CN113602784B - Plate production system - Google Patents

Abstract

The invention relates to a plate production system which comprises a plate conveying device, a template separating device, a demolding device, a plate moving device, a fitting device and a feeding device, wherein the plate conveying device, the template separating device, the demolding device, the plate moving device, the fitting device and the feeding device are all connected with a controller. The template separation device comprises a separation mechanism and a template frame conveying mechanism. The demoulding device comprises a pressing mechanism and a mould frame limiting mechanism, the pressing mechanism and the mould frame limiting mechanism are both arranged on the mould frame conveying mechanism, the mould frame limiting mechanism is located under the pressing mechanism, and the pressing mechanism can push the plates in the mould frame to the plate moving device. The feeding device comprises a stirring device, a feeding device and a plurality of storage hoppers. The plate production system utilizes the closed conveyor belts connected end to end as a plate conveying device, finished plates are produced from raw materials, then demoulding of the plates is carried out in the production system, the whole process is controlled by the controller in real time to carry out full-automatic production, the plate production efficiency is effectively improved, the control of the product quality is facilitated, and the plate production system can be effectively applied to factory production.

Description

Plate production system

Technical Field

The invention relates to the technical field of plate production, in particular to a plate production system.

Background

In order to respond to the call of energy conservation and emission reduction, the nation has vigorously popularized the use of heat-insulating materials on building walls so as to achieve the aim of building energy conservation. The existing wall heat-insulating material comprises hollow building blocks, porous clay bricks, sandwich boards, reinforced fiber cement boards, composite heat-insulating boards and the like. The composite insulation board has the advantages of low thermal conductivity, good insulation effect, strong fire resistance, no toxic and harmful radioactive substances, environmental protection and energy conservation, and the technical performance of the composite insulation board meets the material requirements of fire prevention and fire control regulations of building walls, so the composite insulation board is an ideal fire-proof safe insulation material. The mould for producing the composite insulation board comprises a mould frame and a template, wherein the mould frame is superposed on the template, a first layer of cement is laid in the mould frame during the production of the board, then the insulation material is laid on the first layer, and a second layer of cement is laid on the insulation material, so that the insulation material is packaged in the cement. And (5) after the cement is solidified, demolding the plate to complete the production of the plate. In the existing plate production, raw materials required by plate production are usually mixed in sequence by manpower and then poured into a mold, so that the production efficiency is low, and raw materials are easy to scatter and waste in the mixing process. The existing automatic feeding equipment is independent of a plate production line, the proportion of each component in the raw material needs to be controlled by an independent measuring tool, the mixed raw material still needs to be transported to a mould by transfer equipment, online feeding cannot be realized, and the production efficiency of the plate is seriously influenced. The processes of loading, unloading and demoulding of the plates all need a large amount of manual work, the automation degree is low, the loading, demoulding and unloading efficiencies are low, and the production efficiency of the whole automatic production line is seriously influenced.

Disclosure of Invention

Technical problem to be solved

In view of the above-mentioned drawbacks and deficiencies of the prior art, the present invention provides a sheet material production system that solves the technical problem of low efficiency of the sheet material production system.

(II) technical scheme

In order to achieve the above object, the sheet material production system of the present invention comprises:

a controller;

the plate conveying device is a closed conveying belt which is connected end to end;

the template separation device comprises a separation mechanism and a template frame conveying mechanism; the separation mechanism and the die frame conveying mechanism are arranged on the plate conveying device, the die frame conveying mechanism is overlapped on the plate conveying device, and the die frame conveying mechanism is connected with the separation mechanism;

the demolding device comprises a pressing mechanism and a die frame limiting mechanism, wherein the pressing mechanism and the die frame limiting mechanism are both arranged on the die frame conveying mechanism, and the die frame limiting mechanism is positioned right below the pressing mechanism;

the plate moving device is arranged between the die frame limiting mechanism and the plate conveying device, and the pressing mechanism can push the plates in the die frame to fall onto the plate moving device;

the laminating device is connected with the die frame conveying mechanism; and (c) a second step of,

the feeding device comprises a stirring device, a feeding device and a plurality of storage hoppers; the outlets of the storage hoppers are connected with a measuring hopper, the inlet of the stirring device is connected with the outlet of the measuring hopper, the inlet of the feeding device is connected with the outlet of the stirring device, and the outlet of the feeding device is positioned above the plate conveying mechanism;

the plate conveying device, the template separating device, the demolding device, the plate moving device, the laminating device and the feeding device are all connected with the controller.

Optionally, the separating mechanism comprises a separating conveyor belt and a parting assembly;

the separation conveyor belt comprises a conveyor belt, a plurality of guide rollers are arranged on two sides of the conveyor belt, and rotating shafts of the guide rollers are perpendicular to the upper surface of the conveyor belt;

the conveying belt is obliquely arranged on the plate conveying device, the first end of the separating conveying belt is connected with the plate conveying device, and the second end of the separating conveying belt is connected with the die frame conveying mechanism;

the parting assembly is arranged on the plate conveying device;

the parting assembly and the separating conveyor belt are both connected with the controller.

Optionally, the parting assembly comprises a parting motor, a parting roller, a mounting seat and a parting block;

the mounting seat is oppositely arranged on the plate conveying device;

the parting motor is arranged on the mounting seat and is connected with the controller;

two ends of the parting roller are respectively in one-to-one corresponding rotary connection with the oppositely arranged mounting seats, the parting motor is connected with the parting roller, and the parting motor can drive the parting roller to rotate;

the parting block is arranged on the mounting seat, the parting block is a triangular prism, a first side surface of the triangular prism is horizontal, and a gap is formed between the first side surface and the plate conveying device; and the second side surface of the triangular prism is inclined, and the included angle between the first side surface and the second side surface faces the incoming material direction of the plate conveying device.

