CN218111182U - Magnesium cementing material production system - Google Patents

Abstract

The utility model provides a magnesium cementing material production system, which comprises a batching unit, a plate making and stacking unit, a first curing unit, a demoulding unit, a second curing unit, a stack removing unit and a cutting processing unit; batching unit, system board folded sheet unit, maintenance unit, drawing of patterns unit, the maintenance unit for the second time, remove a pile of piles of unit and cut the processing unit and all adopt two production line to arrange, the two production line symmetrical arrangement of maintenance unit for the first time is in system board folded sheet unit both sides. This production system arranges to link up compactly, and is rationally distributed, saves a large amount of land and uses, and each production unit adopts two production lines simultaneously, has developed and has upgraded relevant professional equipment, compares in traditional production line, and its degree of automation is higher, and its production productivity is about four times of former production line, and personnel still less, have improved production efficiency.

Description

Magnesium cementing material production system

Technical Field

The utility model belongs to the technical field of building material production, concretely relates to magnesium cementing material production system.

Background

The magnesium cementing material is a novel material compounded by taking natural inorganic minerals as a main material, taking a high polymer modified material as a reinforcing agent and taking a light material as a filler, and is usually used as a non-combustible decorative material due to the characteristics of fire prevention, flame retardance and the like, and is also called a magnesium crystal plate or a magnesium crystal A-grade fire-proof flame-retardant plate. The unique smooth surface of the magnesium crystal plate can be pasted with wallpaper, plastic aluminum, wood veneer, PVC, sprayable paint or emulsion paint and the like, and the rough surface of the magnesium crystal plate can be pasted with ceramic tile, marble, granite and the like. The magnesium crystal board has the advantages of fire resistance, flame retardance, A level, formaldehyde release amount, E0 level, no toxicity, no odor, moisture resistance and water resistance, inorganic boards and organic boards, and low cost, can replace blockboards widely used in the current decoration market, and saves resources.

At present, the arrangement of each working section of a production workshop of the traditional process for producing the magnesium cementing material is more dispersed, the automation degree is not high, more workers are needed, the productivity is lower, and the occupied area is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a magnesium cementing material production system can solve the partial problem that exists among the prior art at least.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a magnesium cementing material production system comprises a batching unit, a plate making and stacking unit, a first curing unit, a demoulding unit, a second curing unit, a stack removing unit and a cutting processing unit; the batching unit, system board folded plate unit, maintenance unit, drawing of patterns unit, maintenance unit for the second time, remove a pile of piles of unit and cut the processing unit and all adopt two production line to arrange, the two production line symmetrical arrangement of maintenance unit for the first time is in system board folded plate unit both sides.

Further, the batching unit comprises a magnesium solution preparation mechanism and a batching mechanism for preparing the bottom sizing agent, the intermediate material and the sanding fabric; the discharge gate and the batching mechanism of magnesium solution preparation mechanism are connected, the discharge gate and the system board folded plate unit of batching mechanism are connected.

Furthermore, the plate making and stacking unit is positioned below the batching unit and comprises a four-station plate feeding machine, a plate making machine, a plate blank transverse moving machine and a lifting and stacking machine, the four-station plate feeding machine is connected with the plate making machine through a template conveying belt, a feeding hole of the plate making machine is connected with a discharging hole of the batching unit, a plate discharging end of the plate making machine is connected with the plate blank transverse moving machine through a plate blank conveying belt, and the plate blank transverse moving machine is connected with the lifting and stacking machine through a plate feeding belt.

Further, first time maintenance unit and second time maintenance unit all include the curing kilns, hot-blast apparatus is installed at the curing kilns top, and curing kilns internally mounted has the tuber pipe, and electronic heat preservation kiln door is all installed to the exit of curing kilns, the curing kilns entry transit connection of system board folded plate unit through heavy load friction pulley ferry car and first time maintenance unit, the curing kilns entry of second time maintenance unit pass through friction pulley ferry car with the slab export transit connection of drawing of patterns unit.

