CN114559628A - Production process and equipment of environment-friendly mildew-proof anticorrosive wallboard - Google Patents

Abstract

The invention relates to a production process and equipment of an environment-friendly mildew-proof anticorrosive wallboard, wherein the production process and equipment of the environment-friendly mildew-proof anticorrosive wallboard comprise a base and fixing plates which are fixedly arranged on the base and symmetrically arranged, and bearing plates which are used for bearing plates and symmetrically arranged are also fixed on the base; the bearing plate is also provided with a clamping assembly for fixing a plate, the base is also provided with a brush head, the brush head is connected with a coating mechanism for driving the brush head to swing, and the coating mechanism is movably arranged on the base; a sliding mechanism is arranged between the fixed plates and connected with the coating mechanism, a driving mechanism connected with the sliding mechanism is also arranged between the fixed plates, and the driving mechanism drives the coating mechanism to reciprocate in the horizontal direction through the sliding mechanism; and a reciprocating assembly connected with the driving mechanism and the sliding mechanism is further arranged between the fixing plates.

Description

Production process and equipment of environment-friendly mildew-proof anticorrosive wallboard

Technical Field

The invention relates to the field of wallboard production, in particular to a production process and equipment of an environment-friendly mildew-proof anticorrosive wallboard.

Background

The wall plate is a house structure of a bearing system consisting of walls and floor plates, the bearing walls of the wall plate structure can be made of bricks, building blocks, prefabrication or cast-in-place concrete, and can be divided into three types of mixed structures, large assembled plate structures and cast-in-place wall plate structures according to different used materials and construction methods, the wall plate structures are mostly used for houses, apartments, office buildings, schools and other public buildings, the bearing walls of the wall plate structures can be made of bricks, building blocks, prefabrication or cast-in-place concrete, and the floor plates are made of prefabricated reinforced concrete or prestressed concrete hollow plates, trough plates and solid plates; prefabricating and casting a superposed floor slab in situ; the full cast-in-place floor slab has no mould-proof and corrosion-proof function in the production of the traditional wall slab, and the service time can be greatly shortened, so that the production process and the equipment of the environment-friendly mould-proof and corrosion-proof wall slab are provided.

Disclosure of Invention

The invention aims to provide a production process and equipment of an environment-friendly mildew-proof anticorrosive wallboard, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a production process of an environment-friendly mildew-proof anticorrosive wallboard comprises the following steps:

the method comprises the following steps: mixing and stirring calcium carbonate, bamboo and wood fiber powder, natural active carbon, plastic ester, polymer nano-fusion agent and the like according to the proportion;

step two: conveying the materials to an ultrahigh temperature extrusion production line, pouring the ultrahigh temperature liquid formula into an ultrahigh temperature co-extruder, controlling the shape of the model to control the thickness, the middle hole, the inner groove and the outer groove of the plate type according to the formula and the density of a temperature control plate, and extruding different plates in an over-temperature state;

step three: conveying the plate to a temperature gradient and a rapid cooling line, rapidly pouring in cold water and rapidly forming, cutting the plate into a customized size, and polishing the surface by polishing equipment;

step four: and placing the plate in coating equipment, brushing the anticorrosive and mildewproof coating on the plate through the coating equipment, drying, and finally covering through a film.

A coating apparatus, characterized in that the coating apparatus comprises:

the plate fixing device comprises a base and fixing plates which are fixedly arranged on the base and symmetrically arranged, wherein bearing plates which are used for bearing plates and symmetrically arranged are also fixed on the base;

the bearing plate is also provided with a clamping assembly for fixing a plate, the base is also provided with a brush head, the brush head is connected with a coating mechanism for driving the brush head to swing, and the coating mechanism is movably arranged on the base;

a sliding mechanism is arranged between the fixed plates and connected with the coating mechanism, a driving mechanism connected with the sliding mechanism is also arranged between the fixed plates, and the driving mechanism drives the coating mechanism to move through the sliding mechanism;

and a reciprocating assembly connected with the driving mechanism and the sliding mechanism is further arranged between the fixing plates.

As a further scheme of the invention: the centre gripping subassembly includes fixed mounting and is in accept on the board and be the fixed sleeve and the movable mounting that the symmetry set up movable rod and fixed mounting on the fixed sleeve in the fixed sleeve and with the spring that the movable rod is connected, be fixed with on the movable rod the push pedal.

