CN109624051A - A kind of porcelain tendre production line - Google Patents

A kind of porcelain tendre production line Download PDF

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Publication number
CN109624051A
CN109624051A CN201811270159.XA CN201811270159A CN109624051A CN 109624051 A CN109624051 A CN 109624051A CN 201811270159 A CN201811270159 A CN 201811270159A CN 109624051 A CN109624051 A CN 109624051A
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CN
China
Prior art keywords
dispersion
porcelain tendre
tank
cooling
tanks
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201811270159.XA
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Chinese (zh)
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CN109624051B (en
Inventor
高祥
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Hubei Wanshuo New Material Co Ltd
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Hubei Wanshuo New Material Co Ltd
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Priority to CN201811270159.XA priority Critical patent/CN109624051B/en
Publication of CN109624051A publication Critical patent/CN109624051A/en
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Publication of CN109624051B publication Critical patent/CN109624051B/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B15/00General arrangement or layout of plant ; Industrial outlines or plant installations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B1/00Producing shaped prefabricated articles from the material
    • B28B1/52Producing shaped prefabricated articles from the material specially adapted for producing articles from mixtures containing fibres, e.g. asbestos cement
    • B28B1/525Producing shaped prefabricated articles from the material specially adapted for producing articles from mixtures containing fibres, e.g. asbestos cement containing organic fibres, e.g. wood fibres
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B11/00Apparatus or processes for treating or working the shaped or preshaped articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B11/00Apparatus or processes for treating or working the shaped or preshaped articles
    • B28B11/24Apparatus or processes for treating or working the shaped or preshaped articles for curing, setting or hardening
    • B28B11/243Setting, e.g. drying, dehydrating or firing ceramic articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B17/00Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
    • B28B17/02Conditioning the material prior to shaping
    • B28B17/026Conditioning ceramic materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28CPREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28C3/00Apparatus or methods for mixing clay with other substances
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28CPREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28C7/00Controlling the operation of apparatus for producing mixtures of clay or cement with other substances; Supplying or proportioning the ingredients for mixing clay or cement with other substances; Discharging the mixture
    • B28C7/0007Pretreatment of the ingredients, e.g. by heating, sorting, grading, drying, disintegrating; Preventing generation of dust
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B5/00Machines or apparatus for embossing decorations or marks, e.g. embossing coins
    • B44B5/0052Machines or apparatus for embossing decorations or marks, e.g. embossing coins by pressing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44BMACHINES, APPARATUS OR TOOLS FOR ARTISTIC WORK, e.g. FOR SCULPTURING, GUILLOCHING, CARVING, BRANDING, INLAYING
    • B44B5/00Machines or apparatus for embossing decorations or marks, e.g. embossing coins
    • B44B5/02Dies; Accessories

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Dispersion Chemistry (AREA)
  • Structural Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Manufacturing & Machinery (AREA)
  • Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)
  • Drying Of Solid Materials (AREA)

Abstract

A kind of porcelain tendre production line, including the dispersal device for being arranged successively and combining, agitating device, apparatus for baking, cooling device, embossing device, dispersal device includes No.1 dispersion tank, No. two dispersion tanks, No. three dispersion tanks, agitating device includes agitator tank, the bottom of No.1 dispersion tank is connected to the top of No. two dispersion tanks, No. two dispersion tank lower parts are provided with the discharge port communicated with agitator tank, the bottom of No. three dispersion tanks is connected to the top of agitator tank, apparatus for baking includes No.1 conveyer belt and baking box, the preheating cabinet being arranged in juxtaposition with baking box is provided on No.1 conveyer belt, the top of No.1 conveyer belt passes through preheating cabinet and baking box, cooling device is for the porcelain tendre after cooling baking, embossing device is used for the surface rolling pattern in porcelain tendre.Not only Forming Quality is high by the design, but also work efficiency is high, high degree of automation.

Description

A kind of porcelain tendre production line
Technical field
The present invention relates to porcelain tendre production technical field more particularly to a kind of porcelain tendre production lines, are primarily adapted for use in raising porcelain tendre Forming Quality improves the molding working efficiency of porcelain tendre, the degree of automation.
Background technique
Porcelain tendre is a kind of novel energy-saving low-carbon ornament materials, is used as decorative material for wall surface, have it is light, flexible, The features such as appearance and modeling multiplicity, good weatherability;It has the characteristics that wear-resisting, anti-skidding, comfortable foot feeling as floor decorative material. Porcelain tendre construction is simple is quick, compares than traditional material, shortens the duration, has saved space and cost, but also not easily to fall off.It is soft In porcelain production process, porcelain tendre particle is first prepared, then prepared porcelain tendre particle is placed in mold, be then fed into baking box Heating, drying is cooled down after the completion of drying, so as to following process or packaging.In the process for preparation of porcelain tendre particle, one As by the way that manually various raw materials are direct plungeed into agitator tank, the dispersion of porcelain tendre raw material and mixed is completed by the stirring of agitator tank It closes, not only the degree of automation is low, but also dispersion effect is poor, mixed effect is poor.Existing baking box all dries mould by hot wind Porcelain tendre particle in tool, not only Forming Quality is low, but also effects of energy conservation and environmental protection is poor.The existing cooling to porcelain tendre generally uses nature Cooling or installation blower is cooling.Using natural cooling, time-consuming, influences working efficiency;It is cooling using blower, although cooling velocity Fastly, but can porcelain tendre be deformed, influences the performance of product.During the following process of porcelain tendre, porcelain tendre surface needs to have Textured effect then needs to suppress using mold, and the turnover of mold needs more manpower to complete, not only working efficiency It is low, and the degree of automation is low, while also reducing the scope of application that molding machine is matched with mold.
Summary of the invention
The purpose of the present invention is overcome low porcelain tendre Forming Quality existing in the prior art, porcelain tendre shaping work low efficiency, Porcelain tendre shaping automation degree low defect and problem, provide that a kind of porcelain tendre Forming Quality is high, porcelain tendre shaping work is high-efficient, soft The high porcelain tendre production line of porcelain shaping automation degree.
In order to achieve the above object, the technical solution of the invention is as follows: a kind of porcelain tendre production line, including be arranged successively and group Dispersal device, agitating device, apparatus for baking, cooling device, the embossing device being combined, the dispersal device include No.1 point Tank, No. two dispersion tanks, No. three dispersion tanks are dissipated, the agitating device includes agitator tank;
The bottom of the No.1 dispersion tank is connected to the top of No. two dispersion tanks, and No.1 circle is horizontally arranged in No.1 dispersion tank Tin, No.1 drum length direction is provided with multiple No.1 grooves, the excircle of No.1 cylinder on the outer circumference surface of No.1 cylinder Plant fiber is wound on face, the position being located on the outside of No.1 groove in No.1 dispersion tank is horizontally arranged with screw rod, screw rod and one No.1 motor outside number dispersion tank is connected, and cutterhead is set on screw rod, is provided with blade on the outer circumference surface of cutterhead;
It is provided with No.1 feed inlet at the top of No. two dispersion tanks, the lower part of No. two dispersion tanks is provided with to be communicated with agitator tank No.1 discharge port, more No.1 cylindrical cutter bodies are horizontally arranged in No. two dispersion tanks, and the both ends of No.1 cylindrical cutter body are logical It crosses bearing to be mounted on No. two dispersion tanks, No.1 cylindrical cutter body is connected with No. two motors outside No. two dispersion tanks, No.1 It is provided with No.1 screw blade on the outer circumference surface of cylindrical cutter body, more No. two cylinders are vertically provided in No. two dispersion tanks Cutter hub, more No. two cylindrical cutter bodies are located between more No.1 cylindrical cutter bodies, and the both ends of No. two cylindrical cutter bodies pass through Bearing is mounted on No. two dispersion tanks, and No. two cylindrical cutter bodies are connected with No. three motors outside No. two dispersion tanks, No. two circles No. two screw blades are provided on the outer circumference surface of cylindricality cutter hub;
No. two feed inlets are provided at the top of No. three dispersion tanks, the bottom of No. three dispersion tanks is connected to the top of agitator tank, Being horizontally disposed in No. three dispersion tanks has two No.1 rollers being parallel to each other, and the both ends of No.1 roller pass through bearing and are mounted on three On number dispersion tank, No.1 roller is connected with No. four motors outside No. three dispersion tanks, the rotation direction phase of two No.1 rollers Instead;
It is provided with No. three feed inlets at the top of the agitator tank, the bottom of agitator tank is provided with No. two discharge ports, inside agitator tank It is provided with paddle, paddle is connected with No. five motors outside agitator tank;
The apparatus for baking includes No.1 conveyer belt and baking box, be provided on No.1 conveyer belt be arranged in juxtaposition with baking box it is pre- The top of hot tank, No.1 conveyer belt passes through preheating cabinet and baking box, and the preheating cabinet is internally located on top plate and bottom plate and both side plate It is both provided with No.1 mounting plate, heating tube is provided on No.1 mounting plate, one end of heating tube is connected to No.1 water inlet pipe, heating The other end of pipe is connected to No.1 outlet pipe, and the preheating cabinet is provided with No. two grooves, the baking on the side plate of baking box Oven, which is internally located on top plate and bottom plate and both side plate, is both provided with No. two mounting plates, is provided with light radiation pipe on No. two mounting plates, It is located at the position on the outside of light radiation pipe on No. two mounting plates and is provided with translucent cover, the baking box is set on the side plate of preheating cabinet No. three grooves communicated with No. two grooves are equipped with, are provided with No.1 air outlet on the bottom plate of baking box;
The cooling device, for the porcelain tendre after cooling baking;
The embossing device, for the surface rolling pattern in porcelain tendre.
The cooling device includes symmetrically arranged upper housing and lower case;
More horizontally arranged No.1 cooling tubes are provided on the inner wall of the upper housing, the both ends of No.1 cooling tube pass through one Number bearing is mounted on the inner wall of upper housing, and the both ends of No.1 cooling tube are set with No.1 belt pulley, and adjacent two No.1s are cold But the No.1 belt pulley on pipe is sequentially connected by No.1 belt, close to one one of No.1 conveyer belt in more No.1 cooling tubes No.1 belt pulley on number cooling tube is connect by No. two belts with No. six motor drives, one end of No.1 cooling tube and No. two into Water pipe connection, the other end of No.1 cooling tube are connected to No. two outlet pipes;
More horizontally arranged No. two cooling tubes, No. two cooling tubes and No.1 cooling tube pair are provided on the inner wall of the lower case Claim setting, the both ends of No. two cooling tubes pass through No. two bearings and are mounted on the inner wall of lower case, and the both ends of No. two cooling tubes are equal No. two belt pulleys are set with, No. two belt pulleys on adjacent two No. two cooling tubes are sequentially connected by No. three belts, and more two No. two belt pulleys in number cooling tube on No. two cooling tubes for No.1 conveyer belt pass through No. four belts and No. seven motors Transmission connection, one end of No. two cooling tubes are connected to No. two water inlet pipes, and the other end of No. two cooling tubes is connected to No. two outlet pipes.
The embossing device includes No. two cylinders and No. two conveyer belts, and the top of No. two conveyer belts passes through No. two cylinders Lower part, the top cover of No. two cylinders is provided centrally with No.1 through-hole, No.1 plectane, No.1 is provided with right above top cover Plectane is provided centrally with No. two through-holes, and No.1 plectane radial direction is provided with four communicated with No. two through-holes on No.1 plectane Number groove is provided with connecting rod right above No. four grooves, and one end of connecting rod is connected with No.1 cylinder, the other end connection of connecting rod There is pneumatic clamper, holding frame is connected in pneumatic clamper, is provided with support rod in No. two cylinders, one end of support rod sequentially passes through No.1 It is connected after through-hole, No. two through-holes with No. eight motors, the other end of support rod is connected with one end of briquetting, the other end of briquetting It is connected with No.1 electromagnet, is along the circumferential direction evenly arranged with muti-piece support plate on the inner wall of No. two cylinders, in support plate It is provided with module, one end of module is provided with No. two electromagnet, and the other end of module is provided with pattern layer, and the No.1 plectane can Circumferencial direction along support rod rotates.
No.1 air inlet is provided at the top of the No.1 dispersion tank, the position being located above screw rod in No.1 dispersion tank is set It is equipped with No.1 blower.
Position in No. two dispersion tanks below No.1 feed inlet is symmetrically arranged with two pieces of No.1 baffles, No.1 gear Plate is arranged diagonally downward;
The bottom of No. two dispersion tanks is provided with No. two rollers, and No. two rollers are mounted on No. two dispersion tanks by bearing, and two One end of number roller is connected with No. nine motors outside No. two dispersion tanks, and the other end of No. two rollers extends in agitator tank, Multiple groups flight is evenly arranged with along No. two drum length directions on the outer circumference surface of No. two rollers.
Position in No. two dispersion tanks below No.1 cylindrical cutter body is provided with No.1 filter screen, No.1 filtering Net cover is on No. two cylindrical cutter bodies;
It is located at No. three positions between feed inlet and paddle in the agitator tank and is provided with No. two filter screens.
The apparatus for baking further includes inlet box, and the bottom plate of inlet box is connected with the top plate of preheating cabinet, the top of inlet box It is provided with No. two air inlets on plate, No. two outlet air through inlet box bottom plate, preheating roof box are provided on the bottom plate of inlet box Mouthful, No. two blowers are provided in inlet box.
No. two cylinders are vertically connected on the outer wall of the upper housing.
Bracket is provided between the No.1 conveyer belt and cooling device, bracket is ladder structure of right angle, the oblique waist of bracket On be provided with No. three conveyer belts, the position that No. three conveyer belt two sides are located in the oblique waist of bracket is provided with No. two baffles.
No. two plectanes are provided with right above the No.1 plectane, one end of No. two plectanes passes through connecting rod and No.1 plectane It is connected, the other end of No. two plectanes is connected with No. ten motors;
Top cover circumferencial direction is provided with guide rail on the top cover, sliding block is provided on guide rail, sliding block is connected with No.1 plectane.
