CN212795367U - Continuous production system of anorthite refractory material - Google Patents

Abstract

The utility model provides a continuous production system of anorthite refractory material, which comprises a mixing system, a pouring system, a transmission system, a demoulding system, a drying system and a firing system; the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the utility model provides an anorthite refractory material continuous production system, entire system degree of automation is high, need not manual operation basically, and reduce cost has greatly improved production efficiency, adopts needle tubing quantitative pouring or removes telescopic pouring or the mode control pouring process that the two combines, realizes quantitative pouring, ground paste evenly distributed, the inside bubble evenly distributed's of body purpose, has promoted the intensity and the pore homogeneity of adobe, and then has improved the performance of product. The casting mold realizes continuous and continuous circulating operation from the casting area, the standing maintenance area, the demolding area, the cleaning area and the casting area, and improves the production efficiency.

Description

Continuous production system of anorthite refractory material

Technical Field

The utility model belongs to the technical field of the refractory material preparation, especially, relate to an anorthite refractory material's continuous type production system.

Background

The anorthite brick has high porosity, low volume density and good heat insulation performance, and is widely applied to heat insulation filling materials of spaces between refractory bricks and a barrel body in various industrial kilns. So as to reduce the heat loss of the kiln and obtain high energy utilization efficiency. The anorthite has the melting point of 1550 ℃, has the characteristics of small density, small thermal expansion coefficient, low thermal conductivity, stable existence in reducing atmosphere and the like, can partially replace clay, silicon and high-alumina refractory materials with the working temperature of 1000-1300 ℃, and realizes energy conservation and emission reduction.

The existing anorthite light refractory material, particularly an anorthite light refractory brick, has the problems that the volume density is uncontrollable, and the heat preservation and insulation effect is to be further improved; meanwhile, the process for preparing the limestone tiles in the prior art is difficult to realize continuous production due to the problems of process or raw materials and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anorthite refractory material's continuous production system, the utility model provides an automatic degree of continuous production system is high, and the anorthite refractory material bulk density of production is controllable, and the heat preservation and heat-proof quality is good.

The utility model provides a continuous production system of anorthite refractory material, which comprises a mixing system, a pouring system, a transmission system, a demoulding system, a drying system and a firing system;

the pouring system comprises a pouring bin, a hydraulic system, a limit switch and a needle cylinder system arranged at an outlet of the pouring bin;

the outlet of the needle cylinder system is provided with a pouring head, a pneumatic butterfly valve is arranged between the pouring bin and the needle cylinder system, the hydraulic system is used for controlling the position change of the pouring head so as to realize lifting pouring or telescopic reciprocating pouring of the pouring head from the bottom of the mold, and the limit switch is used for controlling the pouring volume;

the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the transmission system comprises mould steering lifting conveying equipment, standing maintenance equipment, primary and secondary car conveying equipment and mould lowering equipment;

the demolding system comprises a demolding machine, cleaning and oiling equipment, green body upper plate equipment and mold upper frame equipment;

the cleaning and oiling device is used for oiling the mold after demolding of the demolding machine, and the mold upper frame is used for assembling the oil-sprayed mold upper frame and conveying the oil-sprayed mold upper frame back to a pouring system.

Preferably, the compounding system includes stirring pond and compounding mechanism, the stirring pond disposes agitated vessel, compounding mechanism with the pouring feed bin of the gating system is linked together.

Preferably, the mixing system is further provided with a grinding device, and an outlet of the grinding device is communicated with an inlet of the stirring tank.

Preferably, the syringe system comprises a syringe cylinder push rod, a syringe cylinder connecting rod, a syringe cylinder body, a syringe cylinder piston and a syringe inner cavity.

Preferably, the pouring system is provided with a support for slidably fixing the pouring bin.

Preferably, the drying system is a microwave drying system or a hot air drying system.

Preferably, the hot air drying system sequentially comprises a low-temperature drying device and a high-temperature drying device, and is used for sequentially performing low-temperature drying and high-temperature drying on the demolded blank.

Preferably, the cleaning and oiling equipment is spray oiling equipment.

Preferably, the demolding system further comprises an adsorption type paper packing device, and the adsorption type paper packing device is used for packing paper between the demolded blank and a drying vehicle when the demolded blank is transferred to the drying vehicle.