Further, the demolding unit comprises a lifting plate discharging machine, a demolding machine, a first plate turnover machine and a plate blank stacking machine which are sequentially connected, the lifting plate discharging machine is connected with an outlet of the first maintaining unit, and the plate blank stacking machine is connected with an inlet of the second maintaining unit.

Furthermore, the demoulding unit also comprises a mould cleaning machine and a template stacker, wherein the mould cleaning machine is connected with a template outlet of the demoulding machine, and the template stacker is connected with the plate making and stacking unit through a chain conveyor.

Further, the stack removing unit comprises a slab stack removing machine for separating the slab subjected to secondary maintenance from the backing plate, a slab outlet of the slab stack removing machine is connected with the cutting processing unit, and a backing plate outlet of the slab stack removing machine is connected with the secondary maintenance unit.

Furthermore, the cutting processing unit comprises a longitudinal cutting edge chamfering machine, a first rotary plate moving machine and a first transverse cutting edge chamfering machine, the longitudinal cutting edge chamfering machine is connected with a slab outlet of the stack removing unit, the longitudinal cutting edge chamfering machine is connected with the first rotary plate moving machine through a roller conveyor, and the first rotary plate moving machine is connected with the first transverse cutting edge chamfering machine through a wide transition conveying table.

Furthermore, above-mentioned magnesium cementing material production system still includes sand light processing unit, sand light processing unit includes that the sand light that sets gradually along slab direction of delivery goes up trigger, panel turnover machine two, roll table conveyer, rotatory trigger two that move, wide transition conveying platform, perpendicular tune around the machine and be used for handling the last grinder and the bottom surface grinder of slab upper and lower surface respectively.

Furthermore, above-mentioned magnesium cementing material production system still includes waste recycling unit, waste recycling unit includes rubbing crusher and waste material storehouse, the rubbing crusher with cutting processing unit's waste material exit linkage, the waste material storehouse is connected with the rubbing crusher discharge gate.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) The utility model provides a magnesium cementing material production system arranges and links up compactly, and is rationally distributed, saves a large amount of lands and uses, and each production unit adopts two production lines simultaneously, develops and has upgraded relevant professional equipment, compares in traditional production line, and its production productivity is about the quadruple of former production line, and personnel still less, have improved production efficiency.

(2) The utility model provides a most production unit of this kind of magnesium cementing material production system adopts programmable controller automatic control, and degree of automation is higher.

(3) The utility model provides a magnesium cementing material production system design waste recovery processing unit handles waste recovery, resources are saved environmental protection.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram showing the arrangement of the positions of the units of the magnesium cement production system of the present invention;

FIG. 2 is a schematic diagram of the arrangement of the units of the magnesium cement production system of the present invention;

FIG. 3 is a schematic view of the connection between the middle plate-making and plate-stacking unit and the first maintenance unit;

FIG. 4 is a schematic view of the connection between the first curing unit and the demolding unit;

FIG. 5 is a schematic view showing the connection among the unstacking unit, the cutting unit and the waste recycling unit of the present invention;

fig. 6 is a schematic structural diagram of the middle sanding processing unit of the present invention.