Optionally, a plurality of flange rollers are arranged on the mold frame conveying mechanism, and rotating shafts of the flange rollers are vertically arranged; the die frame conveying mechanism is provided with a discharging window, and the die frame limiting mechanism is arranged in the discharging window;

the mold frame limiting mechanism comprises a plurality of encapsulation rollers which are arranged in pairs, and rotating shafts of the encapsulation rollers are horizontal;

the pressing mechanism comprises a plurality of plate unloading cylinder assemblies, and the plate unloading cylinder assemblies are positioned right above the unloading windows;

the plate unloading cylinder assembly comprises a material pushing plate and a pressing cylinder;

the cylinder body of the lower air cylinder is vertically arranged on the die frame conveying mechanism through an air cylinder mounting frame, the top end of a piston rod of the lower air cylinder faces downwards, air pipes connected with the lower air cylinder are provided with first electromagnetic valves, and the first electromagnetic valves are connected with the controller;

the upper surface of the material pushing plate is connected with the top end of a piston rod of the downward pressing cylinder through a connecting piece, and the lower surface of the material pushing plate is horizontal.

Optionally, the plate moving device is a plate moving conveyor belt, and the plate moving conveyor belt is located between the die frame limiting mechanism and the plate conveying device; the conveying direction of the plate moving conveying belt is perpendicular to the conveying direction of the plate conveying device;

the laminating device is a laminating conveyor belt, the laminating conveyor belt is obliquely arranged on the plate conveying device, the first end of the laminating conveyor belt is connected with the die frame conveying mechanism, and the second end of the laminating conveyor belt is connected with the plate conveying device.

Optionally, the weighing hopper comprises a barrel body, a first opening and closing mechanism and a second opening and closing mechanism;

the cylinder body is vertically arranged on the mounting frame, a first opening is formed in the upper end of the cylinder body, a second opening is formed in the lower end of the cylinder body, the first opening is connected with an outlet of the storage hopper, and the second opening is connected with an inlet of the stirring device;

the first opening and closing mechanism and the second opening and closing mechanism respectively comprise an opening and closing air cylinder and a movable plate, the cylinder body of the opening and closing air cylinder is connected with the mounting frame, the piston rod of the opening and closing air cylinder is connected with the movable plate, the air pipes connected with the opening and closing air cylinder are respectively provided with a second electromagnetic valve, and the second electromagnetic valves are connected with the controller;

the movable plate of the first opening and closing device is slidably arranged between the first opening and the outlet of the storage hopper;

the movable plate of the second opening and closing device is slidably arranged between the second opening and the inlet of the stirring device.

Optionally, the stirring device comprises a stirring driving mechanism, a stirring mechanism and a discharging mechanism;

the stirring mechanism comprises a cylinder, stirring blades, a cover plate and a bottom plate;

the cylinder body is of a cylinder structure with openings at two ends, and is vertically arranged between the storage hopper and the feeding device;

the stirring blade is rotationally arranged in the cylinder body, the stirring driving mechanism is arranged on the cylinder body and connected with the controller, and the stirring driving mechanism can drive the stirring blade to rotate;

the cover plate is arranged at the first end of the cylinder body, a plurality of stirring feed inlets are formed in the cover plate, and the stirring feed inlets are connected with outlets of the weighing hoppers in a one-to-one correspondence manner;

the bottom plate set up in the second end of barrel, the stirring drain hole has been seted up on the bottom plate, the stirring drain hole passes through drop feed mechanism connects feeder's entry.

Optionally, the discharging mechanism comprises a discharging cylinder, a connecting rod and a discharging plate;

the cylinder body of the discharging cylinder is rotationally arranged on the cylinder body, a piston rod of the discharging cylinder is connected with the first end of the connecting rod, third electromagnetic valves are arranged on air pipes connected with the discharging cylinder, and the third electromagnetic valves are connected with the controller;

the feeding plate comprises a plate body and a rotating shaft, the rotating shaft is vertically connected with the plate body, the rotating shaft is rotatably connected with the outer side wall of the barrel, and the second end of the connecting rod is connected with the plate body through a fisheye joint;

the discharging plate can be continuously switched among a first state, a second state and a third state, wherein the first state is that the plate body completely covers the stirring discharging hole; the second state is that plate body part closing cap stirring drain hole, the third state is the plate body breaks away from completely stirring drain hole.

Optionally, the feeding device comprises a feeding rack, a feeding bin, a stirring unit and a dosing unit;

the feeding machine frame is arranged on the mounting frame, and the feeding bin is arranged on the feeding rack;

a feeding inlet and a feeding discharge port are formed in the feeding bin, the feeding inlet is connected with an outlet of the stirring device, and the feeding discharge port is positioned above the plate conveying device; the quantitative unit is arranged at the feeding and discharging port and is used for quantitatively feeding;

the stirring unit comprises a first driving piece, a stirring shaft and a stirring wheel;

the stirring shaft is arranged in the feeding bin and is rotationally connected with the feeding bin;

the stirring wheel is fixedly sleeved on the stirring shaft;

the first driving piece is arranged outside the feeding bin and connected with the controller, and the stirring shaft can be driven to rotate by the first driving piece.

Optionally, the dosing unit comprises a star-shaped feeding shaft and a second driving piece, the star-shaped feeding shaft is rotatably arranged at the feeding and discharging port, and a plurality of feeding grooves are uniformly formed in the star-shaped feeding shaft along the axial direction;

the second driving piece is arranged on the feeding bin, the second driving piece is connected with the controller, and the second driving piece can drive the star-shaped feeding shaft to rotate.

(III) advantageous effects

The plate conveying device is used for conveying plates with the templates and the die frames, the template separating device is used for separating the templates and the die frames, the demolding device is used for separating the plates from the die frames, the plate moving device is used for conveying the plates after demolding, and the attaching device is used for attaching the die frames to the templates. The drawing of patterns and the process of unloading of panel are gone on through panel unloading equipment is automatic, need not artifical the participation, and production efficiency is high, and panel is unloaded the back and is laminated framed and template through laminating device, and subsequent production of being convenient for has further improved the efficiency of panel production.

The raw materials in the storage hopper enter the stirring device to be stirred and mixed after passing through the metering hopper, the mixed raw materials enter the feeding device, and the mixed raw materials are scattered into the die frame through the feeding device, so that the upper process of the raw materials is realized. The proportion of each composition in the raw materials has been controlled effectively to the weighing hopper, and agitating unit spreads the raw materials through feeder after with the raw materials misce bene of each composition in the die frame, and the material loading process need not artifical the participation, has improved the degree of automation of material loading effectively, and then has improved material loading efficiency.

The plate production system utilizes the closed conveyor belts connected end to end as a plate conveying device, finished plates are produced from raw materials, then demoulding of the plates is carried out, and the whole process is controlled in real time by the controller, so that full-automatic production is realized, the plate production efficiency is effectively improved, the control of the product quality is facilitated, and the plate production system can be effectively applied to factory production.

Drawings

FIG. 1 is a schematic structural view of a discharge system of the sheet production system of the present invention;

FIG. 2 is a schematic structural view of a template separation device of the sheet production system of the present invention;

FIG. 3 is a schematic structural view of a parting assembly of the sheet production system of the present invention;

FIG. 4 is a schematic structural view of a demolding device of the sheet production system of the present invention;

FIG. 5 is a schematic diagram of the loading system of the sheet production system of the present invention;

FIG. 6 is a schematic view of the stirring device of the plate production system of the present invention;

FIG. 7 is a schematic view of the feeding device of the sheet production system of the present invention;

FIG. 8 is a partial cross-sectional view of a feeder device of the sheet production system of the present invention;

FIG. 9 is a cross-sectional view of a star-shaped feed shaft of the sheet production system of the present invention.

[ description of reference ]

100: a plate material; 101: a mold frame;

1: a panel transport device;

2: a template separation device;

21: separating the conveyor belt; 211: a guide roller;

23: a parting component; 231: a parting roller; 232: a mounting seat; 233: a parting block;

24: a mold frame transport mechanism; 25: a flange roller;

3: a demolding device; 31: coating the rubber roller; 32: a material pushing plate; 33: pressing down the air cylinder; 34: a connecting member;

4: a plate moving device; 41: a board moving conveyor belt;

5: a bonding device;

200: a mounting frame; 201: a storage hopper;

6: a measuring hopper; 61: a barrel body; 62: a first opening and closing mechanism; 63: a second opening and closing mechanism; 64: a first opening; 65: a second opening; 66: an opening and closing cylinder; 67: a movable plate;

7: a stirring device; 71: a stirring drive mechanism;

721: a barrel; 722: a cover plate; 723: a base plate; 724: a stirring feed port; 725: stirring and discharging the material port;

731: a discharging cylinder; 732: a connecting rod; 733: a plate body; 734: a rotating shaft; 735: a fisheye joint;

8: a feeding device; 81: a feeding frame; 82: a feeding bin; 821: a feed inlet; 822: a feeding and discharging port;

831: a first driving member; 832: a stirring shaft; 833: a stirring wheel;

841: a star-shaped feed shaft; 842: a second driving member; 843: a feed trough.

Detailed Description

For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings. In which the terms "upper", "lower", etc. are used herein with reference to the orientation of fig. 1.

For a better understanding of the above-described technical solutions, exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The invention provides a plate production system, which comprises a plate discharging system, a plate feeding system and a plate conveying device which are connected in series, wherein the plate production system utilizes closed conveying belts connected end to end as the plate conveying device 1, finished plates 100 are produced from raw materials in a feeding mode, demoulding of the plates 100 is carried out in the production system, the whole process is controlled in real time through a controller, full-automatic production is realized, the production efficiency of the plates 100 is effectively improved, the control of the product quality is facilitated, and the plate production system can be effectively applied to factory production.

As shown in fig. 1, the sheet discharging system includes a sheet conveying device 1 for conveying a sheet 100 with a template and a mold frame 101 when the sheet 100 is produced, a template separating device 2 for separating the template and the mold frame 101, a demolding device 3 for separating the sheet 100 from the mold frame 101, a sheet moving device 4 for conveying the sheet 100 after demolding, and a fitting device 5 for fitting the mold frame 101 to the template. The demoulding and unloading processes of the plate 100 are automatically carried out through a plate production system, manual participation is not needed, the production efficiency is high, the die frame 101 is attached to the template through the attaching device 5 after the plate 100 is unloaded, subsequent production is facilitated, and the production efficiency of the plate 100 is further improved.