The utility model provides a continuous production system of anorthite refractory material, which comprises a mixing system, a pouring system, a transmission system, a demoulding system, a drying system and a firing system; the pouring system comprises a pouring bin, a needle cylinder system arranged at an outlet of the pouring bin, a hydraulic system and a limit switch; the outlet of the needle cylinder system is provided with a pouring head, a pneumatic butterfly valve is arranged between the pouring bin and the needle cylinder system, the hydraulic system is used for controlling the position change of the pouring head so as to realize lifting pouring or telescopic reciprocating pouring of the pouring head from the bottom of the mold, and the limit switch is used for controlling the pouring volume; the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the transmission system comprises mould steering lifting conveying equipment, standing maintenance equipment, primary and secondary car conveying equipment and mould lowering equipment; the demolding system comprises a demolding machine, cleaning and oiling equipment, green body upper plate equipment and mold upper frame equipment; the cleaning and oiling device is used for oiling the mold after demolding of the demolding machine, and the mold upper frame is used for assembling the oil-sprayed mold upper frame and conveying the oil-sprayed mold upper frame back to a pouring system.

Compared with the prior art, the utility model has the advantages of it is following:

(1) the utility model provides an anorthite refractory material continuous production system, entire system degree of automation is high, need not manual operation basically, and reduce cost has greatly improved production efficiency, and the productivity is promoted to 10000 by original 2000 pieces of daily output.

(2) The pouring process is controlled by adopting a needle tube quantitative pouring or movable telescopic pouring or a combination mode of the needle tube quantitative pouring and the movable telescopic pouring, so that the purposes of quantitative pouring, uniform distribution of slurry and uniform distribution of bubbles in a green body are realized, the strength and the air hole uniformity of the green brick are improved, and the performance of a product is further improved.

(3) The casting mold realizes continuous and continuous circulating operation from the casting area, the standing maintenance area, the demolding area, the cleaning area and the casting area, and improves the production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a mixing system, a pouring system, a conveying system and a demolding system in a continuous production system of anorthite refractory material in one embodiment of the invention;

FIG. 2 is a schematic structural view of a drying system and a firing system in a continuous production system for anorthite refractory according to an embodiment of the present invention;

in FIGS. 1-2, a traveling crane (01), a ball mill (02), a vertical mixer (03), a stirring tank (04), a slurry pump (05), a slurry pipe (06), a mixing mechanism (07), a pouring mechanism (08), a hydraulic mold jacking machine (09), a hydraulic mold hoisting machine, a static curing area (10), a primary-secondary vehicle (11), a mold descending machine (12), a mold stripping machine (13), an oil cleaning and injecting area (14), an automatic plate loading machine (15), a plate loading mechanical arm (16), an automatic plate loading machine (17) and a drying vehicle (18);

FIG. 3 is a side view of a gating system in an embodiment of the present invention;

FIG. 4 is an elevation view of a gating system in an embodiment of the present invention;

in fig. 3-4, a casting system support 01, a mold lower mold 02, a mold upper mold 03, a casting head 04, a cylinder right side cylinder push rod 05, a cylinder right side cylinder link rod 06, a cylinder right side cylinder body 07, a casting bin 08, a casting bin support 09, a slide block 10, a guide rail 11, a cylinder right side cylinder piston 12, a pneumatic butterfly valve 13, a cylinder inner cavity 14, a cylinder left side cylinder piston 15, a cylinder left side cylinder push rod 16, a cylinder left side cylinder link rod 17, a cylinder left side cylinder body 18, a cylinder limit adjustment notch 19, a limit switch 20, a cleaning spray head 21, a cylinder left side bin lift cylinder 22, and a bin lift cylinder right side 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a continuous production system of anorthite refractory material, which comprises a mixing system, a pouring system, a transmission system, a demoulding system, a drying system and a firing system;

the pouring system comprises a pouring bin, a needle cylinder system arranged at an outlet of the pouring bin, a hydraulic system and a limit switch;

the outlet of the needle cylinder system is provided with a pouring head, a pneumatic butterfly valve is arranged between the pouring bin and the needle cylinder system, the hydraulic system is used for controlling the position change of the pouring head so as to realize lifting pouring or telescopic reciprocating pouring of the pouring head from the bottom of the mold, and the limit switch is used for controlling the pouring volume;

the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the transmission system comprises mould steering lifting conveying equipment, standing maintenance equipment, primary and secondary car conveying equipment and mould lowering equipment;

the demolding system comprises a demolding machine, cleaning and oiling equipment, green body upper plate equipment and mold upper frame equipment;

the cleaning and oiling device is used for oiling the mold after demolding of the demolding machine, and the mold upper frame is used for assembling the oil-sprayed mold upper frame and conveying the oil-sprayed mold upper frame back to a pouring system.