Description of reference numerals: 1. a magnesian solution preparation mechanism; 2. a batching mechanism; 3. a plate making and stacking unit; 4. a first curing unit; 5. a demolding unit; 6. a second curing unit; 7. a waste recovery processing unit; 8. a sanding processing unit; 9. a stack removing unit; 10. a cutting processing unit; 11. a slab cross-sliding machine; 12. lifting the plate stacking machine; 13. a heavy-duty friction wheel ferry vehicle; 14. lifting the plate discharging machine; 15. a stripper; 16. clearing the mould machine; 17. a template stacker; 18. turning over a first plate machine; 19. a plate blank stacker; 20. a slab unstacker; 21. longitudinally cutting edge chamfering machine; 22. rotating the plate moving machine I; 23. a transverse cutting edge chamfering machine; 24. a pulverizer; 25. a waste bin; 26. sanding and loading the plate; 27. turning over the plate machine two; 28. a roller conveyor; 29. a second plate rotating and transferring machine; 30. a wide transition conveying table; 31. a vertical U-turn machine; 32. putting on a sander; 33. bottom surface grinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; in the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 and fig. 2, the present embodiment provides a magnesium cement production system, which includes a batching unit, a plate making and stacking unit 3, a first curing unit 4, a demoulding unit 5, a second curing unit 6, a stack removing unit 9, and a cutting processing unit 10; the batching unit, system board folded plate unit 3, the maintenance unit 4 for the first time, drawing of patterns unit 5, the maintenance unit 6 for the second time, remove a buttress unit 9 and cut processing unit 10 and all adopt two production line to arrange, the two production line symmetrical arrangement of the maintenance unit 4 for the first time is in system board folded plate unit 3 both sides. The batching unit comprises the preparation of magnesium solution and batching of bottom sizing agent, intermediate material and sanding fabric. In this embodiment, each production unit adopts two production lines, compares in traditional production line, and its production capacity is about four times of former production line, has improved production efficiency, and each production unit links up compactly simultaneously, and is rationally distributed, has saved a large amount of lands and has used, has effectively solved each workshop section of traditional technology workshop and has arranged more dispersedly, and degree of automation is not high, and the workman is more, and the productivity is lower, and area is big problem.

In a detailed embodiment, the batching unit comprises a magnesium solution preparation mechanism 1 and a batching mechanism 2 for preparing bottom sizing agent, intermediate material and sanded fabric; the discharge gate and the batching mechanism 2 of magnesium solution preparation mechanism 1 are connected, the discharge gate and the system board folded plate unit 3 of batching mechanism 2 are connected. Specifically, the magnesium solution preparation mechanism 1 mainly comprises a full-automatic unpacking machine, a stirring tank and solution storage tanks which are sequentially connected, wherein a ton bag filled with magnesium sulfate heptahydrate or magnesium chloride crystals is automatically unpacked by the unpacking machine and then is conveyed to a reversible speed-regulating belt scale by a screw conveyor to realize accurate metering, the ton bag is conveyed to a plurality of solution stirring tanks to be dissolved by heating water, a tank body is used for detecting real-time liquid level by a laser level meter, and a quantitative modifier is added and then is conveyed to the plurality of solution storage tanks by a self-priming pump to be stored; optimized, the mode of the solution storage tank body cladding heat preservation rock wool reduces the heat loss, and the inside PE coil pipe that is equipped with to lead to the mode of hot water circulation heat transfer in the PE coil pipe, reduce the cooling crystallization of magnesium sulfate solution storage in-process. The batching mechanisms 2 of the bottom sizing agent, the intermediate material and the sanding fabric mainly comprise powder bins, a spiral conveyor, a weigher, a stirrer and the like, the batching mechanisms 2 are positioned behind the magnesium solution preparation mechanism 1 and are arranged in a double-line mode, all powder materials for preparing the bottom sizing agent, the intermediate material and the sanding fabric are cached in the respective powder bins, all the materials for preparing the bottom sizing agent, the intermediate material and the sanding fabric enter the respective stirrer to be mixed after being metered and batched in work, and the prepared bottom sizing agent, intermediate material and sanding fabric are conveyed to the plate-making laminated unit 3 to be made into plates; the preparation of the bottom sizing agent adopts magnesium oxide powder, talcum powder, the prepared magnesium solution and other raw materials, the preparation of the intermediate material adopts aggregate, wood powder, magnesium oxide powder, magnesium solution, recycled corner waste materials generated by a cutting processing unit and other raw materials, and the preparation of the sanding fabric adopts magnesium oxide powder, wood powder, talcum powder, the prepared magnesium solution and other raw materials.