Specifically, as shown in fig. 1 and 2, the plate material transportation device 1 is disposed on the ground through a mounting frame, the plate material transportation device 1 may be a linear roller conveyor or a linear belt conveyor, and the plate material transportation device 1 is connected to the controller. The formwork separation apparatus 2 includes a separation mechanism and a formwork transport mechanism 24, the formwork transport mechanism 24 may be a linear roller conveyor or a linear belt conveyor, and the formwork transport mechanism 24 is preferably a roller conveyor. The separating mechanism and the die frame conveying mechanism 24 are both arranged on the plate conveying device 1, the die frame conveying mechanism 24 is stacked above the plate conveying device 1, the conveying direction of the die frame conveying mechanism 24 is the same as that of the plate conveying device 1, and the die frame conveying mechanism 24 is connected with the separating mechanism. After the plate 100 solidified and formed on the plate conveying device 1 passes through the separating mechanism, the template is separated from the plate 100 with the mold frame 101, at this time, the plate conveying device 1 is used for conveying the template, and the mold frame conveying mechanism 24 is used for conveying the plate 100 with the mold frame 101. The demoulding mechanism comprises a pressing mechanism and a die frame limiting mechanism, the pressing mechanism and the die frame limiting mechanism are both arranged on the die frame conveying mechanism 24, and the die frame limiting mechanism is located right below the pressing mechanism. The die frame limiting mechanism is used for receiving and limiting the die frame 101, when the pressing mechanism downwards presses the plate 100 in the die frame 101, the plate 100 is separated from the die frame 101 and falls downwards onto the plate moving device 4, and the die frame 101 is limited by the die frame limiting mechanism and is kept still, so that the demoulding operation of the plate 100 is realized. The plate moving device 4 is arranged between the die frame limiting mechanism and the plate conveying device 1, the conveying direction of the plate moving device 4 is perpendicular to the conveying direction of the plate conveying device 1, the plate 100 after demolding is received, the plate 100 is conveyed to a specified place, and subsequent packaging and conveying operation of the plate 100 is facilitated. Laminating device 5, framed transport mechanism 24 is connected with laminating device 5, and laminating device 5 laminates framed 101 after will separating with the template again, is convenient for follow-up framed 101 and template of recycling produce panel 100, need not artifical laminating, improves production efficiency.

As shown in fig. 2, the separating mechanism includes a separating conveyor belt 21 and a parting assembly 23, and the separating conveyor belt 21 and the parting assembly 23 are connected to a controller. Wherein, separation conveyer belt 21 slope sets up on panel conveyer 1 to form an ascending slope of transporting, separation conveyer belt 21's first end connection panel conveyer 1, the material on panel conveyer 1 can be carried to separation conveyer belt 21 from panel conveyer 1. The second end of the separating conveyor belt 21 is connected with the mold frame conveying mechanism 24, and the upper surface of the separating conveyor belt 21 and the upper surface of the mold frame conveying mechanism 24 are in the same plane, so that the mold frame 101 can enter the mold frame conveying mechanism 24 from the separating conveyor belt 21. The separating conveyor 21 plays a role in guiding the separated mold frame 101, and conveys the separated mold frame 101 from the plate conveying device 1 to the mold frame conveying mechanism 24, so that the mold plate is separated from the mold frame 101. The separation conveyor belt 21 includes a conveyor belt, both sides of the conveyor belt are provided with a plurality of guide rollers 211, and the rotating shaft of the guide rollers 211 is perpendicular to the upper surface of the conveyor belt. After the mold frame 101 enters the separation conveyor 21, the mold frame 101 is guided and centered by guide rollers 211 provided on both sides of the conveyor. The parting assembly 23 is disposed on the panel transportation device 1 for separating the mold frame 101 from the mold plate. As shown in fig. 3, the parting assembly 23 includes a parting motor, a parting drum 231, a mounting seat 232, and a parting block 233. The parting motor is installed on the installation device 232 and connected with the controller, and the parting motor is used for driving the parting roller 231 to rotate. The mount pad 232 sets up relatively on the panel conveyer 1, and the both ends of parting cylinder 231 rotate with the mount pad 232 one-to-one that sets up relatively respectively and are connected, and parting cylinder 231 is connected with the power supply, and after framed 101 and template separation, framed 101 transports to the separation conveyer belt 21 through parting cylinder 231. The parting block 233 is disposed on the mounting base 232, the parting block 233 is a triangular prism, one of three side surfaces of the triangular prism is a first side surface, the first side surface is horizontal, a gap is provided between the first side surface and a conveying plane of the plate conveying device 1, and the width of the gap is greater than the thickness of the template. When the mold frame 101 and the template conveyed by the plate material conveying apparatus 1 come into contact with one of the edges of the triangular prism, the triangular prism is inserted between the template and the mold frame 101 to separate the template from the mold frame 101. The mold frame 101 slides up the inclined side of the parting frame onto the parting drum 231. After passing through the gap between the first side and the transport plane of the sheet metal transport device 1, the sheet metal transport device 1 continues to transport the sheet metal.

As shown in fig. 4, the mold frame transporting mechanism 24 is provided with a discharging window, and the mold frame limiting mechanism is arranged in the discharging window. The mold frame limiting mechanism comprises a plurality of encapsulation rollers 31 which are arranged in pairs, and elastic materials are coated on the encapsulation rollers 31. The rotating shaft of the encapsulation roller 31 is horizontal, as shown in fig. 3, the frame of the mold frame 101 is placed on the encapsulation roller 31, the sheet material 100 is limited by the mold frame 101 and clamped in the mold frame 101, a downward pressing force is applied to the sheet material 100 through the pressing mechanism, the sheet material 100 is separated from the mold frame 101, and the sheet material 100 falls downward onto the sheet moving conveyor 41.

As shown in fig. 4, the hold-down mechanism includes a plurality of plate unloading cylinder assemblies located directly above the discharge window. The plate unloading cylinder assembly comprises a material pushing plate 32 and a downward pressing cylinder 33, the cylinder body of the downward pressing cylinder 33 is vertically arranged on the die frame conveying mechanism 24 through a cylinder mounting frame, the top end of the piston rod of the downward pressing cylinder 33 faces downwards, and a first electromagnetic valve is arranged on an air pipe connected with the downward pressing cylinder 33 and connected with a controller. The upper surface of the material pushing plate 32 is connected with the top end of a piston rod of the downward pressing cylinder 33 through a connecting piece 34, and the lower surface of the material pushing plate 32 is horizontal. The connecting piece 34 is preferably a fisheye joint, and after the material pushing plate 32 contacts the plate 100, the material pushing plate 32 can adjust the posture of the material pushing plate according to the flatness of the upper surface of the plate 100, so that the whole material pushing plate 32 can be attached to the plate 100, and the plate 100 is prevented from being damaged due to local stress.