The utility model discloses in, the compounding system is preferred including grinding device and mixing apparatus, the grinding device is preferably the ball mill, grinding device is used for grinding the raw materials to required particle diameter, works as when the particle diameter of material meets the requirements, can save grinding device.

The utility model discloses in, mixing apparatus is including stirring pond and compounding mechanism, the stirring pond disposes agitated vessel, like the mixer. The feed inlet in stirring pond with the discharge gate of grinding device is linked together, the discharge gate in stirring pond with the feed inlet of compounding mechanism is linked together through the pipeline, still be provided with the slurry pump on the pipeline between the discharge gate in stirring pond and the compounding mechanism feed inlet for go into the compounding mechanism with the slurry pump of stirring number.

The utility model discloses with the good fire-resistant powder of ball-milling (gangue, kyanite, pyrophyllite etc.) and other powder (like calcium carbonate, high alumina cement etc.) and foaming auxiliary agent in stirring pond intensive mixing mix, then go into compounding mechanism through stuff pump and pipeline pump, wait to detect the stirring is stopped when the ground paste unit weight accords with the pouring requirement, carries the ground paste to the gating system and pours.

In the utility model, the pouring system comprises a pouring bin, a hydraulic system, a limit switch and a needle cylinder system arranged at the outlet of the pouring bin;

in the utility model, the top of the pouring bin is provided with a feed inlet for receiving the mixed slurry from the mixing system; the bottom of pouring feed bin is provided with the discharge gate, discharge gate department is provided with the cylinder system, the export of cylinder system is provided with the pouring head, still be provided with pneumatic butterfly valve between discharge gate and the cylinder system.

The utility model discloses in, the cylinder system includes cylinder hydro-cylinder push rod, cylinder hydro-cylinder connecting rod, cylinder hydro-cylinder body, cylinder hydro-cylinder piston and cylinder inner chamber.

Pouring head below corresponding position can put a plurality of moulds, the shape and the quantity of mould the utility model discloses do not do special restriction, select according to actual demand can.

The utility model discloses in, the gating system still has the support, the support is used for the fixed pouring feed bin that slides on two lateral walls of pouring support, all be provided with the slip track and slide and fix slider on the slip track, the pouring feed bin pass through fixing device with slider fixed connection. The slide block can slide up and down on the slide way.

The utility model discloses a remote control the pneumatic butterfly valve of pouring feed bin bottom realizes with hydraulic pressure station that the excellent reciprocating motion of piston in the needle tubing system carries out the ration pouring. The hydraulic system uses an electric appliance limit switch to calculate the volume of a green brick to be poured according to the volume of the needle cylinder, adjusts the position of a limit switch induction piston to realize quantification, and controls the pouring bin to lift by a lifting oil cylinder (hydraulic system) to achieve the purposes that a pouring head can lift from the bottom of a mold for pouring, so that slurry is uniformly distributed and bubbles inside the green brick are uniformly distributed. The pouring head can also adopt telescopic reciprocating pouring to achieve the purposes of uniform distribution of slurry and uniform distribution of bubbles in the blank.

In the utility model, the transmission system comprises a mould steering lifting conveying device, a standing maintenance device, a primary and secondary vehicle conveying device and a falling film device,

after the pouring of the mold is completed, the electric control system controls a chain plate machine in the mold steering lifting conveying equipment to operate, the chain is used for conveying the mold to a mold steering platform of the mold steering lifting conveying equipment, the direction of the mold is adjusted, the chain is conveyed to a hammock, the hammock is controlled by a limit switch to accurately position the position of each layer of the maintenance frame, and after the positioning, a hydraulic cylinder is used for ejecting the mold to the maintenance frame of each layer of the standing maintenance equipment for product maintenance and initial setting. Carry the mould on the maintenance frame with primary and secondary car conveying equipment's primary and secondary car after the maintenance of initial set (have the mould fork and can up-and-down motion on primary and secondary car conveying equipment's the primary and secondary car, hold in the palm the mould from the maintenance frame through the mould fork), after primary and secondary car transports the assigned position (limit switch) to the mould, fall the mould equipment and start, carry from the primary and secondary car on the mould one deck on the primary and secondary car, carry drawing of patterns system department drawing of patterns through chain drive.

After the demoulded mould is cleaned and oiled, the mould upper frame is assembled through the mould upper frame equipment, and the mould is conveyed back to a pouring system through a chain and can be recycled.

The utility model discloses an improvement casting mold and mould mechanized transmission equipment has related to through mould after the chain transmission pouring and through mould to the casting equipment after the chain transportation drawing of patterns, realizes from the gating system, the maintenance of standing equipment, drawing of patterns system, washing oiling equipment, the incessant continuous cycle operation of gating system, improves production efficiency.

The utility model discloses in, the drawing of patterns system includes stripper, washing oiling equipment, body upper plate equipment and mould upper bracket equipment.

Conveying the product from the standing maintenance equipment to a stripper through primary and secondary vehicle conveying equipment, and obtaining a blank and a mold after the stripper finishes stripping;

the body that obtains passes through body equipment of putting on the shelf and carries it to the drying car on, the preferred absorption packing paper equipment that still is provided with of drawing of patterns system, it is used for to adsorb packing paper equipment the body shifts to the drying car, at the drying car with packing paper between the body, the utility model discloses change artifical packing paper among the prior art into sucking disc and adsorb packing paper equipment and carry out the packing paper, improved the degree of accuracy and production efficiency.

The empty mould that obtains sends into through transmission system and washs oiling equipment, washs and oils the utility model discloses in, wash that oiling equipment is preferred is atomizing oiling equipment, can realize the atomizing and oil, then washs the mould after oiling and carries out the equipment of putting on the shelf to the mould through last trigger manipulator and mould equipment of putting on the shelf, then sends back the gating system through transmission system's chain device.

In the present invention, the drying system is preferably a microwave drying system or a hot air drying system;

the microwave drying system is preferably a microwave drying oven, the utility model preferably uses a drying vehicle to send the demolded green body into the microwave drying oven for drying, the drying temperature is set to be gradient curve rising, and the drying time is set to be 24 h;

the hot air drying system sequentially comprises a low-temperature drying device and a high-temperature drying device and is used for sequentially drying the demolded blank at a low temperature and a high temperature. The utility model preferably uses the drying vehicle to send the demolded blank into the low-temperature drying kiln for low-temperature drying, and then sends the low-temperature dried blank into the high-temperature drying kiln for high-temperature drying, the drying temperature of the low-temperature section is controlled below 60 ℃, and the drying time is controlled within 48 h; then drying at a high temperature section, wherein the temperature is controlled below 110 ℃, and the drying time is controlled within 24 h.

The utility model discloses in, it includes a plurality of tunnel kilns to burn till the system, the body that drying system comes (adobe moisture content control is below 10%) is sent into the tunnel kiln and is burnt till, burns till temperature control at 1260 ℃, and the incubation time is 5 h.

The utility model provides a continuous production system of anorthite refractory material, which comprises a mixing system, a pouring system, a transmission system, a demoulding system, a drying system and a firing system; the pouring system comprises a pouring bin, a needle cylinder system arranged at an outlet of the pouring bin, a hydraulic system and a limit switch; the outlet of the needle cylinder system is provided with a pouring head, a pneumatic butterfly valve is arranged between the pouring bin and the needle cylinder system, the hydraulic system is used for controlling the position change of the pouring head so as to realize lifting pouring or telescopic reciprocating pouring of the pouring head from the bottom of the mold, and the limit switch is used for controlling the pouring volume; the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the transmission system comprises mould steering lifting conveying equipment, standing maintenance equipment, primary and secondary car conveying equipment and mould lowering equipment; the demolding system comprises a demolding machine, cleaning and oiling equipment, green body upper plate equipment and mold upper frame equipment; the cleaning and oiling device is used for oiling the mold after demolding of the demolding machine, and the mold upper frame is used for assembling the oil-sprayed mold upper frame and conveying the oil-sprayed mold upper frame back to a pouring system.

Compared with the prior art, the utility model has the advantages of it is following:

(1) the utility model provides an anorthite refractory material continuous production system, entire system degree of automation is high, need not manual operation basically, and reduce cost has greatly improved production efficiency, and the productivity is promoted to 10000 by original 2000 pieces of daily output.