As a still further scheme of the invention: coating mechanism includes fixed mounting and is in baffle and fixed mounting on the slide mechanism rack plate and setting on the baffle are in on the base and with the infusion subassembly that the brush head is connected, be fixed with on the infusion subassembly with rack plate engaged with semi-gear, the infusion subassembly still with slide mechanism connects.

As a still further scheme of the invention: infusion subassembly includes fixed mounting and installs material bucket on the base is installed with rotating slide mechanism is last and seted up the articulated slab and the one end of transfusion hole with the material bucket connect the other end with the pipe that the through-hole is connected, still the cover is equipped with the torsional spring in the axis of rotation of articulated slab, be fixed with on the articulated slab the half-gear with the brush head.

As a still further scheme of the invention: slide mechanism installs including rotating lead screw between the fixed plate and movable mounting be in on the lead screw and with lead screw thread fit's screw sleeve and setting are in between the fixed plate and with screw sleeve connection's direction subassembly, the direction subassembly with actuating mechanism with reciprocal subassembly is connected, be fixed with on the direction subassembly the baffle just rotates to be installed the articulated slab.

As a still further scheme of the invention: the guiding assembly comprises a movable plate and a movable plate, wherein one end of the movable plate is movably mounted on the threaded sleeve, the other end of the movable plate is movably mounted on the driving mechanism, a sliding groove in the movable plate and a second sleeve are slidably mounted on the sliding groove and connected with the reciprocating assembly, the second sleeve is hinged to a hinged plate, and the movable plate is fixedly provided with the baffle.

As a still further scheme of the invention: actuating mechanism includes fixed mounting and installs motor on the fixed plate and rotation are installed between the fixed plate and with motor output shaft's transfer line and a pot head are established on the transfer line other pot head is established belt on the lead screw, still be provided with on the fixed plate with the driven subassembly that the transfer line is connected, driven subassembly with the fly leaf with reciprocal subassembly is connected, be fixed with the gag lever post on the transfer line.

As a still further scheme of the invention: the driven assembly comprises a first sleeve, a first bevel gear and a supporting plate, the first sleeve is movably mounted on the transmission rod and provided with a limiting groove matched with the limiting rod, the first bevel gear is fixedly mounted on the first sleeve and connected with the reciprocating assembly, and the supporting plate is fixedly mounted on the movable plate and connected with the reciprocating assembly.

As a still further scheme of the invention: the reciprocating assembly comprises a second bevel gear, a rotating plate and a connecting rod, wherein the second bevel gear is rotatably installed on the supporting plate and meshed with the first bevel gear, the rotating plate is rotatably installed on the supporting plate and coaxially connected with the second bevel gear, one end of the connecting rod is hinged to the rotating plate, and the other end of the connecting rod is hinged to the second sleeve.

Compared with the prior art, the invention has the beneficial effects that: when using, place the wallboard that needs processing on accepting the board, under centre gripping subassembly's effect, it is fixed with the wallboard, actuating mechanism work this moment, and drive reciprocating assembly motion, thereby drive slide mechanism motion, under slide mechanism's effect, drive coating mechanism motion, and self swing when the drive brush head is reciprocating motion on the horizontal direction, and simultaneously, actuating mechanism still can drive slide mechanism motion, and drive coating mechanism moves along the length direction of base, make the brush head move along the length direction of base when reciprocating motion on the horizontal direction.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a production process and equipment of an environment-friendly type mildew-proof and corrosion-proof wallboard.

FIG. 2 is a schematic structural view of an embodiment of an environment-friendly type anti-mold and anti-corrosion wallboard production process and equipment.

FIG. 3 is a schematic view showing the connection relationship among a part of the coating mechanism, the reciprocating assembly, the second sleeve and the brush head in an embodiment of the production process and the production equipment of the environment-friendly type mildew-proof and corrosion-proof wallboard.

FIG. 4 is a schematic view of a part of an explosion structure in an embodiment of a production process and equipment of an environment-friendly type mildew-proof and corrosion-proof wallboard.