As shown in fig. 4, the plate moving device 4 includes a plate moving belt 41, which is located between the mold frame limiting mechanism and the plate material transporting device 1. The transport direction of the sheet transport belt is perpendicular to the transport direction of the sheet transport device 1. After the plate 100 is separated from the mold frame 101, the plate 100 falls down onto the plate moving conveyor 41 and is conveyed to a designated position by the plate moving conveyor 41, or a conveyor belt may be added to the plate moving conveyor 41 according to the position where the plate 100 is stored, and the plate 100 is directly conveyed to the position where the plate 100 is stored by the plate moving conveyor 41.

As shown in fig. 1, the attaching device 5 includes an attaching conveyor belt, the attaching conveyor belt is obliquely arranged on the plate conveying device 1, a first end of the attaching conveyor belt is connected with the mold frame conveying mechanism 24, and a second end of the attaching conveyor belt is connected with the plate conveying device 1. The attaching conveyor belt and the separating conveyor belt 21 are symmetrically arranged, and after the die frame 101 conveyed on the die frame conveying mechanism 24 is separated from the plate 100, the die frame 101 is continuously conveyed forwards; after the template is separated from the template frame 100, the template is continuously conveyed forwards to the lower part of the joint conveyor belt through the plate conveying device 1; in the process that the mold frame 100 slides downwards on the attaching conveyor belt, the mold plate and the mold frame synchronously run along the conveying direction of the plate conveying device 1 in the horizontal direction, and the mold frame 100 is separated from the attaching conveyor belt and then contacts with the mold plate and is attached to the mold plate. Alternatively, the template may be transported to the front of the attaching conveyor by the plate transportation device 1 and kept in a static state, and the mold frame 100 may directly slide down to the upper surface of the template through the attaching conveyor and be attached.

As shown in fig. 4, the mold frame transport mechanism 24 is provided with a plurality of rib rollers 25, and the rotation shafts of the rib rollers 25 are vertical. The rib rollers 25 restrain the mold frame 101 so as not to drop the mold frame 101 from the mold frame conveyance mechanism 24.

After the plate 100 solidified and formed on the plate conveying device 1 passes through the separating mechanism, the template is separated from the plate 100 with the mold frame 101; the plate conveying device 1 conveys the template, and the die frame conveying mechanism 24 conveys the plate 100 with the die frame 101; the die frame 100 is conveyed to the die frame limiting mechanism, the die frame limiting mechanism receives and limits the die frame 101, the pressing mechanism downwards extrudes the sheet material 100 in the die frame 101, the sheet material 100 is separated from the die frame 101 and falls downwards onto the sheet moving device 4, and the die frame 101 is limited by the die frame limiting mechanism and is kept still. The plate moving device 4 transports the plate 100 to a designated place, so as to facilitate the subsequent packing and transporting operation of the plate 100. After the template is separated from the template frame 100, the template is continuously conveyed forwards to the lower part of the joint conveyor belt through the plate conveying device 1; in the process that the mold frame 100 slides downwards on the attaching conveyor belt, the mold plate and the mold frame synchronously run along the conveying direction of the plate conveying device 1 in the horizontal direction, and the mold frame 100 is contacted with the mold plate and attached to each other after being separated from the attaching conveyor belt. Alternatively, the template may be transported to the front of the attaching conveyor by the plate transportation device 1 and kept in a stationary state, and the mold frame 100 may be slid down to the upper surface of the template directly by the attaching conveyor and attached. The demoulding and unloading processes of the plate 100 are automatically carried out through a plate production system, manual participation is not needed, the production efficiency is high, the die frame 101 is attached to the template through the attaching device 5 after the plate 100 is unloaded, subsequent production is facilitated, and the production efficiency of the plate 100 is further improved.

As shown in fig. 5, the feeding device is erected on a plate production line to realize online feeding. The feeding equipment comprises a mounting frame 200, a plurality of storage hoppers 201, a stirring device 7 and a feeding device 8, wherein the storage hoppers 201, the stirring device 7 and the feeding device 8 are mounted on the mounting frame 200 and are sequentially stacked, the mounting frame 200 is mounted on the ground, and stairs are welded on the mounting frame 200, so that the feeding equipment is convenient to overhaul and feed. Specifically, the storage hopper 201 is vertically installed on the mounting frame 200 and used for storing raw materials required by plate production, and the storage hopper 201 at least comprises the storage hopper 201 for storing quartz sand and the storage hopper 201 for storing cement. The outlet of the storage hopper 201 is connected with a weighing hopper 6, and the weighing hopper 6 is used for controlling the volume of the storage hopper 201 for discharging at each time and ensuring that the raw materials are mixed according to a set proportion. The stirring device 7 is installed on the installation frame 200, the stirring device 7 is located below the storage hopper 201, and an inlet of the stirring device 7 is connected with an outlet of the weighing hopper 6. The raw materials in the storage hopper 201 enter the stirring device 7 through the metering hopper 6 to be stirred and mixed, and a water pipe is further installed on the stirring device 7 and is used for introducing tap water in the raw material stirring and mixing process. The feeding device 8 is installed on the installation frame 200, the feeding device 8 is located below the stirring device 7, the inlet of the feeding device 8 is connected with the outlet of the stirring device 7, the outlet of the feeding device 8 is located above the plate conveying device 1, and the die frame 101 is conveyed to the position below the outlet of the feeding device 8 through the plate conveying device 1. The mixed raw materials enter the feeding device 8, and are scattered into the die frame 101 through the feeding device 8, so that the raw materials are processed. The proportion of each composition in the raw materials has been controlled effectively to weighing hopper 6, and agitating unit 7 spreads the raw materials through feeder 8 after the raw materials misce bene of each composition in framed 101, and the material loading process need not artifical the participation, has improved the degree of automation of material loading effectively, and then has improved material loading efficiency.