(2) The pouring process is controlled by adopting a needle tube quantitative pouring or movable telescopic pouring or a combination mode of the needle tube quantitative pouring and the movable telescopic pouring, so that the purposes of quantitative pouring, uniform distribution of slurry and uniform distribution of bubbles in a green body are realized, the strength and the air hole uniformity of the green brick are improved, and the performance of a product is further improved.

(3) The casting mold realizes continuous and continuous circulating operation from the casting area, the standing maintenance area, the demolding area, the cleaning area and the casting area, and improves the production efficiency.

For further explanation of the present invention, the following description will be made in detail with reference to the examples, but it should not be construed as limiting the scope of the present invention.

Example 1

The anorthite brick production system of this embodiment is as shown in figures 3 and 4: the device comprises a mixing system, a pouring system, a conveying system, a demoulding system, a drying system and a sintering system.

Mixing materials: and (3) placing the slurry of the ball-milled refractory powder in a stirring pool 04, fully stirring and mixing the slurry with other powder, foaming agent and the like in the stirring pool 04 through a stirrer 03, then pumping the mixture into a mixing mechanism 07 through a slurry pump 05 and a slurry pipe 06, stopping stirring after manually detecting the volume weight of the slurry until the volume weight of the slurry meets the pouring requirement, and placing the slurry into a pouring system 08 for pouring. When the particle size of the raw materials meets the requirement, the materials can be directly mixed without ball milling, namely, without arranging a ball mill 02. The production device comprises a feeding mechanism (a crane), a ball milling mechanism (a ball mill) and a temporary storage mechanism (a stirring tank, wherein a vertical stirrer is arranged in the stirring tank). The feeding mechanism transfers powder to be ball-milled to the ball-milling mechanism, the ball-milling mechanism is communicated with the temporary storage mechanism, and slurry after ball-milling is directly introduced into the temporary storage mechanism. The temporary storage mechanism is externally connected with a slurry outlet pipe and a slurry pump. The slurry pump sends the slurry pump to a mixing mechanism (a high-platform stirrer), post-addition materials such as foaming agent, cement and the like generated by a foaming mechanism (a foaming machine) are mixed and stirred in the mixing mechanism, and the required volume weight is adjusted by adding the foaming agent. And pouring after the mixing is finished.

Pouring: comprises a conveying mechanism (a primary and a secondary vehicle), a pouring mechanism (needle tube quantitative pouring), a standing maintenance area (a multilayer standing maintenance frame), a demoulding area and a cleaning oiling area. The demolding and conveying mechanism conveys the slurry to be cast after material mixing to the casting mechanism, after casting is completed, the electric control system controls the chain plate machine to operate, the chain is used for conveying the mold to a steering motor tray through a chain to adjust the direction of the mold, the mold is conveyed to a hammock of a hydraulic hammock machine through the chain, the hammock is controlled by a limit switch to accurately position the position of each layer of the maintenance frame, the hydraulic ram machine is used for starting to jack the mold after positioning, and each layer of the static maintenance area is jacked to perform product maintenance and initial setting. After the slurry is solidified and is initially solidified and maintained in a demolding state, the molds on the maintenance frame are conveyed by the primary and secondary vehicle (the mold fork is arranged on the primary and secondary vehicle and can move up and down, and the molds are supported from the maintenance frame through the mold fork), when the primary and secondary vehicle conveys the molds to a specified position (a limit switch), the mold descending machine starts to convey the molds on the primary and secondary vehicle layer by layer from the primary and secondary vehicle, the molds are conveyed to the demolding machine through chain transmission to be demolded, and the molds are manually cleaned and oiled after demolding is completed. Therefore, the whole pouring and demoulding process and the mould recycling are realized.

And (3) transmission: after the pouring of the mold is completed, the chain plate machine in the mold steering equipment is controlled by an electric control system to operate, the mold is conveyed to a mold steering platform of the mold steering lifting conveying equipment by a chain, the direction of the mold is adjusted, the chain is conveyed to a hammock, the position of each layer of the maintenance frame is accurately positioned by controlling the hammock by a limit switch, and after the positioning, the mold is jacked by a hydraulic cylinder to the maintenance frame of each layer of the standing maintenance area 10 for product maintenance and initial setting. After initial setting maintenance, the moulds on the maintenance frame are conveyed by the primary and secondary vehicles of the primary and secondary vehicle conveying equipment 11 (the primary and secondary vehicles of the primary and secondary vehicle conveying equipment 11 are provided with mould forks and can move up and down, and the moulds are supported from the maintenance frame through the mould forks), after the primary and secondary vehicles convey the moulds to a specified position (a limit switch), the mould lowering equipment 12 is started, one layer of the moulds on the primary and secondary vehicles are conveyed from the primary and secondary vehicles, and the moulds are conveyed to the demoulding machine 13 for demoulding through chain transmission.

