick blank conveying device for starlight ceramic tile production, when in use, firstly, the manufactured brick blank is placed on the upper surface of a stable transverse plate (4) in a placing plate (3) for transmission, a conveying belt drives the placing plate (3) to move towards the interior of a heating box body (1), the arc-shaped arrangement of a heat-conducting upper plate (6) is used for increasing the contact area between heat and the heat-conducting upper plate (6), a part of heat is transmitted on an arc-shaped upper dynamic heating module (12) through the transmission of a heat-conducting side plate (7) and a connecting frame (11), the arc-shaped design of the upper dynamic heating module (12) heats the air on the upper surface of the brick blank, the heated hot air rises to form a pneumatic air flow to drive a blade (9) to rotate, and the pneumatic blade (9) drives the connecting frame (11) to rotate through a first connecting mechanism (21) and a second connecting mechanism (22), thereby driving the upper dynamic heating module (12) to rotate, so that the upper dynamic heating module (12) applies heat to the upper surface of the adobe uniformly to enhance the production quality of the upper surface of the adobe, secondly, the inner edge of the support frame (8) is fixedly provided with the pushing bulge (18), the connecting frame (11) can slide on the pushing bulge (18) in the rotating process, at the moment, the connecting frame shakes under the action of the reset mechanism (24) to enhance the heating effect of the upper dynamic heating module (12) to the upper surface of the adobe, and simultaneously, the air flow is pushed to move towards the right lower part of the air vane (9) to increase the rotating speed of the air vane (9), thereby further improving the production quality of the upper surface of the adobe, then, part of heat transmitted by the heat conduction upper plate (6) is transmitted to the arc-shaped lower fixed heating module (15) through the bottom (17), the lower fixed heating module (15) uniformly heats the lower surface of the adobe on the stable transverse plate (4), and the air bag (13) inside the stabilizing transverse plate (4) expands after being heated, the elastic pad (5) on the upper surface of the stabilizing transverse plate (4) and the green brick are jacked up, so that air buffering is provided to enable the green brick to suspend, the contact area between hot air flow and the lower surface of the green brick is increased, meanwhile, the lower surface of the green brick is prevented from slightly colliding with a bearing belt, so that the production quality of the lower surface of the green brick is improved, finally, the air flow guide block (16) arranged at the opening of the bottom cavity (10) guides the hot air flow to the middle of the green brick, the hot air flow and the arc-shaped upper dynamic heating module (12) act together to uniformly heat the side wall of the green brick, and meanwhile, the hot air flow formed inside the bottom cavity (10) also moves towards the right below the air moving blade (9), so that the rotating speed of the blade (9) is increased.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a conveyor is stabilized to brick embryo for production of starlight ceramic tile, is including installing the transmission band in heating bottom of the case portion, its characterized in that: the utility model discloses a pneumatic blade, including transmission band, last surface fixed mounting who places the board, the last fixed surface who places the board has the stable diaphragm, the last fixed surface who stabilizes the diaphragm installs the cushion, the last fixed surface who places the board installs the heat conduction upper plate, the middle part fixed mounting of heat conduction upper plate has the heat conduction curb plate, the middle part fixed mounting of heat conduction curb plate has the support frame, the bottom of support frame is rotated and is connected with pneumatic blade, pneumatic blade's side is provided with the link, the bottom fixed mounting of link has last dynamic heating module, pneumatic blade drives the link and rotates, the heat conduction upper plate carries out the heat transfer with last dynamic heating module.

2. The stable conveying device of the brick blank for the production of the starlight ceramic tile according to the claim 1 is characterized in that: the utility model discloses a pneumatic blade, including support frame, link, pneumatic blade, driving medium, link, fixed mounting has the promotion arch along fixed mounting in the support frame, the outside and the protruding sliding connection that promotes of link, the middle part fixed mounting of pneumatic blade has the driving medium, the upper end of driving medium is rotated and is connected with the lantern ring, the upper end of the lantern ring and the last fixed connection of pushing up of support frame, the middle part fixed mounting of driving medium has coupling mechanism No. one, coupling mechanism's the one end sliding connection who keeps away from the driving medium has coupling mechanism No. two, coupling mechanism's the one end and the link fixed connection of keeping away from coupling mechanism No. two, the link slides on the inside slide rail of support frame.

3. The stable conveying device of the brick blank for the production of the starlight ceramic tile as claimed in claim 2, characterized in that: no. two coupling mechanism's the one end fixed mounting who keeps away from the link has the connecting cylinder body, the one end fixed mounting who keeps away from the driving medium of a coupling mechanism has the push pedal, the push pedal slides in the inside of connecting cylinder body, the inside fixed mounting of connecting cylinder body has canceling release mechanical system, the left side and the canceling release mechanical system fixed connection of push pedal.

4. The stable conveying device of the brick blank for the production of the starlight ceramic tile according to the claim 1 is characterized in that: the utility model discloses a heating plate, including place the board, place the side fixed mounting that the board was placed to the side of board, place the middle part of board and seted up the bottom chamber, the side fixed mounting who places the inside of board and be located the bottom chamber has the bottom heat-conducting plate, the heat conduction upper plate carries out thermal transmission with the bottom heat-conducting plate, the output of bottom heat-conducting plate extends to the inside of bottom chamber, the interior bottom fixed mounting of bottom chamber has down fixed heating module, the one side towards stabilizing the diaphragm of lower fixed heating module sets up to the arc.

5. The stable conveying device of the brick blank for the production of the starlight ceramic tile according to the claim 1 is characterized in that: the inside fixed mounting of stabilizing the diaphragm has the gasbag, the inside gas of gasbag is heated the inflation and is pushed up the cushion.

6. The stable conveying device of the brick blank for the production of the starlight ceramic tile is characterized in that: the side of placing the board has seted up the delivery outlet, the input and the bottom chamber of delivery outlet switch on, the opening part fixed mounting of bottom chamber has the air current guide block of carving the type.

7. The stable conveying device of the brick blank for the production of the starlight ceramic tile according to the claim 1 is characterized in that: the upper dynamic heating module is arc-shaped, and the upper surface of the heat-conducting upper plate is arc-shaped.

8. A stable transfer device of the green bricks for the production of star-like tiles according to any one of claims 1 to 7, characterized in that: the use steps are as follows: