CN114234598B - Production equipment and method of negative ion green ceramic tile - Google Patents

Abstract

The invention belongs to the technical field of production of anion green ceramic tiles, and particularly relates to production equipment and a production method of anion green ceramic tiles. According to the invention, the flow guide frame, the extrusion plate, the clamping plate and the extrusion spring are arranged, when the green brick is installed, the clamping plate is driven by the extrusion spring to rapidly clamp the green brick, so that green bricks with different specifications can be clamped conveniently and efficiently, after clamping is completed, in the drying process of the green brick, water attached to the surface of the green brick is in contact with the extrusion plate and the clamping plate, grooves are formed in the clamping plate at equal intervals, so that the falling of the water and the green brick is accelerated, the water is discharged along the liquid passing holes below the flow guide frame, and the drying efficiency of the green brick is further improved.

Description

Production equipment and method of negative ion green ceramic tile

Technical Field

The invention relates to the technical field of production of anion green ceramic tiles, in particular to anion green ceramic tile production equipment and method.

Background

Along with the improvement of consumption and living standard of people, the requirements on living environment and air quality are higher and higher, and the negative ions gradually draw attention of people due to the effects of inhibiting bacteria and mold, purifying air, promoting metabolism of human bodies, improving immunity of the human bodies and the like.

Present green ceramic brick of anion is at the in-process of production, need carry out drying process to the adobe, common adobe drying process mode is for absorbing water and air-drying, adobe surface adhesion has moisture, when absorbing water the operation to it, generally all blow the adobe through gas, make the partial evaporation of adobe surface adhesion's moisture, the part flows along the surface of adobe, thereby carry out drying process to it, however, the surperficial moisture of adobe is at the surface flow in-process of adobe, moisture can carry out the secondary to other dry parts of adobe, and simultaneously, moisture flows velocity comparatively slowly along the adobe surface, lead to this drying equipment drying efficiency lower, drying effect is relatively poor, reduce the use value of this production facility.

Disclosure of Invention

The invention provides a production device of an anion green ceramic tile, which comprises a drying box and a flow guide frame, wherein two long flow guide rods are fixedly connected to the outer walls of two sides of the flow guide frame, connecting pieces are fixedly connected to the outer walls of the two long flow guide rods on one side at equal distances, contact flow guide sheets are fixedly connected to the outer walls of the connecting pieces on one side at equal distances, the outer walls of the connecting pieces on one side are fixedly connected with the same air plate, suction holes are formed in the outer walls of the two air plates on the same flow guide frame at equal distances, the outer walls of the two air plates on the same flow guide frame at the opposite side are fixedly connected with the same connecting pipe, a pump frame is fixedly connected to the outer wall of the bottom of the flow guide frame, suction pumps are fixedly connected to the outer wall of the pump frame, the suction ends of the suction pumps are connected to the insides of the air plates through pipelines, and liquid through holes are formed in the outer wall of the bottom of the flow guide frame at equal distances.

Preferably, the equal distance fixedly connected with extrusion spring of the both sides inner wall of water conservancy diversion frame, and be located the same grip block of the outer wall fixedly connected with of a plurality of extrusion springs of one side, the top outer wall fixedly connected with stripper plate of grip block.

Preferably, the top inner wall fixedly connected with motor frame of drying cabinet, and the bottom outer wall fixedly connected with motor of motor frame, the output shaft of motor passes through shaft coupling fixedly connected with pivot, water conservancy diversion frame fixed connection is in the outer wall of pivot.

Preferably, the drying cabinet is located motor frame outside top inner wall and opens there is annular sliding tray, and the inner wall equidistance sliding connection of annular sliding tray has the slide bar, and the equal fixedly connected with dwang of outer wall of every slide bar, dwang fixed connection in the outer wall of pivot.

Preferably, the equal sliding connection of both sides outer wall of drying cabinet has the chamber door, and the equal fixedly connected with door knob of outer wall of two chamber doors, and the frame that catchments has been placed to the bottom inner wall of drying cabinet, and the frame that catchments is located the water conservancy diversion frame below.

Preferably, the inner walls of the two sides of the drying box are fixedly connected with two racks, and the outer wall of each rack is fixedly connected with an air blower.

Preferably, the drying cabinet is close to the equal fixedly connected with hot plate of inner wall of every frame, and the inner wall equidistance fixedly connected with electric heating pipe of hot plate, and the hot plate leaves porosely towards the outer wall equidistance of water conservancy diversion frame, and the blast air end of air-blower passes through the inside of pipe connection in hot plate.

Preferably, the outer wall of the top of the drying box is provided with two connecting holes, the inner walls of the two connecting holes are fixedly connected with a communicating frame, the outer wall of the top of the two communicating frames is fixedly connected with the same recycling box, the recycling box is communicated with the communicating frame, the outer wall of the recycling box is provided with a liquid discharging hole, the inner wall of the liquid discharging hole is fixedly connected with a drain pipe, and the outer wall of the drain pipe is connected with a pipe valve through a flange.

Preferably, the top outer wall of collection box has two mounting holes, the equal fixedly connected with mounting bracket of inner wall of two mounting holes, the impartial distance fixedly connected with semiconductor refrigeration piece of inner wall of two mounting brackets, two spacing tabs of top inner wall fixedly connected with of collection box, the impartial distance fixedly connected with condensation plate of bottom outer wall of two spacing tabs, the inside packing of condensation plate has the cooling water.

The use method of the anion green ceramic tile production equipment is applied to the anion green ceramic tile production equipment, and comprises the following steps:

s1: when the green bricks are dried, placing the green bricks in each flow guide frame, so that each contact flow guide sheet on the connecting sheet is in contact with the green bricks;

s2: the suction pump is started, when the green bricks are subjected to rotary heating and drying, the suction pump generates large suction force to the green bricks through the suction holes in the wind plates, the suction force drives water bodies on all positions on the green bricks to be in contact with the contact flow deflectors, and the water bodies on the green bricks are led into the connecting pieces through the contact flow deflectors, so that the green bricks are separated from the surfaces of the green bricks quickly in the drying process.

The beneficial effects of the invention are as follows:

1. through being provided with the drainage subassembly, when carrying out the drying of adobe, place the adobe in each guide frame, make each contact water conservancy diversion piece on the connection piece all with the adobe contact, then start the suction pump, when carrying out the rotary heating drying to the adobe, the suction pump produces great suction to the adobe through the suction hole on the aerofoil, this suction drives water and contact water conservancy diversion piece contact on each position on the adobe, through each contact water conservancy diversion piece with on the water leading-in connection piece on the adobe, make the adobe in the drying process, water on its surface breaks away from with the surface of adobe fast, thereby realize the rapid draing of adobe, and simultaneously, the water of also avoiding on the adobe causes the secondary to wet at each position of adobe at the in-process that flows downwards, the installation of drainage subassembly is ensured that this adobe can realize the drying fast, avoid the secondary to soak, the use value of this production facility is improved.

2. Through being provided with the water conservancy diversion frame, the stripper plate, grip block and extrusion spring, when carrying out the installation of adobe, drive the grip block through the extrusion spring and carry out quick centre gripping to the adobe, can realize the centre gripping of the adobe of different specifications, convenient high efficiency, the centre gripping is accomplished the back, the adobe is in drying process, adobe surface-adhered water and stripper plate and grip block contact, the equidistance is opened on the grip block has the recess, thereby with higher speed the droing of water and adobe, the water is arranged down along the liquid hole of crossing of water conservancy diversion frame below, further improve the drying efficiency of adobe.

3. Through being provided with the collection box, the semiconductor refrigeration piece, spacing tab and condensing panel, the dry in-process of adobe, part water evaporates under the effect of high temperature, carry part toxic gas in this vapor, vapor gets into the collection box through the intercommunication frame, the cooling water has been deposited in the condensing panel in the collection box, the condensing panel carries out the primary condensation to vapor, remaining vapor removes to semiconductor refrigeration piece department under the guide of spacing tab, the semiconductor refrigeration piece condenses remaining vapor, thereby ensure that this partial vapor can not spill over and cause environmental pollution, the environmental protection performance of the device is improved.

4. Through being provided with hot plate, electric heating pipe and air-blower, carrying out the adobe drying process in, start the air-blower, electric heating pipe circular telegram, the air-blower heats gas leading-in hot plate in the drying cabinet outside, and electric heating pipe blows to the adobe through the gas pocket, and the water on the adobe flows with higher speed to make the water quick and contact water deflector contact, further improve adobe drying effect and drying efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of an anion green ceramic tile production apparatus provided by the present invention;

FIG. 2 is a schematic view of the internal structure of a drying box of the anion green ceramic tile production equipment provided by the invention;

FIG. 3 is a schematic view of a drainage assembly of the anion green ceramic tile production apparatus provided by the present invention;

FIG. 4 is a cross-sectional view of a flow guide frame structure of an anion green ceramic tile production apparatus provided by the present invention;

FIG. 5 is a schematic view of the internal structure of a recycling bin of the anion green ceramic tile production equipment provided by the invention;

FIG. 6 is a schematic structural diagram of a heating plate of an apparatus for producing negative ion green ceramic tiles according to the present invention;

FIG. 7 is a schematic structural diagram of a motor of an apparatus for producing negative ion green ceramic tiles according to the present invention.

In the figure: 1. a drying oven; 2. a water collection frame; 3. a box door; 4. a communication frame; 5. a recycling bin; 6. a semiconductor refrigeration sheet; 7. a mounting frame; 8. a tube valve; 9. a drain pipe; 10. heating the plate; 11. a wind plate; 12. a blower; 13. a frame; 14. a diversion long rod; 15. a flow guide frame; 16. a pump mount; 17. a suction pump; 18. a liquid passing hole; 19. connecting sheets; 20. contacting the flow deflector; 21. sucking holes; 22. a pressing plate; 23. a clamping plate; 24. a compression spring; 25. limiting folding pieces; 26. a condensing plate; 27. an electric heating tube; 28. air holes; 29. a motor frame; 30. rotating the rod; 31. a rotating shaft; 32. a slide bar; 33. an electric motor.

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.

Referring to fig. 1-3, a production device and method of anion green ceramic tile, comprising a drying box 1 and a flow guiding frame 15, wherein two long flow guiding rods 14 are fixedly connected to the outer walls of both sides of the flow guiding frame 15, connecting pieces 19 are fixedly connected to the outer walls of the same side of the two long flow guiding rods 14 positioned on one side at equal distances, a contact flow guiding sheet 20 is fixedly connected to the outer wall of each connecting piece 19 at equal distances, the outer walls of the connecting pieces 19 positioned on one side are fixedly connected with the same wind plate 11, suction holes 21 are opened at equal distances on the outer walls of the opposite sides of the two wind plates 11 positioned on the same flow guiding frame 15, the outer wall of the bottom of the flow guiding frame 15 is fixedly connected with a pump frame 16, the outer wall of the pump frame 16 is fixedly connected with a suction pump 17, the suction end of the suction pump 17 is connected to the inside of the wind plate 11 through a pipeline, liquid passing holes 18 are formed in the outer wall of the bottom of each guide frame 15 at equal intervals, through the arrangement of a drainage assembly, when green bricks are dried, the green bricks are placed in each guide frame 15, each contact guide vane 20 on each connecting sheet 19 is in contact with the green bricks, then a suction pump 17 is started, when the green bricks are dried by rotary heating, the suction pump 17 generates large suction to the green bricks through a suction hole 21 on the air plate 11, the suction drives water bodies on all positions on the green bricks to be in contact with the contact guide vanes 20, the water bodies on the green bricks are guided onto the connecting sheets 19 through the contact guide vanes 20, the water bodies on the surfaces of the green bricks are quickly separated from the surfaces of the green bricks in the drying process, so that the fast drying of the green bricks is realized, meanwhile, the water bodies on the green bricks are prevented from secondarily wetting the positions of the green bricks in the downward flowing process, the installation of drainage subassembly ensures that this adobe can realize the drying fast, avoids the secondary to soak, improves this production facility's use value.

Referring to fig. 3 and 4, the inner walls of the two sides of the diversion frame 15 are fixedly connected with the extrusion springs 24 at equal distances, the outer walls of the extrusion springs 24 on one side are fixedly connected with the same clamping plate 23, the top outer wall of the clamping plate 23 is fixedly connected with the extrusion plate 22, the clamping plate 23 and the extrusion springs 24 are arranged, when a green brick is installed, the extrusion springs 24 drive the clamping plate 23 to rapidly clamp the green brick, clamping of green bricks of different specifications can be achieved, convenience and high efficiency are achieved, after clamping is completed, in the drying process of the green brick, water attached to the surface of the green brick is in contact with the extrusion plate 22 and the clamping plate 23, grooves are formed in the clamping plate 23 at equal distances, accordingly falling of the water and the green brick is accelerated, the water is discharged along the liquid passing holes 18 below the diversion frame 15, and drying efficiency of the green brick is further improved.

Referring to fig. 1, 2 and 7, a motor frame 29 is fixedly connected to the inner wall of the top of the drying box 1, a motor 33 is fixedly connected to the outer wall of the bottom of the motor frame 29, an output shaft of the motor 33 is fixedly connected to a rotating shaft 31 through a coupler, and the flow guide frame 15 is fixedly connected to the outer wall of the rotating shaft 31.

In the invention, the inner wall of the top of the drying box 1, which is positioned at the outer side of the motor frame 29, is provided with an annular sliding groove, the inner wall of the annular sliding groove is connected with sliding rods 32 in a sliding manner at equal intervals, the outer wall of each sliding rod 32 is fixedly connected with a rotating rod 30, and the rotating rod 30 is fixedly connected with the outer wall of a rotating shaft 31.

Referring to fig. 1, the equal sliding connection of both sides outer wall of drying cabinet 1 has chamber door 3, and the equal fixedly connected with doorknob of outer wall of two chamber doors 3, and frame 2 catchments has been placed to the bottom inner wall of drying cabinet 1, and frame 2 catchments is located water conservancy diversion frame 15 below.

Referring to fig. 1, 2 and 6, two racks 13 are fixedly connected to inner walls of both sides of the drying box 1, and an air blower 12 is fixedly connected to an outer wall of each rack 13.

In the invention, the inner wall of the drying box 1 close to each frame 13 is fixedly connected with a heating plate 10, the inner wall of the heating plate 10 is fixedly connected with electric heating pipes 27 at equal intervals, the outer wall of the heating plate 10 facing to the flow guide frame 15 is separated from air holes 28 at equal intervals, and the air blowing end of the air blower 12 is connected to the inside of the heating plate 10 through a pipeline.

Referring to fig. 1, 2 and 5, the top outer wall of drying cabinet 1 is opened there are two connecting holes, and the equal fixedly connected with of inner wall of two connecting holes links up frame 4, and the same collection box 5 of top outer wall fixedly connected with of two frame 4 links up, and collection box 5 and linking frame 4 are linked together, and the outer wall of collection box 5 is opened there is the outage, and the inner wall fixedly connected with drain pipe 9 of outage, and the outer wall of drain pipe 9 has pipe valve 8 through flange joint.

In the invention, two mounting holes are formed in the outer wall of the top of a recovery box 5, mounting frames 7 are fixedly connected to the inner walls of the two mounting holes, semiconductor chilling plates 6 are fixedly connected to the inner walls of the two mounting frames 7 at equal distances, two limiting folding pieces 25 are fixedly connected to the inner wall of the top of the recovery box 5, condensing plates 26 are fixedly connected to the outer walls of the bottoms of the two limiting folding pieces 25 at equal distances, cooling water is filled in the condensing plates 26, the recovery box 5, the semiconductor chilling plates 6, the limiting folding pieces 25 and the condensing plates 26 are arranged, in a brick drying process, part of water body is evaporated under the action of high temperature, part of toxic gas is carried in the water vapor, the water vapor enters the recovery box 5 through a communicating frame 4, the cooling water is stored in the condensing plates 26 in the recovery box 5, the water vapor is primarily condensed by the condensing plates 26, the rest of the water vapor is guided by the limiting folding pieces 25 to move to the semiconductor chilling plates 6, and the semiconductor chilling plates 6 condense the rest of the water vapor, so that the part of the water vapor is prevented from overflowing to cause environmental pollution, and the environmental protection performance of the device is improved.

The use method of the anion green ceramic tile production equipment is applied to the anion green ceramic tile production equipment and comprises the following steps:

s1: when the green bricks are dried, the green bricks are placed in the guide frames 15, so that the contact guide vanes 20 on the connecting sheet 19 are in contact with the green bricks;

s2: the suction pump 17 is started, when the green bricks are heated and dried in a rotating mode, the suction pump 17 generates large suction force on the green bricks through the suction holes 21 in the air plates 11, the suction force drives water bodies in all positions on the green bricks to be in contact with the contact flow deflectors 20, and the water bodies on the green bricks are guided into the connecting pieces 19 through the contact flow deflectors 20, so that the water bodies on the surfaces of the green bricks are quickly separated from the surfaces of the green bricks in the drying process.

When the brick blank drying device is used, a brick blank is placed in the guide frame 15, the clamping plate 23 is driven by the extrusion spring 24 to quickly clamp the brick blank, clamping of the brick blank with different specifications can be realized, convenience and high efficiency are realized, after clamping is finished, in the drying process of the brick blank, water attached to the surface of the brick blank is in contact with the extrusion plate 22 and the clamping plate 23, grooves are formed in the clamping plate 23 at equal distances, so that falling of the water and the brick blank is accelerated, the water is discharged along the liquid passing holes 18 below the guide frame 15, after the brick blank is placed, the motor 33 is started, the motor 33 drives the rotating shaft 31 to rotate, the suction pump 17 is started, when the brick blank is subjected to rotary heating and drying, the suction pump 17 generates large suction force on the brick blank through the suction holes 21 in the air plate 11, the suction force drives the water on each position on the brick blank to be in contact with the guide plates 20, the water on the brick blank is guided onto the connecting plate 19 through each contact guide plate 20, so that the green bricks are dried, the water on the surfaces of the green bricks is quickly separated from the surfaces of the green bricks, thereby realizing the quick drying of the green bricks, simultaneously, the water on the green bricks is prevented from causing secondary wetting to all the positions of the green bricks in the process of flowing downwards, in the process of rotary drying of the green bricks, the air blower 12 is started, the electric heating pipe 27 is electrified, the air blower 12 guides the gas outside the drying box 1 into the heating plate 10, the electric heating pipe 27 heats the gas, the gas is blown to the green bricks through the air holes 28, the flow of the water on the green bricks is accelerated, thereby the water is quickly contacted with the contact deflector 20, the drying effect and the drying efficiency of the green bricks are further improved, in the whole drying process, part of the water is evaporated under the action of high temperature, part of toxic gas in the water vapor enters the recycling box 5 through the communicating frame 4, deposit the cooling water in the condensing panel 26 in the collection box 5, condensing panel 26 carries out preliminary condensation to vapor, and remaining vapor removes to semiconductor refrigeration piece 6 departments under spacing tabs 25's guide, and semiconductor refrigeration piece 6 condenses remaining vapor to ensure this partial vapor can not spill over and cause environmental pollution, after the drying, take off the adobe, repetitive operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (4)

1. The production equipment of the anion green ceramic tile comprises a drying box (1) and a flow guide frame (15), and is characterized in that two flow guide long rods (14) are fixedly connected to the outer walls of two sides of the flow guide frame (15), connecting pieces (19) are fixedly connected to the outer walls of two flow guide long rods (14) on one side at equal distances, contact flow guide pieces (20) are fixedly connected to the outer walls of the connecting pieces (19) on one side at equal distances, suction holes (21) are formed in the outer walls of two air plates (11) on the same flow guide frame (15) at equal distances, the outer walls of the two air plates (11) on the same flow guide frame are fixedly connected with the same connecting pipe at the opposite side, a pump frame (16) is fixedly connected to the outer wall of the bottom of the flow guide frame (15), a suction pump (17) is fixedly connected to the outer wall of the pump frame (16), the suction end of the suction pump (17) is connected to the inner part of the air plates (11) through a pipeline, and liquid passing holes (18) are formed in the outer wall of the bottom of the flow guide frame (15) at equal distances;

the inner walls of two sides of the flow guide frame (15) are fixedly connected with extrusion springs (24) at equal distances, the outer walls of the extrusion springs (24) positioned on one side are fixedly connected with the same clamping plate (23), and the outer wall of the top of the clamping plate (23) is fixedly connected with an extrusion plate (22);

the inner wall of the top of the drying box (1) is fixedly connected with a motor frame (29), the outer wall of the bottom of the motor frame (29) is fixedly connected with a motor (33), an output shaft of the motor (33) is fixedly connected with a rotating shaft (31) through a coupler, and a flow guide frame (15) is fixedly connected to the outer wall of the rotating shaft (31)

Drying cabinet (1) is located motor frame (29) outside top inner wall and opens there is annular sliding tray, and the inner wall equidistance sliding connection of annular sliding tray has slide bar (32), and the equal fixedly connected with dwang (30) of outer wall of every slide bar (32), dwang (30) fixed connection in the outer wall of pivot (31)

The outer walls of two sides of the drying box (1) are both connected with box doors (3) in a sliding mode, the outer walls of the two box doors (3) are both fixedly connected with door handles, a water collecting frame (2) is placed on the inner wall of the bottom of the drying box (1), and the water collecting frame (2) is located below the flow guide frame (15);

the inner walls of the two sides of the drying box (1) are fixedly connected with two racks (13), and the outer wall of each rack (13) is fixedly connected with an air blower (12);

the drying cabinet is characterized in that the inner wall of the drying cabinet (1) close to each rack (13) is fixedly connected with a heating plate (10), electric heating pipes (27) are fixedly connected with the inner walls of the heating plates (10) at equal intervals, air holes (28) are formed in the outer walls of the heating plates (10) facing the flow guide frame (15) at equal intervals, and the air blowing end of the air blower (12) is connected to the inner portion of the heating plates (10) through a pipeline.

2. The anion green ceramic tile production equipment as claimed in claim 1, wherein the top outer wall of the drying box (1) is provided with two connecting holes, the inner walls of the two connecting holes are fixedly connected with the connecting frame (4), the top outer walls of the two connecting frames (4) are fixedly connected with the same recycling box (5), the recycling box (5) is communicated with the connecting frame (4), the outer wall of the recycling box (5) is provided with a drain hole, the inner wall of the drain hole is fixedly connected with a drain pipe (9), and the outer wall of the drain pipe (9) is connected with a pipe valve (8) through a flange.

3. The anion green ceramic tile production equipment according to claim 2, wherein the top outer wall of the recycling bin (5) is provided with two mounting holes, the inner walls of the two mounting holes are fixedly connected with the mounting rack (7), the inner walls of the two mounting racks (7) are fixedly connected with the semiconductor refrigeration sheet (6) at equal distances, the top inner wall of the recycling bin (5) is fixedly connected with two limiting folding pieces (25), the bottom outer walls of the two limiting folding pieces (25) are fixedly connected with the condensation plate (26) at equal distances, and the inside of the condensation plate (26) is filled with cooling water.

4. The use method of the negative ion green ceramic tile production equipment, which is applied to the negative ion green ceramic tile production equipment of any one of claims 1-3, is characterized by comprising the following steps:

s1: when the green bricks are dried, the green bricks are placed in the guide frames (15), so that the contact guide vanes (20) on the connecting sheet (19) are in contact with the green bricks;

s2: the suction pump (17) is started, when the green bricks are dried by rotary heating, the suction pump (17) generates large suction force to the green bricks through the suction holes (21) on the air plates (11), the suction force drives water bodies on all positions on the green bricks to be in contact with the contact flow deflectors (20), and the water bodies on the green bricks are led into the connecting pieces (19) through the contact flow deflectors (20), so that the water bodies on the surfaces of the green bricks are quickly separated from the surfaces of the green bricks in the drying process.

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