As shown in fig. 5, the weighing hopper 6 includes a barrel 61, a first opening/closing mechanism 62, and a second opening/closing mechanism 63. Wherein, stack shell 61 is preferably cylindric hollow tube, and stack shell 61 is vertical to be installed on mounting bracket 200, and the upper end of stack shell 61 is provided with first opening 64, and the lower extreme of stack shell 61 is provided with second opening 65, and first opening 64 docks with the export of storage hopper 201, and second opening 65 is connected with agitating unit 7's entry. The first opening and closing mechanism 62 is installed at the first opening 64 and is used for opening or closing the first opening 64, when the first opening 64 is opened, the raw material in the storage hopper 201 can enter the weighing hopper 6; the second opening and closing mechanism 63 is installed in the second opening 65, and opens or closes the second opening 65, and when the second opening 65 is opened, the raw material in the weighing hopper 6 can enter the stirring device 7. When the weighing hopper 6 is used for weighing, the first opening 64 is opened first, after the weighing hopper 6 is filled, the first opening 64 is closed, then the second opening 65 is opened, and the raw materials enter the stirring device 7. The first opening and closing mechanism 62 and the second opening and closing mechanism 63 are not in the open state at the same time, so that the raw material in the storage hopper 201 is prevented from directly entering the stirring device 7.

As shown in fig. 5, each of the first opening and closing mechanism 62 and the second opening and closing mechanism 63 includes an opening and closing cylinder 66 and a movable plate 67, a cylinder body of the opening and closing cylinder 66 is connected to the mounting frame 200, a piston rod of the opening and closing cylinder 66 is connected to the movable plate 67, and the movable plate 67 is driven to move by the opening and closing cylinder 66. And the air pipes connected with the opening and closing air cylinders 66 are provided with second electromagnetic valves, and the second electromagnetic valves are connected with the controller. The movable plate 67 of the first opening and closing device is slidably mounted between the first opening 64 and the outlet of the storage hopper 201; the movable plate 67 of the second opening and closing device is slidably mounted between the second opening 65 and the inlet of the stirring device 7. In a preferred embodiment, sliding chutes are arranged between the first opening 64 and the outlet of the storage hopper 201 in pairs, sliding chutes are also arranged between the second opening 65 and the inlet of the stirring device 7 in pairs, and the movable plate 67 is connected with the sliding chutes in a sliding manner, and slides along the sliding chutes under the action of the opening and closing cylinder 66.

As shown in fig. 6, the stirring device 7 includes a stirring driving mechanism 71, a stirring mechanism, and a discharge mechanism, and the stirring driving mechanism 71 is connected to the controller. The stirring mechanism is arranged on the mounting frame 200, the inlet of the stirring mechanism is connected with the outlet of the metering hopper 6, and the outlet of the stirring mechanism is connected with the inlet of the feeding device 8 through the discharging mechanism. The stirring mechanism includes a cylinder 721, a stirring blade, a cover 722, and a bottom plate 723. The cylinder 721 is a cylinder structure with two open ends, and the cylinder 721 is vertically installed between the storage hopper 201 and the feeding device 8. The stirring blade is rotatably installed in the cylinder 721 and is used for stirring and mixing the raw materials of the components, and the stirring driving mechanism 71 is in driving connection with the stirring blade to drive the stirring blade to rotate. The stirring drive mechanism 71 is preferably a motor, which is mounted upside down on the first end of the cylinder 721, and the rotor shaft of the motor is connected to the rotating shaft 734 of the stirring blade through a speed reducer. The cover plate 722 is installed at the first end of the cylinder body 721, the first end of the cylinder body 721 is close to the weighing hopper 6, a plurality of stirring feed inlets 724 are formed in the cover plate 722, the number of the stirring feed inlets 724 is the same as that of the weighing hopper 6, and the stirring feed inlets 724 are connected with outlets of the weighing hopper 6 in a one-to-one correspondence manner. The bottom plate 723 is installed at the second end of the cylinder body 721, the second end of the cylinder body 721 is close to the feeding device 8, the bottom plate 723 is provided with a stirring discharge hole 725, and the stirring discharge hole 725 is connected with the feeding inlet 821 through a discharge mechanism.

Referring to fig. 6, the discharging mechanism includes a discharging cylinder 731, a connecting rod 732, and a discharging plate. The cylinder body of blowing cylinder 731 rotates and installs on barrel 721, and the piston rod of blowing cylinder 731 is connected with the first end of connecting rod 732, all is provided with the third solenoid valve on the trachea of connecting blowing cylinder 731, and the third solenoid valve is connected with the controller. The discharging plate comprises a plate body 733 and a rotating shaft 734, the rotating shaft 734 is vertically connected with the plate body 733, and the rotating shaft 734 is rotatably connected with the outer side wall of the cylinder 721 through a bearing. A second end of link 732 is connected to plate 733 by a fisheye joint 735. The discharging cylinder 731 rotates the plate 733 by the link 732, and the plate 733 is continuously switched between the first state, the second state, and the third state. The first state is that the plate body 733 completely covers the stirring and discharging port 725, the second state is that the plate body 733 partially covers the stirring and discharging port 725, and the third state is that the plate body 733 is completely separated from the stirring and discharging port 725, and the second state must be passed when switching between the first state and the third state.