In the figure: 1. a base; 2. a fixing plate; 3. a motor; 4. a transmission rod; 5. a belt; 6. a screw rod; 7. a first sleeve; 8. a threaded sleeve; 9. a movable plate; 10. a chute; 11. a first bevel gear; 12. a support plate; 13. a second bevel gear; 14. a rotating plate; 15. a connecting rod; 16. a second sleeve; 17. a baffle plate; 18. a rack plate; 19. a torsion spring; 20. a half gear; 21. a brush head; 22. a material barrel; 23. a conduit; 24. a bearing plate; 25. fixing the sleeve; 26. a movable rod; 27. a spring; 28. pushing the plate; 29. a hinge plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 4, in an embodiment of the present invention, a production process of an environment-friendly type mildew-proof and corrosion-proof wallboard includes the following steps:

the method comprises the following steps: mixing and stirring calcium carbonate, bamboo and wood fiber powder, natural active carbon, plastic ester, polymer nano-fusion agent and the like according to the proportion;

step two: conveying the materials to an ultrahigh temperature extrusion production line, pouring the ultrahigh temperature liquid formula into an ultrahigh temperature co-extruder, controlling the shape of the model to control the thickness, the middle hole, the inner groove and the outer groove of the plate type according to the formula and the density of a temperature control plate, and extruding different plates in an over-temperature state;

step three: conveying the plate to an over-temperature slope and a rapid cooling line, rapidly pouring with cold water and rapidly forming, cutting the plate into a customized size, and polishing the surface by polishing equipment;

step four: and placing the plate in coating equipment, brushing the anticorrosive and mildewproof coating on the plate through the coating equipment, drying, and finally covering through a film.

A coating apparatus, characterized in that the coating apparatus comprises:

base 1 and fixed mounting just are the fixed plate 2 that the symmetry set up on the base 1, still be fixed with on the base 1 and be used for bearing the board and be the board 24 of accepting that the symmetry set up, accept that board 24 and fixed plate 2 accessible bolt's mode is fixed, also can fix through the welded mode, and this application does not do the restriction.

Accept and still be provided with the centre gripping subassembly that is used for fixed panel on the board 24, the centre gripping subassembly includes fixed mounting accept on the board 24 and be the fixed sleeve 25 and the movable mounting that the symmetry set up fixed sleeve 25 is last movable rod 26 and the fixed mounting be in fixed sleeve 25 in and with the spring 27 that movable rod 26 is connected, be fixed with on the movable rod 26 push pedal 28.

It should be noted that the push plates 28 are manually driven to move away from each other and the movable rods 26 are driven to move toward the inside of the fixing sleeves 25, so that the springs 27 are compressed, the wallboard is placed on the bearing plate 24, the manual force is removed, the springs 27 are elastically released, and the push plates 28 are driven to move toward each other, so that the wallboard is fixed.

Still be provided with brush head 21 on the base 1, brush head 21 with be used for the drive brush head 21 wobbling coating mechanism is connected, the activity of coating mechanism sets up on the base 1, coating mechanism includes fixed mounting baffle 17 and fixed mounting on the slide mechanism rack plate 18 on the baffle 17 and set up on the base 1 and with the infusion subassembly that brush head 21 is connected, be fixed with on the infusion subassembly with rack plate 18 meshed semi-gear 20, the infusion subassembly still with the slide mechanism is connected, wherein, the infusion subassembly includes fixed mounting material bucket 22 on the base 1 with rotate and install on the slide mechanism and set up the articulated slab 29 in transfusion hole and one end with material bucket 22 connect the other end with the pipe 23 that the through-hole is connected, still overlap in the axis of rotation of articulated slab 29 and be equipped with torsional spring 19, the half gear 20 and the brush head 21 are fixed on the hinge plate 29.

It should be noted that the rack plate 18 is arranged discontinuously, the conduit 23 is connected with the brush head 21 through a through hole, a valve connected with the conduit 23 is arranged on the material barrel 22, when the valve is opened, the paint in the material barrel 22 is conveyed to the position of the brush head 21 through the conduit 23, when the sliding mechanism moves, the hinged plate 29 is driven to move, so that the brush head 21 and the half gear 20 are driven to move, when the half gear 20 is meshed with the toothed part of the rack plate 18, the hinged plate 29 rotates around the hinged point, so that the brush head 21 is driven to move, and the torsion spring 19 is driven to move, and when the half gear 20 is separated from the toothed part of the rack plate 18, the torsion spring 19 drives the hinged plate 29 to return to the initial position, so that the brush head 21 swings, so that the brush head 21 paints the wall plate.

A sliding mechanism is arranged between the fixed plates 2 and is connected with the coating mechanism, the sliding mechanism comprises a screw rod 6 rotatably installed between the fixed plates 2, a threaded sleeve 8 which is movably installed on the screw rod 6 and is in threaded fit with the screw rod 6, and a guide assembly which is arranged between the fixed plates 2 and is connected with the threaded sleeve 8, the guide assembly is connected with the driving mechanism and the reciprocating assembly, the guide assembly is fixed with the baffle plate 17 and is rotatably installed with the hinged plate 29, wherein the guide assembly comprises a movable plate 9 which is movably installed on the threaded sleeve 8 at one end and is movably installed on the driving mechanism at the other end, a sliding groove 10 which is arranged on the movable plate 9, and a second sleeve 16 which is slidably installed on the sliding groove 10 and is connected with the reciprocating assembly, the second sleeve 16 is hinged with the hinged plate 29, and the baffle 17 is fixed on the movable plate 9.

Further, when the driving mechanism moves, the reciprocating assembly is driven to move, and the second sleeve 16 is driven to slide on the sliding groove 10 in a reciprocating manner, so that the hinge plate 29 is driven to move in a reciprocating manner, meanwhile, the driving mechanism also drives the screw rod 6 to rotate and drives the threaded sleeve 8 to move, so that the movable plate 9 is driven to move, and under the action of the movable plate 9 and the driving mechanism, the threaded sleeve 8 moves along the length direction of the screw rod 6.

Still be provided with between the fixed plate 2 with actuating mechanism that slide mechanism is connected, actuating mechanism passes through slide mechanism drive the motion of coating mechanism, actuating mechanism includes fixed mounting motor 3 and rotation on the fixed plate 2 are installed drive rod 4 and a pot head that is installed between the fixed plate 2 and with motor 3 output shaft are established another pot head is in belt 5 on the drive rod 4 is established on the lead screw 6, still be provided with on the fixed plate 2 with the driven subassembly of drive rod 4 connection, the driven subassembly with fly leaf 9 with reciprocating assembly connects, be fixed with the gag lever post on the drive rod 4, wherein, the driven subassembly includes movable mounting and sets up on the drive rod 4 with a sleeve 7 and fixed mounting of the spacing groove of gag lever post adaptation with a bevel gear 11 and fixed mounting on sleeve 7 and with reciprocating assembly is connected on the fly leaf 9 and a support plate 12 connected to said reciprocating assembly.

Further, when the motor 3 works, the transmission rod 4 is driven to rotate, the belt 5 is driven to move, the screw rod 6 is driven to rotate, meanwhile, the first sleeve 7 is driven to rotate under the action of the limiting rod and the limiting groove, the first bevel gear 11 is driven to rotate, and the reciprocating assembly is driven to move under the action of the first bevel gear 11.

And a reciprocating assembly connected with the driving mechanism and the sliding mechanism is further arranged between the fixed plates 2 and comprises a second bevel gear 13 which is rotatably installed on the supporting plate 12 and is meshed with the first bevel gear 11, a rotating plate 14 which is rotatably installed on the supporting plate 12 and is coaxially connected with the second bevel gear 13, and a connecting rod 15, one end of which is hinged on the rotating plate 14, and the other end of which is hinged on the second sleeve 16.

Finally, when the first bevel gear 11 rotates, the second bevel gear 13 is driven to rotate, so that the rotating plate 14 is driven to rotate, and the connecting rod 15 is driven to move, so that the second sleeve 16 is driven to slide on the sliding chute 10, it should be noted that when the rotating plate 14 rotates, the hinge plate 29 will follow the rotating plate 14, so that the hinge plate 29 does not interfere with the rotating plate 14.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The production process of the environment-friendly mildew-proof anticorrosive wallboard is characterized by comprising the following steps of:

the method comprises the following steps: mixing and stirring calcium carbonate, bamboo fiber powder, natural active carbon, plastic ester, polymer nano-fusion agent and other raw ingredients in proportion;

step two: conveying the materials to an ultrahigh temperature extrusion production line, pouring the ultrahigh temperature liquid formula into an ultrahigh temperature co-extruder, controlling the shape of the model to control the thickness, the middle hole, the inner groove and the outer groove of the plate type according to the formula and the density of a temperature control plate, and extruding different plates in an over-temperature state;

step three: conveying the plate to an over-temperature slope and a rapid cooling line, rapidly pouring with cold water and rapidly forming, cutting the plate into a customized size, and polishing the surface by polishing equipment;

step four: and placing the plate in coating equipment, brushing the anticorrosive and mildewproof coating on the plate through the coating equipment, drying, and finally covering through a film.