Demolding: the blank is obtained after the mould sent to the stripper 13 by the primary and secondary vehicles is stripped in the stripper 13, and the blank is sent to a drying system for drying by a blank upper plate device 17; the mold after being released from the mold in the releasing machine 13 is sent to the cleaning and oiling area 14, is subjected to manual oiling treatment, and is then subjected to racking assembly by a racking manipulator 16 and an automatic racking device 15.

And (3) drying: the method comprises the following steps of (1) directly feeding demolded green bricks into a drying kiln for drying, wherein the drying temperature of a low-temperature section is controlled at 60 ℃, and the drying time is controlled at 48 h; then drying at a high temperature section, wherein the temperature is controlled at 110 ℃, and the drying time is controlled at 24 h.

And (3) firing: after drying, measuring the water content of the green brick and controlling the water content to be below 5%; and after stacking and kiln loading, entering a tunnel kiln for sintering. The sintering temperature is controlled to be 1260 ℃, and the heat preservation time is 5 h.

Example 2

The anorthite brick production system of this embodiment, the basic structure is the same as embodiment 1, and the difference lies in the mould after the drawing of patterns is accomplished and washs the link of oiling, oils (the oil that plays the lubrication action) through the atomizing and replaces artifical oiling, and the cost is reduced has improved production efficiency.

Claims (9)

1. A continuous production system of anorthite refractory material is characterized by comprising a mixing system, a pouring system, a conveying system, a demoulding system, a drying system and a sintering system;

the pouring system comprises a pouring bin, a hydraulic system, a limit switch and a needle cylinder system arranged at an outlet of the pouring bin;

the outlet of the needle cylinder system is provided with a pouring head, a pneumatic butterfly valve is arranged between the pouring bin and the needle cylinder system, the hydraulic system is used for controlling the position change of the pouring head so as to realize lifting pouring or telescopic reciprocating pouring of the pouring head from the bottom of the mold, and the limit switch is used for controlling the pouring volume;

the conveying system is used for conveying the product of the pouring system to the demolding system and conveying the demolded mold back to the pouring system; the transmission system comprises mould steering lifting conveying equipment, standing maintenance equipment, primary and secondary car conveying equipment and mould lowering equipment;

the demolding system comprises a demolding machine, cleaning and oiling equipment, green body upper plate equipment and mold upper frame equipment;

the cleaning and oiling device is used for oiling the mold after demolding of the demolding machine, and the mold upper frame is used for assembling the oil-sprayed mold upper frame and conveying the oil-sprayed mold upper frame back to a pouring system.

2. The continuous production system of claim 1, wherein the blending system comprises a stirring tank configured with stirring equipment and a blending mechanism in communication with a pouring bin of the pouring system.

3. A continuous production system according to claim 2, wherein the mixing system is further provided with a grinding device, the outlet of which communicates with the inlet of the stirring tank.

4. The continuous production system of claim 1, wherein the syringe system comprises a syringe cylinder ram, a syringe cylinder link, a syringe cylinder, a syringe cylinder piston, and a syringe cavity.

5. Continuous production system according to claim 1, wherein the casting system is provided with a support for slidably fixing the casting silo.

6. The continuous production system of claim 1, wherein the drying system is a microwave drying system or a hot air drying system.

7. The continuous production system of claim 6, wherein the hot air drying system comprises a low-temperature drying device and a high-temperature drying device in sequence, and the low-temperature drying device and the high-temperature drying device are used for performing low-temperature drying and high-temperature drying on the demolded blank in sequence.

8. The continuous production system of claim 1, wherein the cleaning and oiling apparatus is a spray oiling apparatus.

9. The continuous production system of claim 1, wherein the demolding system further comprises an adsorption type paper-packing device for packing paper between the demolded green body and a drying cart when the demolded green body is transferred to the drying cart.

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