As shown in fig. 7 and 8, the feeding device 8 includes a feeding frame 81, a feeding bin 82, a stirring unit, and a dosing unit, and the feeding bin 82 is mounted on the feeding frame 81. The feeding bin 82 is provided with a feeding inlet 821 and a feeding discharge port 822, the feeding inlet 821 is in butt joint with the stirring discharge port 725, the feeding discharge port 725 is located above the plate conveying device 1, the mold frame 101 is conveyed to the position right below the feeding discharge port 725 through the plate conveying device 1, and quantitative feeding is conducted to the mold frame 101 on the plate conveying device 1 through the feeding discharge port 725. The stirring unit includes a first driving member 831, a stirring shaft 832, and a stirring wheel 833, and the first driving member 831 is preferably a motor. The stirring shaft 832 is arranged in the feeding bin 82, and the stirring shaft 832 is rotatably connected with the feeding bin 82. Stirring wheel 833 is fixed and is located on (mixing) shaft 832, and first driving piece 831 is installed outside feeding bin 82, and first driving piece 831 is connected with the controller, and first driving piece 831 is connected with the drive of (mixing) shaft 832 in order to drive (mixing) shaft 832 rotatory. The dosing unit includes a star-shaped feed shaft 841 and a second drive 842, the second drive 842 preferably being a motor, the star-shaped feed shaft 841 being rotatably mounted to the feed drain 822. As shown in fig. 9, the outer surface of the star-shaped feeding shaft 841 is uniformly provided with a plurality of feeding grooves 843 in the axial direction. A second drive 842 is mounted on the feed bin 82, the second drive 842 being connected to the controller, the second drive 842 being drivingly connected to the star feed shaft 841 for driving the star feed shaft 841 in rotation. The star-shaped feeding shaft 841 blocks the feeding and discharging port 822, mixed materials in the feeding bin 82 cannot leak out of the feeding and discharging port 822, when the feeding trough 843 rotates into the feeding bin 82, the feeding trough 843 is filled with the materials, the filled feeding trough 843 continuously rotates out of the feeding bin 82, and the materials fall into the mold frame 101 from the feeding trough 843 through self gravity. The volume of each feeding trough 843 is the same, and the volume of the plate is controlled by controlling the volume of the feeding trough 843 and the number of feeding troughs in each feeding process, so that the control mode is simple and effective.

The plate production system utilizes the closed conveyor belts connected end to end as a plate conveying device, finished plates are produced from raw materials, then demoulding of the plates is carried out, and the whole process is controlled in real time by the controller, so that full-automatic production is realized, the plate production efficiency is effectively improved, the control of the product quality is facilitated, and the plate production system can be effectively applied to factory production.

In the description of the present invention, it is to be understood that the terms "first", "second" and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any 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 specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; either as communication within the two elements or as an interactive relationship of the two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, a first feature may be "on" or "under" a second feature, and the first and second features may be in direct contact, or the first and second features may be in indirect contact via an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lower level than the second feature.

In the description herein, the description of the terms "one embodiment," "some embodiments," "an embodiment," "an example," "a specific example" or "some examples" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it should be understood that the above embodiments are illustrative and not restrictive, and that those skilled in the art may make changes, modifications, substitutions and alterations to the above embodiments without departing from the scope of the present invention.

Claims (8)

1. A sheet production system, comprising:

a controller;

the plate conveying device is a closed conveying belt connected end to end;

the template separation device comprises a separation mechanism and a template frame conveying mechanism; the separation mechanism and the die frame conveying mechanism are arranged on the plate conveying device, the die frame conveying mechanism is overlapped on the plate conveying device, and the die frame conveying mechanism is connected with the separation mechanism;

the demolding device comprises a pressing mechanism and a die frame limiting mechanism, wherein the pressing mechanism and the die frame limiting mechanism are both arranged on the die frame conveying mechanism, and the die frame limiting mechanism is positioned right below the pressing mechanism;

the plate moving device is arranged between the die frame limiting mechanism and the plate conveying device, and the pressing mechanism can push the plates in the die frame to fall onto the plate moving device;

the laminating device is connected with the die frame conveying mechanism; and the number of the first and second groups,

the feeding device comprises a mounting frame, and a stirring device, a feeding device and a plurality of storage hoppers which are arranged on the mounting frame; the outlets of the storage hoppers are connected with a measuring hopper, the inlet of the stirring device is connected with the outlet of the measuring hopper, the inlet of the feeding device is connected with the outlet of the stirring device, and the outlet of the feeding device is positioned above the plate conveying device;

the plate conveying device, the template separating device, the demolding device, the plate moving device, the attaching device and the feeding device are all connected with the controller;

the separating mechanism comprises a separating conveyor belt and a parting assembly;

the separation conveyor belt comprises a conveyor belt, a plurality of guide rollers are arranged on two sides of the conveyor belt, and rotating shafts of the guide rollers are perpendicular to the upper surface of the conveyor belt;

the conveying belt is obliquely arranged on the plate conveying device, the first end of the separating conveying belt is connected with the plate conveying device, and the second end of the separating conveying belt is connected with the die frame conveying mechanism;

the parting assembly is arranged on the plate conveying device;

the parting assembly and the separating conveyor belt are both connected with the controller;

the parting component comprises a parting motor, a parting roller, a mounting seat and a parting block;

the mounting seat is oppositely arranged on the plate conveying device;

the parting motor is arranged on the mounting seat and is connected with the controller;

two ends of the parting roller are respectively in one-to-one corresponding rotary connection with the oppositely arranged mounting seats, the parting motor is connected with the parting roller, and the parting motor can drive the parting roller to rotate;

the parting block is arranged on the mounting seat, the parting block is a triangular prism, a first side surface of the triangular prism is horizontal, and a gap is formed between the first side surface and the plate conveying device; the second side face of the triangular prism is inclined, and the included angle between the first side face and the second side face faces the incoming material direction of the plate conveying device.