Compared with prior art, the invention has the benefit that
1, it is horizontally arranged with No.1 cylinder in No.1 dispersion tank in a kind of porcelain tendre production line of the present invention, is provided on No.1 cylinder more A No.1 groove, plant fiber is wound on cylinder, and the position on the outside of No.1 groove is horizontally arranged with screw rod, screw rod and No.1 electricity Machine is connected, and cutterhead is set on screw rod, and blade is provided on the outer circumference surface of cutterhead, and No.1 motor drives screw mandrel moves, from And cutterhead is moved along screw rod, in cutterhead motion process, blade cuts plant fiber along No.1 groove;It is horizontal in No. two dispersion tanks To more No.1 cylindrical cutter bodies are provided with, No.1 cylindrical cutter body is connected with No. two motors, outside No.1 cylindrical cutter body It is provided with No.1 screw blade on periphery, more No. two cylindrical cutter bodies, No. two cylinders are vertically provided in No. two dispersion tanks Shape cutter hub is connected with No. three motors, and No. two screw blades, porcelain tendre raw material are provided on the outer circumference surface of No. two cylindrical cutter bodies Middle bulky grain raw material is conducive to rapid dispersion by the cutting of vertical and horizontal two kinds of cylindrical cutter bodies;It is horizontally disposed in No. three dispersion tanks Have two No.1 rollers being parallel to each other, No.1 roller is connected with No. four motors, the rotation directions of two No.1 rollers on the contrary, Dispersed under the action of two No.1 rollers into the high molecular polymer in No. three dispersion tanks, nano material, it is scattered High molecular polymer, nano material, which enter in agitator tank, to be mixed;Agitator tank is internally provided with paddle, paddle and No. five Motor is connected, and porcelain tendre raw material small particles raw material is added in agitator tank by the feed inlet of agitator tank, bulky grain raw material and plant Agitator tank is added after fibres dispersion, is conducive to being sufficiently mixed for porcelain tendre raw material;No.1 installation is both provided on preheating chamber interior wall Plate is provided with heating tube on No.1 mounting plate, and one end of heating tube is connected to No.1 water inlet pipe, the other end and No.1 of heating tube Outlet pipe connection, the heat distributed using hot water preheat the porcelain tendre particle in mold, and not only pre-heat effect is good, Er Qiehuan It is good to protect effect;Baking box, which is internally located on top plate and bottom plate and both side plate, is both provided with No. two mounting plates, is arranged on No. two mounting plates Have a light radiation pipe, the position on the outside of light radiation pipe be located on No. two mounting plates and is provided with translucent cover, using light radiation pipe work come Porcelain tendre particle is dried, so that porcelain tendre particles by heat is uniform;Preheating cabinet is provided with No.1 groove on the side plate of baking box, baking Case is provided with No. two grooves communicated with No.1 groove on the side plate of preheating cabinet, and above-mentioned design is so that hot wind in preheating cabinet It can flow in baking box, improve the working efficiency of apparatus for baking.Therefore, Forming Quality of the present invention is high, work efficiency is high, automatic Change degree is high.
2, more horizontally arranged No.1 cooling tubes are provided on the inner wall of upper housing in a kind of porcelain tendre production line of the present invention, It is provided with more horizontally arranged No. two cooling tubes on the inner wall of lower case, one end and two of No.1 cooling tube, No. two cooling tubes The connection of number water inlet pipe, No.1 cooling tube, No. two cooling tubes the other end be connected to No. two outlet pipes, No.1 conveyer belt will dry Porcelain tendre be delivered between No.1 cooling tube and No. two cooling tubes, motor drives No.1 cooling tube, the rotation of No. two cooling tubes, thus Porcelain tendre is driven to travel forward, while porcelain tendre is contacted with No.1 cooling tube, No. two cooling tubes, passes through No.1 cooling tube, No. two coolings Flowing water cools down in pipe, and the cooler bin of above structure not only reduces the temperature of porcelain tendre well, but also can prevent from cooling down The too fast generation for leading to porcelain tendre problem on deformation;It is vertically connected with No. two cylinders on the outer wall of upper housing, is adjusted by cylinder The height of shell, so that the No.1 cooling tube on upper housing contacts sufficiently with porcelain tendre.Therefore, porcelain tendre Forming Quality of the present invention It is high, effects of energy conservation and environmental protection is good, porcelain tendre good cooling results.
3, be provided with support rod in a kind of porcelain tendre production line of the present invention in No. two cylinders, the both ends of support rod respectively with electricity Machine, briquetting are connected, and No.1 electromagnet is connected on briquetting, are moved up and down by motor control briquetting;It is set right above top cover It is equipped with No.1 plectane, is arranged along its radial direction fluted on No.1 plectane, be provided with connecting rod right above groove, the two of connecting rod End is connected with cylinder, pneumatic clamper respectively, and holding frame is connected in pneumatic clamper, controls holding frame by pneumatic clamper and clamps support rod, and leads to Crossing cylinder drives support rod along concave slot sports;Muti-piece support plate, support plate are along the circumferential direction evenly arranged on the inner wall of cylinder On be provided with module, one end of module is provided with No. two electromagnet, and the other end of module is provided with pattern layer, when support rod move When above to module, No.1 electromagnet, No. two electromagnet are powered, at this point, module is sucked in briquetting, later, control support rod is moved back It returns, and controls support rod and move down press pattern;When needing replacing module, control No.1 plectane can be along the circumferencial direction of support rod Rotation, so that groove is located at the top of another module, the porcelain tendre molding machine of above structure, not only work efficiency is high, automation Degree is high, and applied widely;No. two plectanes are provided with right above No.1 plectane, one end of No. two plectanes passes through connecting rod It is connected with No.1 plectane, the other end of No. two plectanes is connected with No. ten motors, controls No.1 plectane using the above structure along branch The circumferencial direction of strut rotates, not only easy to operate, but also high reliablity;Top cover circumferencial direction is provided with guide rail, sets on guide rail It is equipped with sliding block, sliding block is connected with No.1 plectane, and No.1 plectane is rotated along guide rail, it is ensured that the motion profile of No.1 plectane. Therefore, work efficiency is high, high degree of automation, applied widely, easy to operate, high reliablity by the present invention.
4, No.1 air inlet is provided in a kind of porcelain tendre production line of the present invention at the top of No.1 dispersion tank, in No.1 dispersion tank Position above screw rod is provided with No.1 blower, not only the plant fiber after cutting can be sent into No. two points by blower It dissipates in tank, and the plant fiber being attached on cylinder after cutting can be blown off;It is located at No.1 feed inlet in No. two dispersion tanks The position of lower section is symmetrically arranged with two pieces of No.1 baffles, and No.1 baffle is arranged diagonally downward, and baffle is arranged, and porcelain tendre can be prevented former Material flies out, and is conducive to the dispersion of porcelain tendre raw material;The bottom of No. two dispersion tanks is provided with No. two rollers, and No. two rollers pass through axis It holds and is mounted on No. two dispersion tanks, one end of No. two rollers is connected with No. nine motors, and the other end of No. two rollers, which extends to, to be stirred It mixes in tank, is evenly arranged with multiple groups flight along No. two drum length directions on the outer circumference surface of No. two rollers, pass through No. six electricity Machine drives No. two roller rotations, thus by porcelain tendre feedstock transportation into agitator tank, and can further disperse porcelain tendre raw material;No. two Position in dispersion tank below No.1 cylindrical cutter body is provided with No.1 filter screen, and No.1 filtration net cover is mounted in No. two cylinders On shape cutter hub, setting No.1 filter screen is conducive to the rapid dispersion of porcelain tendre raw material;It is located at No. three feed inlets and stirring in agitator tank Position between leaf is provided with No. two filter screens, and the quick mixing that No. two filter screens are conducive to porcelain tendre raw material is arranged.Therefore, this hair Bright dispersion effect is good, good mixing effect, high reliablity, high degree of automation.
5, No. two air inlets are provided in a kind of porcelain tendre production line of the present invention on the top plate of inlet box, on the bottom plate of inlet box No. two air outlets through inlet box bottom plate, preheating roof box are provided with, No. two blowers is provided in inlet box, is made by blower It obtains in preheating cabinet and forms hot wind, and hot wind can be sent into baking box, not only further improve pre-heat effect and drying effect, and And improve energy utilization rate.Therefore, pre-heat effect of the present invention is good, good drying effect, energy utilization rate are high.
6, bracket is provided between No.1 conveyer belt and cooling device in a kind of porcelain tendre production line of the present invention, bracket is right angle Trapezium structure is provided with No. three conveyer belts in the oblique waist of bracket, and No. three conveyer belts play a transition role, to prevent from making in transmission process It is deformed at porcelain tendre;Position in the oblique waist of bracket positioned at No. three conveyer belt two sides is provided with No. two baffles, baffle is arranged, to prevent Porcelain tendre is fallen during transportation.Therefore, porcelain tendre good product performance of the present invention, high reliablity.
Detailed description of the invention
Fig. 1 is structural block diagram of the invention.
Fig. 2 is the structural schematic diagram of dispersal device and agitating device in the present invention.
Fig. 3 is the structural schematic diagram of apparatus for baking and cooling device in the present invention.
Fig. 4 is the structural schematic diagram of heating tube in Fig. 3.
Fig. 5 is the structural schematic diagram of No.1 cooling tube in Fig. 3 (No. two cooling tubes).
Fig. 6 is the structural schematic diagram of embossing device in the present invention.
In figure: No.1 dispersion tank 1, No.1 cylinder 11, No.1 groove 12, screw rod 13, No.1 motor 14, cutterhead 15, blade 16, No.1 air inlet 17, No.1 blower 18, No. two dispersion tanks 2, No.1 feed inlet 21, No.1 discharge port 22, No.1 cylindrical knifes 23, No. two motors 24 of body, 27, No. two screw blades 28, one of motor of cylindrical cutter body 26, three of No.1 screw blade 25, two Number roller 210, nine of baffle 29, two motor 211, flight 212, No.1 filter screen 213, No.1 fountain head 214, three Dissipate 3, No. two feed inlets 31 of tank, 32, No. four motors 33 of No.1 roller, hopper 34, the discharging of the feed inlet 41, two of agitator tank 4, three Mouth 42, paddle 43, five motor 44, two fountain head 45, No. two filter screens 46, No.1 conveyer belt 5, preheating cabinets 51, No.1 Mounting plate 511, heating tube 512, No.1 water inlet pipe 513, No.1 outlet pipe 514, the air inlet 521, two of inlet box 52, two go out The blower 523 of air port 522, two, 6, No. two mounting plates 61 of baking box, light radiation pipe 62, translucent cover 63, No.1 air outlet 64, on Shell 7, No.1 cooling tube 71, No.1 bearing 72, No.1 belt pulley 73,74, No. two cylinders 75 of No.1 belt, lower case 8, two Cooling tube 81, two bearing 82, two belt pulley 83, three belt 84, two cylinder 9, top cover 91, No.1 through-hole 92, No.1 93, No. two through-holes 94 of plectane, connecting rod 95, No.1 cylinder 96, pneumatic clamper 97, holding frame 98, support rod 99, No. eight motors 910, briquetting 911, No.1 electromagnet 912, support plate 913, the electromagnet 915, two of module 914, two plectane 916, connecting rod 917, ten 101, No. three motor 918, guide rail 919,920, No. two conveyer belts 10 of sliding block, bracket conveyer belts 102.
Specific embodiment
Below in conjunction with Detailed description of the invention and specific embodiment, the present invention is described in further detail.
Referring to Fig. 1 to Fig. 6, a kind of porcelain tendre production line, including dispersal device, the stirring dress for being arranged successively and combining It sets, apparatus for baking, cooling device, embossing device, the dispersal device includes the dispersion tank 2, three of No.1 dispersion tank 1, two Tank 3 is dissipated, the agitating device includes agitator tank 4;
The bottom of the No.1 dispersion tank 1 is connected to the top of No. two dispersion tanks 2, is horizontally arranged with No.1 in No.1 dispersion tank 1 Cylinder 11 is provided with multiple No.1 grooves 12, No.1 circle along 11 length direction of No.1 cylinder on the outer circumference surface of No.1 cylinder 11 It is wound with plant fiber on the outer circumference surface of cylinder 11, is laterally arranged in No.1 dispersion tank 1 positioned at the position in 12 outside of No.1 groove There is screw rod 13, screw rod 13 is connected with the No.1 motor 14 outside No.1 dispersion tank 1, and cutterhead 15, cutterhead are set on screw rod 13 Blade 16 is provided on 15 outer circumference surface;
The top of No. two dispersion tanks 2 is provided with No.1 feed inlet 21, and the lower part of No. two dispersion tanks 2 is provided with and agitator tank 4 The No.1 discharge port 22 communicated is horizontally arranged with more No.1 cylindrical cutter bodies 23, No.1 cylindrical cutter body in No. two dispersion tanks 2 23 both ends pass through bearing and are mounted on No. two dispersion tanks 2, No. two outside No.1 cylindrical cutter body 23 and No. two dispersion tanks 2 Motor 24 is connected, and No.1 screw blade 25 is provided on the outer circumference surface of No.1 cylindrical cutter body 23, is erected in No. two dispersion tanks 2 To being provided with more No. two cylindrical cutter bodies 26, more No. two cylindrical cutter bodies 26 be located at more No.1 cylindrical cutter bodies 23 it Between, the both ends of No. two cylindrical cutter bodies 26 pass through bearing and are mounted on No. two dispersion tanks 2, No. two cylindrical cutter bodies 26 and No. two No. three motors 27 outside dispersion tank 2 are connected, and No. two screw blades are provided on the outer circumference surface of No. two cylindrical cutter bodies 26 28;
The top of No. three dispersion tanks 3 is provided with No. two feed inlets 31, the bottom of No. three dispersion tanks 3 and the top of agitator tank 4 It is connected to, being horizontally disposed in No. three dispersion tanks 3 has two No.1 rollers 32 being parallel to each other, and the both ends of No.1 roller 32 pass through axis It holds and is mounted on No. three dispersion tanks 3, No.1 roller 32 is connected with No. four motors 33 outside No. three dispersion tanks 3, two No.1s The rotation direction of roller 32 is opposite;
The top of the agitator tank 4 is provided with No. three feed inlets 41, and the bottom of agitator tank 4 is provided with No. two discharge ports 42, stirring Tank 4 is internally provided with paddle 43, and paddle 43 is connected with No. five motors 44 outside agitator tank 4;
The apparatus for baking includes No.1 conveyer belt 5 and baking box 6, is provided on No.1 conveyer belt 5 and is arranged in juxtaposition with baking box 6 Preheating cabinet 51, the top of No.1 conveyer belt 5 passes through preheating cabinet 51 and baking box 6, and the preheating cabinet 51 is internally located at top plate, bottom It is both provided with No.1 mounting plate 511 on plate and both side plate, heating tube 512 is provided on No.1 mounting plate 511, heating tube 512 One end is connected to No.1 water inlet pipe 513, and the other end of heating tube 512 is connected to No.1 outlet pipe 514, and the preheating cabinet 51 is close No. two grooves are provided on the side plate of baking box 6, the baking box 6 is internally located on top plate and bottom plate and both side plate and is both provided with No. two mounting plates 61 are provided with light radiation pipe 62 on No. two mounting plates 61, and 62 outside of light radiation pipe is located on No. two mounting plates 61 Position be provided with translucent cover 63, the baking box 6 is provided with three communicated with No. two grooves on the side plate of preheating cabinet 51 Number groove is provided with No.1 air outlet 64 on the bottom plate of baking box 6;
The cooling device, for the porcelain tendre after cooling baking;
The embossing device, for the surface rolling pattern in porcelain tendre.
The cooling device includes symmetrically arranged upper housing 7 and lower case 8;
More horizontally arranged No.1 cooling tubes 71 are provided on the inner wall of the upper housing 7, the both ends of No.1 cooling tube 71 are equal It is mounted on by No.1 bearing 72 on the inner wall of upper housing 7, the both ends of No.1 cooling tube 71 are set with No.1 belt pulley 73, phase No.1 belt pulley 73 on adjacent two No.1 cooling tubes 71 is sequentially connected by No.1 belt 74, is leaned in more No.1 cooling tubes 71 No.1 belt pulley 73 on a piece No.1 cooling tube 71 of nearly No.1 conveyer belt 5 is connected by No. two belts and No. six motor drives It connects, one end of No.1 cooling tube 71 is connected to No. two water inlet pipes, and the other end of No.1 cooling tube 71 is connected to No. two outlet pipes;
More horizontally arranged No. two cooling tubes 81 are provided on the inner wall of the lower case 8, No. two cooling tubes 81 and No.1 are cold But pipe 81 is symmetrical arranged, and the both ends of No. two cooling tubes 81 pass through No. two bearings 82 and are mounted on the inner wall of lower case 8, and No. two cold But the both ends of pipe 81 are set with No. two belt pulleys 83, and No. two belt pulleys 83 on adjacent two No. two cooling tubes 81 pass through No. three Belt 84 is sequentially connected, No. two skins in more No. two cooling tubes 81 on No. two cooling tubes 81 for No.1 conveyer belt 5 Belt wheel 83 is connect by No. four belts with No. seven motor drives, and one end of No. two cooling tubes 81 is connected to No. two water inlet pipes, and No. two The other end of cooling tube 81 is connected to No. two outlet pipes.
The embossing device includes No. two cylinders 9 and No. two conveyer belts 10, and the top of No. two conveyer belts 10 passes through two The lower part of number cylinder 9, the top cover 91 of No. two cylinders 9 are provided centrally with No.1 through-hole 92, the surface setting of top cover 91 There is a No.1 plectane 93, No.1 plectane 93 is provided centrally with No. two through-holes 94, along 93 radius side of No.1 plectane on No.1 plectane 93 To No. four grooves communicated with No. two through-holes 94 are provided with, connecting rod 95, one end of connecting rod 95 are provided with right above No. four grooves It is connected with No.1 cylinder 96, the other end of connecting rod 95 is connected with pneumatic clamper 97, it is connected with holding frame 98 in pneumatic clamper 97, described No. two Be provided with support rod 99 in cylinder 9, one end of support rod 99 sequentially pass through after 92, No. two through-holes 94 of No.1 through-hole with No. eight motors 910 are connected, and the other end of support rod 99 is connected with one end of briquetting 911, and the other end of briquetting 911 is connected with No.1 electromagnetism Iron 912 is along the circumferential direction evenly arranged with muti-piece support plate 913 on the inner wall of No. two cylinders 9, is arranged in support plate 913 There is a module 914, one end of module 914 is provided with No. two electromagnet 915, and the other end of module 914 is provided with pattern layer, and described one Number plectane 93 can be rotated along the circumferencial direction of support rod 99.
The top of the No.1 dispersion tank 1 is provided with No.1 air inlet 17, and 13 top of screw rod is located in No.1 dispersion tank 1 Position is provided with No.1 blower 18.
Position in No. two dispersion tanks 2 positioned at 21 lower section of No.1 feed inlet is symmetrically arranged with two pieces of No.1 baffles 29, No.1 baffle 29 is arranged diagonally downward;
The bottom of No. two dispersion tanks 2 is provided with No. two rollers 210, and No. two rollers 210 are mounted on No. two dispersions by bearing On tank 2, one end of No. two rollers 210 is connected with No. nine motors 211 outside No. two dispersion tanks 2, No. two rollers 210 it is another End extends in agitator tank 4, is evenly arranged with multiple groups along No. two 210 length directions of roller on the outer circumference surface of No. two rollers 210 Flight 212.
Position in No. two dispersion tanks 2 positioned at 23 lower section of No.1 cylindrical cutter body is provided with No.1 filter screen 213, and one Number filter screen 213 is sleeved on No. two cylindrical cutter bodies 26;
Position in the agitator tank 4 between No. three feed inlets 41 and paddle 43 is provided with No. two filter screens 46.
The apparatus for baking further includes inlet box 52, and the bottom plate of inlet box 52 is connected with the top plate of preheating cabinet 51, air inlet It is provided with No. two air inlets 521 on the top plate of case 52, is provided on the bottom plate of inlet box 52 through 52 bottom plate of inlet box, preheating cabinet No. two air outlets 522 of 51 top plates are provided with No. two blowers 523 in inlet box 52.
No. two cylinders 75 are vertically connected on the outer wall of the upper housing 7.
Bracket 101 is provided between the No.1 conveyer belt 5 and cooling device, bracket 101 is ladder structure of right angle, bracket It is provided with No. three conveyer belts 102 in 101 oblique waist, the position setting of No. three 102 two sides of conveyer belt is located in the oblique waist of bracket 101 There are No. two baffles.
The surface of the No.1 plectane 93 is provided with No. two plectanes 916, and one end of No. two plectanes 916 passes through connecting rod 917 are connected with No.1 plectane 93, and the other end of No. two plectanes 916 is connected with No. ten motors 918;
91 circumferencial direction of top cover is provided with guide rail 919 on the top cover 91, sliding block 920, sliding block 920 are provided on guide rail 919 It is connected with No.1 plectane 93.
The principle of the present invention is described as follows:
Multiple No.1 fountain heads are provided at the top of No. two dispersion tanks, setting No.1 fountain head can not only be used to clean No. two points Tank is dissipated, and porcelain tendre raw material can be made full use of;It is provided with multiple No. two fountain heads at the top of agitator tank, No. two water sprays are set Head can automatically control the use of water in mixing process.Be located in No. three dispersion tanks No. two feed inlets and No.1 roller it Between position be provided with hopper, setting hopper can guarantee the high molecular polymer being sent into No. three dispersion tanks, nano material quilt The grinding of No.1 roller.
When making porcelain tendre particle using the dispersal device and agitating device of the design, the specific steps are as follows: A, prepare porcelain tendre The raw material of particle, the raw material composition and its weight percent of porcelain tendre particle are as follows: modified soil 55 ﹪~65 ﹪, modified inorganic powder The ﹪ of 10 ﹪~15, high molecular polymer and nano material 15 ﹪~25 ﹪, plant fiber 2 ﹪~4 ﹪, 0.5 ﹪ of multifunctional assistant ~2 ﹪;B, first modified soil, modified inorganic powder are added in No. two dispersion tanks and carry out dispersion mixing, then plant fiber is added Dispersed in No.1 dispersion tank, and the plant fiber after dispersion is delivered in No. two dispersion tanks, then to No. two dispersion tanks Modified soil, modified inorganic powder, plant fiber are carried out dispersion mixing, then the modification that dispersion mixing is good by middle addition water together Soil, modified inorganic powder, plant fiber are delivered in agitator tank, and high molecular polymer, nano material are then added No. three points It dissipates and is dispersed in tank, and the high molecular polymer after dispersion, nano material are delivered in agitator tank;C, by multifunctional assistant Agent, water are added in agitator tank to be carried out together with modified soil, modified inorganic powder, plant fiber, high molecular polymer, nano material It is stirred to obtain porcelain tendre particle.
Modified soil is that microwave treatment obtains at high temperature by one of laterite, carclazyte, black earth or any several mixing It arrives;Modified inorganic powder be using inorganic matters such as natural stone-powder, miberal powders as raw material, it is categorized mixing, composite modified, in photochemical isomery and It is formed at a temperature of curve;The weatherability that product can be improved using the combination of modified soil and modified inorganic powder, in high temperature and low temperature Weather conditions under, using can reach 50 years or more.And the nano material and plant fiber used, product can be made to reach certain Density, gas permeability, the bridging property between strand, flexibility.
No.1 cooling tube, No. two cooling tubes include the No.1 cylindrical section being sequentially communicated, No. two cylindrical sections, No. three cylinders Section, the diameter of No.1 cylindrical section are equal to the diameter of No. three cylindrical sections, the diameter of No.1 cylindrical section less than No. two cylindrical sections diameter, The cooling tube of above structure not only guarantees that porcelain tendre comes into full contact with cooling tube, but also reduces self weight, reduces installation difficulty.
No.1 temperature sensor is provided in preheating cabinet, No.1 temperature sensor is electrically connected with the controller, No.1 water inlet pipe On be provided with No.1 flow valve, No.1 flow valve is electrically connected with the controller, No.1 temperature sensor detect preheating cabinet in temperature, Controller controls No.1 flow valve by the temperature that No.1 temperature sensor detects, to control hot water in No.1 water inlet pipe Flow;No. two temperature sensors are provided on the inner wall of lower case, No. two temperature sensors are electrically connected with the controller, No. two water inlets No. two flow valves are provided on pipe, No. two flow valves are electrically connected with the controller, and detect porcelain tendre by No. two temperature sensors Temperature not only guarantees that porcelain tendre can cool down well to control the flow velocity of water by controller, but also porcelain tendre can be prevented cooling It is too fast;Multiple through-holes are evenly arranged on No.1 conveyer belt, so that heat transfer effect is good, No.1 conveyer belt is by heat-resisting material It is made, improves the service life of conveyer belt.
In order to reach energy-saving effect, exhaust fan can be set on baking box, heat transfer extra in baking box is arrived In preheating cabinet.In order to adapt to different preheating cabinets, baking box structure, also for preheating, cured effect is improved, heating tube can also be with Using hollow structure, parallel column structures, matrix pattern structure etc.;Light radiation pipe can also be using arcuate structure, arranged in parallel Formula structure etc..
No.1 mounting plate on the preheating cabinet bottom plate and both side plate can be along preheating cabinet side plate to another side plate of preheating cabinet Direction it is mobile, preheating the No.1 mounting plate on roof box can move along the direction of preheating roof box to preheating cabinet bottom plate;It is described No. two mounting plates on baking box bottom plate and both side plate can be moved along the direction of baking box side plate to another side plate of baking box, be dried No. two mounting plates on oven top plate can be moved along the direction of baking roof box to baking box bottom plate;To make No.1 mounting plate, two Number mounting plate is mobile, and can use following structures: No.1 mounting plate, No. two mounting plates are sleeved on straight-bar, No.1 mounting plate, two Number mounting plate is connect with cylinder, and cylinder pushes No.1 mounting plate, No. two mounting plates to move along straight-bar;Following knots can also be used Structure: No.1 mounting plate, No. two mounting plate two sides are mounted on cabinet by sliding block, sliding rail, No.1 mounting plate, No. two mounting plates with Cylinder connection, cylinder push No.1 mounting plate, No. two mounting plates to move along sliding rail.
The surrounding of the upper housing and lower case opposing end surface is vertically connected with No.1 addendum cone, the lower case and upper casing The surrounding of body opposing end surface is vertically connected with No. two addendum cones, and No. two addendum cones and No.1 addendum cone are symmetrical arranged, and No.1 addendum cone is arranged Porcelain tendre is caused to deform to prevent the extruding of No.1 cooling tube, No. two cooling tubes to porcelain tendre with No. two addendum cones.The upper housing with Lower case is rectangular parallelepiped structure, and the upper housing end face opposite with lower case is open end, the lower case end opposite with upper housing Face is open end.
More horizontally arranged No.1 cooling tubes are provided on the inner wall of upper housing, the both ends of No.1 cooling tube are set with No.1 belt pulley, the No.1 cooling tube for being located at arrangement the first (close to No.1 conveyer belt) rotates under the drive of No.1 motor, first Position No.1 cooling tube drives No.1 cooling tube rotation adjacent thereto by No.1 belt, remaining No.1 cooling tube is all previous at its It is rotated under the drive of root No.1 cooling tube;For the motion principle of No. two cooling tubes with the movement of No.1 cooling tube, the No.1 of rotation is cold But pipe, No. two cooling tubes drive porcelain tendre advance the puck.
Module is provided with rectangular channel on the end face far from No. two electromagnet, the bottom of rectangular channel, module is arranged in pattern layer In porcelain tendre surface rolling pattern, porcelain tendre can also be cut, is not used only simply, and porcelain tendre attractive appearance.
The control method of porcelain tendre embossing device is the following steps are included: first control pneumatic clamper works, so that holding frame clamps support Bar, then No.1 cylinder operation is controlled, No.1 cylinder drives support rod along the top of concave slot sports to module, then controls No.1 electricity Magnet, No. two electromagnet are powered, so that No.1 electromagnet and No. two electromagnet are attracting, then control No.1 cylinder and support rod is driven to move back It returns, then controls pneumatic clamper work, so that holding frame unclamps support rod, then controls No. eight motor work, so that support rod band dynamic model Block moves downward, and module is pressed down against the porcelain tendre placed on the conveyor belt, then controls No. eight motors and module is driven to retract, this When, porcelain tendre surface forms pattern.When needing replacing module, No. ten motor work are controlled, No. ten motors drive No. two plectanes to turn Dynamic, No. two plectanes drive No.1 plectane to rotate along the circumferencial direction of support rod, the No.1 plectane when groove is located at right above module It stops operating.
Embodiment 1:
Referring to Fig. 1 to Fig. 6, a kind of porcelain tendre production line, including be arranged successively and combine dispersal device, agitating device, Apparatus for baking, cooling device, embossing device, the dispersal device include the dispersion tank of dispersion tank 2, three of No.1 dispersion tank 1, two 3, the agitating device includes agitator tank 4;The bottom of the No.1 dispersion tank 1 is connected to the top of No. two dispersion tanks 2, No.1 point It dissipates in tank 1 and is horizontally arranged with No.1 cylinder 11, be provided on the outer circumference surface of No.1 cylinder 11 along 11 length direction of No.1 cylinder Multiple No.1 grooves 12 are wound with plant fiber on the outer circumference surface of No.1 cylinder 11, are located at No.1 groove in No.1 dispersion tank 1 The position in 12 outsides is horizontally arranged with screw rod 13, and screw rod 13 is connected with the No.1 motor 14 outside No.1 dispersion tank 1, screw rod 13 On be set with cutterhead 15, blade 16 is provided on the outer circumference surface of cutterhead 15;The top of No. two dispersion tanks 2 is provided with No.1 Feed inlet 21, the lower part of No. two dispersion tanks 2 are provided with the No.1 discharge port 22 communicated with agitator tank 4, transverse direction in No. two dispersion tanks 2 More No.1 cylindrical cutter bodies 23 are provided with, the both ends of No.1 cylindrical cutter body 23 pass through bearing and are mounted on No. two dispersion tanks 2 On, No.1 cylindrical cutter body 23 is connected with No. two motors 24 outside No. two dispersion tanks 2, the outer circle of No.1 cylindrical cutter body 23 It is provided with No.1 screw blade 25 on circumferential surface, is vertically provided with more No. two cylindrical cutter bodies 26 in No. two dispersion tanks 2, more two Number cylindrical cutter body 26 is located between more No.1 cylindrical cutter bodies 23, and the both ends of No. two cylindrical cutter bodies 26 pass through bearing and pacify On No. two dispersion tanks 2, No. two cylindrical cutter bodies 26 are connected with No. three motors 27 outside No. two dispersion tanks 2, No. two circles No. two screw blades 28 are provided on the outer circumference surface of cylindricality cutter hub 26;The top of No. three dispersion tanks 3 be provided with No. two into The bottom of material mouth 31, No. three dispersion tanks 3 is connected to the top of agitator tank 4, is horizontally disposed with to have in No. three dispersion tanks 3 and is parallel to each other Two No.1 rollers 32, the both ends of No.1 roller 32 pass through bearing and are mounted on No. three dispersion tanks 3, No.1 roller 32 and No. three No. four motors 33 outside dispersion tank 3 are connected, and the rotation direction of two No.1 rollers 32 is opposite;The top of the agitator tank 4 No. three feed inlets 41 are provided with, the bottom of agitator tank 4 is provided with No. two discharge ports 42, and agitator tank 4 is internally provided with paddle 43, Paddle 43 is connected with No. five motors 44 outside agitator tank 4;The apparatus for baking includes No.1 conveyer belt 5 and baking box 6, The preheating cabinet 51 being arranged in juxtaposition with baking box 6 is provided on No.1 conveyer belt 5, the top of No.1 conveyer belt 5 passes through preheating cabinet 51 With baking box 6, the preheating cabinet 51, which is internally located on top plate and bottom plate and both side plate, is both provided with No.1 mounting plate 511, No.1 peace Heating tube 512 is provided in loading board 511, one end of heating tube 512 is connected to No.1 water inlet pipe 513, the other end of heating tube 512 It is connected to No.1 outlet pipe 514, the preheating cabinet 51 is provided with No. two grooves, the baking box 6 on the side plate of baking box 6 It is internally located on top plate and bottom plate and both side plate and is both provided with No. two mounting plates 61, be provided with light radiation pipe on No. two mounting plates 61 62, the position that 62 outside of light radiation pipe is located on No. two mounting plates 61 is provided with translucent cover 63, and the baking box 6 is close to preheating cabinet It is provided with No. three grooves communicated with No. two grooves on 51 side plate, is provided with No.1 air outlet 64 on the bottom plate of baking box 6;Institute Cooling device is stated for the porcelain tendre after cooling toast;The embossing device is used for the surface rolling pattern in porcelain tendre.
Embodiment 2:
Basic content with embodiment 1, the difference is that:
Referring to Fig. 3, Fig. 5, the cooling device includes symmetrically arranged upper housing 7 and lower case 8;The inner wall of the upper housing 7 On be provided with more horizontally arranged No.1 cooling tubes 71, the both ends of No.1 cooling tube 71 pass through No.1 bearing 72 and are mounted on On the inner wall of shell 7, the both ends of No.1 cooling tube 71 are set with No.1 belt pulley 73, on adjacent two No.1 cooling tubes 71 No.1 belt pulley 73 is sequentially connected by No.1 belt 74, close to one one of No.1 conveyer belt 5 in more No.1 cooling tubes 71 No.1 belt pulley 73 on number cooling tube 71 is connect by No. two belts with No. six motor drives, one end of No.1 cooling tube 71 and No. two water inlet pipe connections, the other end of No.1 cooling tube 71 are connected to No. two outlet pipes;It is provided on the inner wall of the lower case 8 More horizontally arranged No. two cooling tubes 81, No. two cooling tubes 81 and No.1 cooling tube 81 are symmetrical arranged, No. two cooling tubes 81 Both ends pass through No. two bearings 82 and are mounted on the inner wall of lower case 8, and the both ends of No. two cooling tubes 81 are set with No. two belts 83 are taken turns, No. two belt pulleys 83 on adjacent two No. two cooling tubes 81 are sequentially connected by No. three belts 84, more No. two coolings No. two belt pulleys 83 in pipe 81 on No. two cooling tubes 81 for No.1 conveyer belt 5 pass through No. four belts and No. seven motors Transmission connection, one end of No. two cooling tubes 81 are connected to No. two water inlet pipes, the other end and No. two outlet pipes of No. two cooling tubes 81 Connection;No. two cylinders 75 are vertically connected on the outer wall of the upper housing 7.
Embodiment 3:
Basic content with embodiment 1, the difference is that:
Referring to Fig. 6, the embossing device includes No. two cylinders 9 and No. two conveyer belts 10, and the top of No. two conveyer belts 10 is worn The lower part of No. two cylinders 9 is crossed, the top cover 91 of No. two cylinders 9 is provided centrally with No.1 through-hole 92, the surface of top cover 91 It is provided with No.1 plectane 93, No.1 plectane 93 is provided centrally with No. two through-holes 94, along No.1 plectane 93 half on No.1 plectane 93 Diameter direction is provided with No. four grooves communicated with No. two through-holes 94, is provided with connecting rod 95 right above No. four grooves, connecting rod 95 One end is connected with No.1 cylinder 96, and the other end of connecting rod 95 is connected with pneumatic clamper 97, and holding frame 98 is connected in pneumatic clamper 97, described Be provided with support rod 99 in No. two cylinders 9, one end of support rod 99 sequentially pass through after 92, No. two through-holes 94 of No.1 through-hole with No. eight Motor 910 is connected, and the other end of support rod 99 is connected with one end of briquetting 911, and the other end of briquetting 911 is connected with No.1 Electromagnet 912, is along the circumferential direction evenly arranged with muti-piece support plate 913 on the inner wall of No. two cylinders 9, in support plate 913 It is provided with module 914, one end of module 914 is provided with No. two electromagnet 915, and the other end of module 914 is provided with pattern layer, institute Stating No.1 plectane 93 can rotate along the circumferencial direction of support rod 99;The surface of the No.1 plectane 93 is provided with No. two plectanes 916, one end of No. two plectanes 916 is connected by connecting rod 917 with No.1 plectane 93, the other end connection of No. two plectanes 916 There are No. ten motors 918;91 circumferencial direction of top cover is provided with guide rail 919 on the top cover 91, is provided with sliding block on guide rail 919 920, sliding block 920 is connected with No.1 plectane 93.