2. A coating apparatus as claimed in claim 1, step four, characterized in that the coating apparatus comprises:

the plate fixing device comprises a base (1) and fixing plates (2) which are fixedly arranged on the base (1) and symmetrically arranged, wherein bearing plates (24) which are used for bearing plates and symmetrically arranged are further fixed on the base (1);

the bearing plate (24) is further provided with a clamping assembly for fixing a plate, the base (1) is further provided with a brush head (21), the brush head (21) is connected with a coating mechanism for driving the brush head (21) to swing, and the coating mechanism is movably arranged on the base (1);

a sliding mechanism is arranged between the fixed plates (2), the sliding mechanism is connected with the coating mechanism, a driving mechanism connected with the sliding mechanism is also arranged between the fixed plates (2), and the driving mechanism drives the coating mechanism to move through the sliding mechanism;

and a reciprocating assembly connected with the driving mechanism and the sliding mechanism is further arranged between the fixed plates (2).

3. The coating device according to claim 2, wherein the clamping assembly comprises symmetrically arranged fixed sleeves (25) fixedly mounted on the bearing plate (24), movable rods (26) movably mounted on the fixed sleeves (25), and springs (27) fixedly mounted in the fixed sleeves (25) and connected with the movable rods (26), and the push plate (28) is fixed on the movable rods (26).

4. A coating apparatus according to claim 2, wherein said coating mechanism comprises a baffle plate (17) fixedly mounted on said sliding mechanism and a rack plate (18) fixedly mounted on said baffle plate (17), and a feeding set provided on said base (1) and connected to said brush head (21), said feeding set having a half-gear (20) engaged with said rack plate (18) fixed thereto, said feeding set being further connected to said sliding mechanism.

5. The coating device according to claim 4, wherein the infusion assembly comprises a material barrel (22) fixedly mounted on the base (1), a hinged plate (29) rotatably mounted on the sliding mechanism and provided with an infusion hole, and a conduit (23) with one end connected with the material barrel (22) and the other end connected with the through hole, a torsion spring (19) is further sleeved on the rotating shaft of the hinged plate (29), and the hinged plate (29) is fixedly provided with the half gear (20) and the brush head (21).

6. A coating apparatus according to claim 5, wherein said sliding mechanism comprises a screw (6) rotatably mounted between said fixed plates (2) and a threaded sleeve (8) movably mounted on said screw (6) and threadedly engaged with said screw (6), and a guide assembly disposed between said fixed plates (2) and connected with said threaded sleeve (8), said guide assembly being connected with said driving mechanism and said reciprocating assembly, said guide assembly having said baffle (17) fixed thereto and said hinge plate (29) rotatably mounted thereto.

7. The coating device according to claim 6, characterized in that the guiding assembly comprises a movable plate (9) movably mounted on the threaded sleeve (8) at one end and movably mounted on the driving mechanism at the other end, a sliding groove (10) formed in the movable plate (9), and a second sleeve (16) slidably mounted on the sliding groove (10) and connected with the reciprocating assembly, wherein the second sleeve (16) is hinged with a hinged plate (29), and the baffle (17) is fixed on the movable plate (9).

8. The coating device according to claim 6, wherein the driving mechanism comprises a motor (3) fixedly mounted on the fixing plates (2), a transmission rod (4) rotatably mounted between the fixing plates (2) and connected with an output shaft of the motor (3), and a belt (5) having one end sleeved on the transmission rod (4) and the other end sleeved on the screw rod (6), the fixing plates (2) are further provided with driven components connected with the transmission rod (4), the driven components are connected with the movable plate (9) and the reciprocating components, and the transmission rod (4) is fixedly provided with a limiting rod.

9. A coating apparatus according to claim 8, wherein the driven assembly comprises a first sleeve (7) movably mounted on the driving rod (4) and provided with a limiting groove adapted to the limiting rod, a first bevel gear (11) fixedly mounted on the first sleeve (7) and connected to the reciprocating assembly, and a supporting plate (12) fixedly mounted on the movable plate (9) and connected to the reciprocating assembly.

10. A coating apparatus according to claim 9, wherein said reciprocating assembly comprises a second bevel gear (13) rotatably mounted on said support plate (12) and engaged with said first bevel gear (11), a rotating plate (14) rotatably mounted on said support plate (12) and coaxially connected with said second bevel gear (13), and a connecting rod (15) having one end hinged to said rotating plate (14) and the other end hinged to said second sleeve (16).

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