2. The sheet production system of claim 1, wherein a plurality of rib rollers are provided on the mold frame transport mechanism, and the rotation shafts of the rib rollers are arranged vertically; the die frame conveying mechanism is provided with a discharging window, and the die frame limiting mechanism is arranged in the discharging window;

the mold frame limiting mechanism comprises a plurality of encapsulation rollers which are arranged in pairs, and rotating shafts of the encapsulation rollers are horizontal;

the pressing mechanism comprises a plurality of plate unloading cylinder assemblies, and the plate unloading cylinder assemblies are positioned right above the unloading windows;

the plate unloading cylinder assembly comprises a material pushing plate and a pressing cylinder;

the cylinder body of the lower air cylinder is vertically arranged on the die frame conveying mechanism through an air cylinder mounting frame, the top end of a piston rod of the lower air cylinder faces downwards, air pipes connected with the lower air cylinder are provided with first electromagnetic valves, and the first electromagnetic valves are connected with the controller;

the upper surface of the material pushing plate is connected with the top end of a piston rod of the downward pressing cylinder through a connecting piece, and the lower surface of the material pushing plate is horizontal.

3. The sheet production system of claim 1, wherein the sheet moving device is a sheet moving conveyor located between the die frame spacing mechanism and the sheet transport device; the conveying direction of the plate moving conveyor belt is perpendicular to the conveying direction of the plate conveying device;

the laminating device is a laminating conveyor belt, the laminating conveyor belt is obliquely arranged on the plate conveying device, the first end of the laminating conveyor belt is connected with the die frame conveying mechanism, and the second end of the laminating conveyor belt is connected with the plate conveying device.

4. The sheet production system of claim 1, wherein the weighing hopper includes a barrel, a first opening and closing mechanism, and a second opening and closing mechanism;

the cylinder body is vertically arranged on the mounting frame, a first opening is formed in the upper end of the cylinder body, a second opening is formed in the lower end of the cylinder body, the first opening is connected with an outlet of the storage hopper, and the second opening is connected with an inlet of the stirring device;

the first opening and closing mechanism and the second opening and closing mechanism respectively comprise an opening and closing air cylinder and a movable plate, the cylinder body of the opening and closing air cylinder is connected with the mounting frame, the piston rod of the opening and closing air cylinder is connected with the movable plate, the air pipes connected with the opening and closing air cylinder are respectively provided with a second electromagnetic valve, and the second electromagnetic valves are connected with the controller;

the movable plate of the first opening and closing device is slidably arranged between the first opening and the outlet of the storage hopper;

the movable plate of the second opening and closing device is slidably arranged between the second opening and the inlet of the stirring device.

5. The sheet production system of claim 1, wherein the stirring device comprises a stirring drive mechanism, a stirring mechanism, and a discharge mechanism;

the stirring mechanism comprises a cylinder, stirring blades, a cover plate and a bottom plate;

the cylinder body is of a cylinder structure with openings at two ends, and is vertically arranged between the storage hopper and the feeding device;

the stirring blade is rotationally arranged in the cylinder body, the stirring driving mechanism is arranged on the cylinder body and connected with the controller, and the stirring driving mechanism can drive the stirring blade to rotate;

the cover plate is arranged at the first end of the cylinder body, a plurality of stirring feed inlets are formed in the cover plate, and the stirring feed inlets are connected with outlets of the weighing hoppers in a one-to-one correspondence manner;

the bottom plate set up in the second end of barrel, the stirring drain hole has been seted up on the bottom plate, the stirring drain hole passes through drop feed mechanism connects feeder's entry.

6. The sheet production system of claim 5, wherein the discharge mechanism comprises a discharge cylinder, a connecting rod, and a discharge plate;

the cylinder body of the discharging cylinder is rotationally arranged on the cylinder body, a piston rod of the discharging cylinder is connected with the first end of the connecting rod, third electromagnetic valves are arranged on air pipes connected with the discharging cylinder, and the third electromagnetic valves are connected with the controller;

the feeding plate comprises a plate body and a rotating shaft, the rotating shaft is vertically connected with the plate body, the rotating shaft is rotatably connected with the outer side wall of the barrel, and the second end of the connecting rod is connected with the plate body through a fisheye joint;

the discharging plate can be continuously switched among a first state, a second state and a third state, wherein the first state is that the plate body completely covers the stirring discharging hole; the second state is that plate body part closing cap stirring drain hole, the third state is the plate body breaks away from completely stirring drain hole.

7. The sheet production system of claim 1, wherein the feeding device comprises a feeding frame, a feeding bin, a stirring unit, and a dosing unit;

the feeding machine frame is arranged on the mounting frame, and the feeding bin is arranged on the feeding rack;

a feeding inlet and a feeding discharge port are formed in the feeding bin, the feeding inlet is connected with an outlet of the stirring device, and the feeding discharge port is positioned above the plate conveying device; the quantitative unit is arranged at the feeding and discharging port and is used for quantitatively feeding;

the stirring unit comprises a first driving piece, a stirring shaft and a stirring wheel;

the stirring shaft is arranged in the feeding bin and is rotationally connected with the feeding bin;

the stirring wheel is fixedly sleeved on the stirring shaft;

the first driving piece is arranged outside the feeding bin and connected with the controller, and the stirring shaft can be driven to rotate by the first driving piece.

8. The sheet production system according to claim 7, wherein the dosing unit includes a star-shaped feeding shaft and a second driving member, the star-shaped feeding shaft is rotatably disposed at the feeding and discharging port, and a plurality of feeding grooves are uniformly formed in the star-shaped feeding shaft along the axial direction;

the second driving piece is arranged on the feeding bin, the second driving piece is connected with the controller, and the second driving piece can drive the star-shaped feeding shaft to rotate.

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