As an embodiment, as shown in fig. 3, the plate making and stacking unit 3 is located below the batching unit and includes a four-station plate feeding machine, a plate making machine, a slab transverse moving machine 11 and a lifting and stacking machine 12, the four-station plate feeding machine is connected with the plate making machine through a template conveying belt, the feeding port of the plate making machine is connected with the discharging port of the batching unit, the discharging port of the plate making machine is connected with the slab transverse moving machine 11 through a slab conveying belt, and the slab transverse moving machine 11 is connected with the lifting and stacking machine 12 through a slab feeding belt. The template is conveyed to a template conveying belt through a four-station template feeding machine and conveyed into the template feeding machine, non-woven fabrics, glass fiber cloth, bottom slurry, intermediate materials and sanding fabrics are sequentially paved on the surface of the template, and are preliminarily formed through rolling, the glass fiber cloth and grid cloth are paved on a preliminarily formed plate blank, and the plate blank is finally formed through rolling to fix the thickness; the slab and the template of deciding thick move along with conveyor belt, and when the cutting section of trigger system, the cutting saw bit accomplished the slab cutting to it according to the procedure that sets up, and the slab after the cutting is carried to lift stacker 12 department through accelerating the belt, packs the slab into the pallet truck through lift stacker 12, and wherein, lift stacker 12 adopts mechanical type lift and roller way to carry, and the operation is steady can fully guarantee leveling of slab surface. Optimally, 2 platen blank transverse moving machines 11 and lifting plate stacking machines 12 are designed on the assembly line of the plate manufacturing and plate stacking unit 3, the plate blank transverse moving machines 11 can switch the plate blanks to the lifting plate stacking machines 12 at another station for plate stacking after a whole vehicle is full, so that the vehicle changing is not stopped in the production process, the whole process of plate manufacturing, cutting and plate stacking is automatically controlled by a programmable controller, and the automatic production of the plate manufacturing is realized.

As a specific embodiment, the first curing unit 4 is symmetrically arranged in a double-line manner, each production line comprises a curing kiln, hot air equipment is installed at the top of the curing kiln, an air pipe is installed inside the curing kiln, electric heat preservation kiln doors are installed at an inlet and an outlet of the curing kiln, a heat source is provided by means of hot air circulation, so that the temperature in the curing kiln of the first curing unit 4 is kept at 30-35 ℃, the humidity is 85-90%, the first curing unit can be taken out of the kiln after 12h curing, and the moisture of a plate blank is reduced from 45% before curing to 30-40% after curing; the plate making and stacking unit 3 is connected with a curing kiln inlet of the primary curing unit 4 in a transfer mode through a heavy-load friction wheel ferry vehicle 13, and a goods shelf vehicle loaded with plate blanks and templates drives in or out of the curing kiln through the heavy-load friction wheel ferry vehicle 13 and is conveyed in the curing kiln through a tractor.

As shown in fig. 3 and 4, the sheet blank after the first curing is conveyed to the demolding unit 5 for demolding, specifically, the demolding unit 5 includes a lifting sheet discharging machine 14, a demolding machine 15, a first sheet turnover machine 18 and a sheet blank stacking machine 19 which are connected in sequence, the lifting sheet discharging machine 14 is connected with an outlet of the first curing unit 4, and the sheet blank stacking machine 19 is connected with an inlet of the second curing unit 6. Conveying the plate blank after primary curing to a two-station stripper 15 for demolding through a lifting plate discharging machine 14, separating the plate blank with a template from the template at the two-station stripper 15, turning the plate blank after demolding at intervals through a plate turning machine I18, stacking the plate blank at a three-station plate blank stacker 19, and adding a secondary curing backing plate; optimally, the assembly line of the demoulding unit 5 is provided with 2 bedplate blank transverse moving machines and lifting plate discharging machines 14, the plate blank transverse moving machines can ensure that the 2 lifting plate discharging machines 14 work alternately, seamless connection is realized, and the production is not stopped when the vehicles are changed in the production process. And for the empty template after demoulding, the demoulding unit 5 also comprises a mould cleaning machine 16 and a template stacker 17, the mould cleaning machine 16 is connected with the template outlet of the demoulding machine 15, the template stacker 17 is connected with the plate-making and stacking unit 3 through a chain conveyor, the empty template is washed by the mould cleaning machine, air-dried and stacked through the two-station template stacker 17, and the template stack returns to the plate-making and stacking unit 3 through the chain conveyor, so that the automatic cyclic utilization of the template on the production line is realized.

The slab after the drawing of patterns is carried to second time maintenance unit 6 and is carried out the maintenance for the second time, and second time maintenance unit 6 is the centralized arrangement of double-line, and every online capital equipment includes the maintenance kiln, hot-blast apparatus is installed at the maintenance kiln top, and maintenance kiln internally mounted has the tuber pipe, and electronic heat preservation kiln door is all installed to the exit of maintenance kiln, relies on heated air circulation to provide the heat source, and the maintenance of second time maintenance kiln divide into two stages, the first stage: the curing time is 0-48 hours, the temperature is 45 ℃, the humidity is less than 65%, and the second stage is as follows: the curing time is 48-72 hours, the temperature is 55 ℃, the humidity is less than 65%, and the moisture of the plate blank after the secondary curing is reduced from 30-40% before the curing to 12-15% after the curing; the curing kiln entry of secondary curing unit 6 pass through the friction wheel ferry vehicle with the slab outlet transfer connection of drawing of patterns unit 5, the secondary maintenance dolly that carries the slab buttress relies on the tractor to carry in the kiln, and the maintenance kiln of business turn over secondary curing unit relies on the friction wheel ferry vehicle work, and the secondary maintenance dolly that goes out of the kiln passes through the friction wheel ferry vehicle and carries to removing buttress unit 9.

Specifically, as shown in fig. 5, the stack removing unit 9 is arranged in a double-line centralized manner and connected to the second curing unit 6 through a ferry transfer trolley, the main equipment includes a slab removing and stacking machine 20 for separating slabs and backing plates after the second curing, a slab outlet of the slab removing and stacking machine 20 is connected to the cutting processing unit 10, a backing plate outlet of the slab removing and stacking machine 20 is connected to the second curing unit 6, a slab stack discharged from the curing kiln of the second curing unit 6 is separated from the secondary curing backing plates through the three-station slab removing and stacking machine 20, the backing plates are returned to the demolding unit 5 for recycling along a rail by a vehicle returning tractor, and the slabs are conveyed to the cutting processing unit 10 by a roller conveyor for processing.

The cutting processing unit 10 is arranged in a double-line centralized mode and is connected with the stack removing unit 9 through a roller conveyor, the main equipment comprises a longitudinal edge cutting chamfering machine 21, a rotary plate moving machine I22 and a transverse edge cutting chamfering machine 23, the longitudinal edge cutting chamfering machine 21 is connected with a plate blank outlet of the stack removing unit 9, the longitudinal edge cutting chamfering machine 21 is connected with the rotary plate moving machine I22 through the roller conveyor, and the rotary plate moving machine I22 is connected with the transverse edge cutting chamfering machine 23 through a wide transition conveying table; the plate blank on the roller conveyor enters into the transverse and longitudinal edge cutting chamfering unit, the plate blank is subjected to accurate edge cutting, grinding and chamfering according to the specification requirement of the finished plate, the plate blank after cutting is conveyed to the plate folding device through conveying equipment such as a roller way and the like to automatically complete plate folding and stacking, and then the plate blank is conveyed to a finished product area by a forklift to be stored.

To the leftover materials that cutting processing unit 10 produced to the slab processing, above-mentioned magnesium cementing material production system still includes waste recycling processing unit 7, waste recycling processing unit 7 includes rubbing crusher 24 and waste material storehouse 25, rubbing crusher 24 with cutting processing unit 10's waste outlet connection, waste material storehouse 25 is connected with rubbing crusher 24 discharge gate. The cut leftover materials are conveyed to the pulverizer 24 through the conveyor to be subjected to primary pulverization treatment, the primarily pulverized coarse powder is conveyed to a coarse powder bin through the belt conveyor and the bucket elevator to be stored, and then is stored in a fine powder bin after being subjected to secondary pulverization, and is conveyed to a recovery powder bin of the batching unit in a centralized mode through the pneumatic conveying system for standby, so that resources are saved, and the environment is protected.

Further optimally, according to production requirements, the partially cut plate blank needs to be sanded, and on the basis, the magnesium cementing material production system further comprises a sanding processing unit 8, as shown in fig. 6, the sanding processing unit 8 comprises a sanding plate feeding machine 26, a plate turnover machine 27, a roller conveyor 28, a rotary plate moving machine 29, a wide transition conveying table 30, a vertical turning machine 31, and a sanding machine 32 and a bottom surface sanding machine 33 which are sequentially arranged in the plate blank conveying direction and are respectively used for processing the upper surface and the lower surface of the plate blank. An upper plate conveying production line and a sanding processing production line in the sanding processing unit 8 are vertically distributed and connected through a vertical U-turn machine 31, so that the layout of the sanding processing unit 8 is more compact; specifically, the plate blank is transferred to a two-station sanding plate loading machine 26 of the sanding processing unit 8 through a forklift, the cut plate blank is turned over at intervals of a plate turning machine two 27 and then is conveyed to a rotary plate transferring machine two 29 through a roller conveyor 28, the plate blank is continuously conveyed forwards after rotating around the center of the plate transferring machine two 29 for 90 degrees, the plate blank is conveyed to a vertical turning machine 31 through a wide transition conveying table 30, the conveying direction of the plate blank is changed through the vertical turning machine 31, and then the upper surface and the lower surface of the plate blank are sanded through a roller conveying machine 32 and a bottom surface sanding machine 33 in sequence. This sand light processing unit production line configuration a heavy pair of last grinder 32 and a bottom surface sander 33 of going up the sand, the fixed thickness sand is cut, and combination collocation is nimble, guarantees that the face is level and smooth, improves appearance quality, satisfies the trade and to the higher requirement of fire-retardant board of fire prevention, and the automatic folded plate stack of accomplishing of slab after the sand light, then is delivered to the finished product district by fork truck and deposits.

In this embodiment, each production processing unit can be automatically controlled by a programmable controller to realize automated production, and specifically, each production processing unit is provided with an I/O station and an upper computer operating station, which are mainly responsible for on-site data acquisition and processing, and simultaneously transmit data to a control center and receive data and instructions from the control center to ensure normal operation of the production line. The I/O station of each production processing unit exchanges data with a main I/O station in the central control room in an Ethernet communication mode, and the upper computer in the central control room displays the running state of the I/O station; the PLC selects Siemens S7-1500 and S7-1200 series products, the control system adopts WinCC configuration software to program, each process device in the flow picture adopts animation graphics, so that the monitoring picture is more vivid and vivid; the equipment control adopts a control room priority scheme, and each controlled equipment can be operated by DCS and field workers in two modes.

The above examples are merely illustrative of the present invention and do not limit the scope of the present invention, and all designs identical or similar to the present invention are within the scope of the present invention.

Claims (10)

1. The magnesium cementing material production system is characterized by comprising a batching unit, a plate making and stacking unit, a first curing unit, a demoulding unit, a second curing unit, a stack removing unit and a cutting processing unit; batching unit, system board folded sheet unit, maintenance unit, drawing of patterns unit, the maintenance unit for the second time, remove a pile of piles of unit and cut the processing unit and all adopt two production line to arrange, the two production line symmetrical arrangement of maintenance unit for the first time is in system board folded sheet unit both sides.

2. The magnesium cement manufacturing system according to claim 1, wherein the batching unit comprises a magnesium solution preparation mechanism and batching mechanisms for preparing a base slurry, an intermediate material and a sanded face material; the discharge gate and the batching mechanism of magnesium solution preparation mechanism are connected, the discharge gate and the system board folded plate unit of batching mechanism are connected.

3. The magnesium cement production system according to claim 1, wherein the plate-making and stacking unit is located below the batching unit and comprises a four-station plate-feeding machine, a plate-making machine, a slab cross-moving machine and a lifting and stacking machine, the four-station plate-feeding machine is connected with the plate-making machine through a template conveying belt, the feeding port of the plate-making machine is connected with the discharging port of the batching unit, the plate-discharging end of the plate-making machine is connected with the slab cross-moving machine through a slab conveying belt, and the slab cross-moving machine is connected with the lifting and stacking machine through a plate-feeding belt.

4. The magnesium cement production system according to claim 1, wherein the first curing unit and the second curing unit each comprise a curing kiln, hot air equipment is installed at the top of the curing kiln, an air duct is installed inside the curing kiln, electric heat-insulating kiln doors are installed at the inlet and the outlet of the curing kiln, the plate-making and plate-stacking unit is in transfer connection with the curing kiln inlet of the first curing unit through a heavy-duty friction wheel ferry vehicle, and the curing kiln inlet of the second curing unit is in transfer connection with the slab outlet of the demolding unit through a friction wheel ferry vehicle.

5. The magnesium cementitious material production system of claim 1, wherein the demoulding unit comprises a lifting plate discharging machine, a demoulding machine, a plate turnover machine and a plate blank stacking machine which are connected in sequence, the lifting plate discharging machine is connected with an outlet of the first curing unit, and the plate blank stacking machine is connected with an inlet of the second curing unit.

6. The magnesium cement manufacturing system according to claim 5, wherein the demoulding unit further comprises a mould cleaning machine and a template stacker, the mould cleaning machine is connected with the template outlet of the demoulding machine, and the template stacker is connected with the plate-making and stacking unit through a chain conveyor.

7. The magnesium cement production system according to claim 1, wherein the stack removing unit comprises a slab stack removing machine for separating the secondarily cured slab from the backing plate, a slab outlet of the slab stack removing machine is connected with the cutting processing unit, and a backing plate outlet of the slab stack removing machine is connected with the secondary curing unit.

8. The magnesium cementing material production system of claim 1, wherein the cutting processing unit comprises a longitudinal edge chamfering machine, a first rotary plate moving machine and a first transverse edge chamfering machine, the longitudinal edge chamfering machine is connected with a slab outlet of the stack removing unit, the longitudinal edge chamfering machine is connected with the first rotary plate moving machine through a roller conveyor, and the first rotary plate moving machine is connected with the first transverse edge chamfering machine through a wide transition conveying table.

9. The magnesium cementitious material production system as claimed in claim 1, further comprising a sanding processing unit, wherein the sanding processing unit comprises a sanding plate feeding machine, a plate turnover machine II, a roller conveyor, a rotary plate moving machine II, a wide transition conveying table, a vertical turning machine, and an upper sanding machine and a bottom sanding machine which are respectively used for processing the upper surface and the lower surface of the plate blank, which are sequentially arranged along the conveying direction of the plate blank.

10. The magnesium cement manufacturing system according to claim 1, further comprising a waste recycling unit, wherein the waste recycling unit comprises a crusher and a waste bin, the crusher is connected to the waste outlet of the cutting processing unit, and the waste bin is connected to the discharge outlet of the crusher.

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