Embodiment 4:
Basic content with embodiment 1, the difference is that:
Referring to fig. 2, the top of the No.1 dispersion tank 1 is provided with No.1 air inlet 17, is located on screw rod 13 in No.1 dispersion tank 1 The position of side is provided with No.1 blower 18;Position in No. two dispersion tanks 2 positioned at 21 lower section of No.1 feed inlet is symmetrical arranged There are two pieces of No.1 baffles 29, No.1 baffle 29 is arranged diagonally downward;The bottom of No. two dispersion tanks 2 is provided with No. two rollers 210, No. two rollers 210 are mounted on No. two dispersion tanks 2 by bearing, outside one end of No. two rollers 210 and No. two dispersion tanks 2 No. nine motors 211 be connected, the other end of No. two rollers 210 extends in agitator tank 4, the outer circumference surface of No. two rollers 210 On along No. two 210 length directions of roller be evenly arranged with multiple groups flight 212;It is located at No.1 cylinder in No. two dispersion tanks 2 The position of 23 lower section of shape cutter hub is provided with No.1 filter screen 213, and No.1 filter screen 213 is sleeved on No. two cylindrical cutter bodies 26; Position in the agitator tank 4 between No. three feed inlets 41 and paddle 43 is provided with No. two filter screens 46.
Embodiment 5:
Basic content with embodiment 1, the difference is that:
Referring to Fig. 3, the apparatus for baking further includes inlet box 52, and the bottom plate of inlet box 52 is connected with the top plate of preheating cabinet 51, It is provided with No. two air inlets 521 on the top plate of inlet box 52, is provided on the bottom plate of inlet box 52 through 52 bottom plate of inlet box, in advance No. two air outlets 522 of 51 top plate of hot tank are provided with No. two blowers 523 in inlet box 52.
Embodiment 6:
Basic content with embodiment 1, the difference is that:
Referring to Fig. 3, bracket 101 is provided between the No.1 conveyer belt 5 and cooling device, bracket 101 is ladder structure of right angle, It is provided with No. three conveyer belts 102 in the oblique waist of bracket 101, the position of No. three 102 two sides of conveyer belt is located in the oblique waist of bracket 101 It is provided with No. two baffles.

Claims (10)

1. a kind of porcelain tendre production line, which is characterized in that including be arranged successively and combine dispersal device, agitating device, Apparatus for baking, cooling device, embossing device, the dispersal device include No.1 dispersion tank (1), No. two dispersion tanks (2), No. three points It dissipates tank (3), the agitating device includes agitator tank (4);
The bottom of the No.1 dispersion tank (1) is connected to the top of No. two dispersion tanks (2), and No.1 dispersion tank is laterally arranged in (1) Have No.1 cylinder (11), it is recessed that No.1 cylinder (11) length direction is provided with multiple No.1s on the outer circumference surface of No.1 cylinder (11) Slot (12) is wound with plant fiber on the outer circumference surface of No.1 cylinder (11), is located at No.1 groove (12) in No.1 dispersion tank (1) The position in outside is horizontally arranged with screw rod (13), and screw rod (13) the No.1 motor (14) external with No.1 dispersion tank (1) is connected, It is set on screw rod (13) cutterhead (15), blade (16) is provided on the outer circumference surface of cutterhead (15);
It is provided with No.1 feed inlet (21) at the top of No. two dispersion tanks (2), the lower part of No. two dispersion tanks (2) is provided with and stirs The No.1 discharge port (22) that tank (4) communicates is mixed, is horizontally arranged with more No.1 cylindrical cutter bodies (23) in No. two dispersion tanks (2), The both ends of No.1 cylindrical cutter body (23) pass through bearing and are mounted on No. two dispersion tanks (2), No.1 cylindrical cutter body (23) with No. two No. two external motors (24) of dispersion tank (2) are connected, and are provided with one on the outer circumference surface of No.1 cylindrical cutter body (23) Number screw blade (25) is vertically provided with more No. two cylindrical cutter bodies (26), more No. two cylinders in No. two dispersion tanks (2) Cutter hub (26) is located between more No.1 cylindrical cutter bodies (23), and the both ends of No. two cylindrical cutter bodies (26) are installed by bearing On No. two dispersion tanks (2), No. two cylindrical cutter bodies (26) No. three motors (27) external with No. two dispersion tanks (2) are connected, No. two screw blades (28) are provided on the outer circumference surface of No. two cylindrical cutter bodies (26);
It is provided with No. two feed inlets (31) at the top of No. three dispersion tanks (3), the bottom of No. three dispersion tanks (3) and agitator tank (4) top is connected to, and being horizontally disposed in No. three dispersion tanks (3) has two No.1 rollers (32) being parallel to each other, No.1 roller (32) both ends pass through bearing and are mounted on No. three dispersion tanks (3), No.1 roller (32) and the four of No. three dispersion tanks (3) outsides Number motor (33) is connected, and the rotation direction of two No.1 rollers (32) is opposite;
No. three feed inlets (41) are provided at the top of the agitator tank (4), the bottom of agitator tank (4) is provided with No. two discharge ports (42), agitator tank (4) is internally provided with paddle (43), paddle (43) No. five motor (44) phases external with agitator tank (4) Connection;
The apparatus for baking includes No.1 conveyer belt (5) and baking box (6), is provided on No.1 conveyer belt (5) and baking box (6) The top of the preheating cabinet (51) being arranged in juxtaposition, No.1 conveyer belt (5) passes through preheating cabinet (51) and baking box (6), the preheating cabinet (51) it is internally located on top plate and bottom plate and both side plate and is both provided with No.1 mounting plate (511), No.1 mounting plate is arranged on (511) Have heating tube (512), one end of heating tube (512) is connected to No.1 water inlet pipe (513), the other end and one of heating tube (512) The connection of number outlet pipe (514), the preheating cabinet (51) are provided with No. two grooves, the baking on the side plate of baking box (6) Case (6), which is internally located on top plate and bottom plate and both side plate, is both provided with No. two mounting plates (61), is provided on No. two mounting plates (61) Light radiation pipe (62) is located at the position on the outside of light radiation pipe (62) on No. two mounting plates (61) and is provided with translucent cover (63), described Baking box (6) is provided with No. three grooves communicated with No. two grooves, the bottom plate of baking box (6) on the side plate of preheating cabinet (51) On be provided with No.1 air outlet (64);
The cooling device, for the porcelain tendre after cooling baking;
The embossing device, for the surface rolling pattern in porcelain tendre.
2. a kind of porcelain tendre production line according to claim 1, it is characterised in that:
The cooling device includes symmetrically arranged upper housing (7) and lower case (8);
More horizontally arranged No.1 cooling tubes (71) are provided on the inner wall of the upper housing (7), No.1 cooling tube (71) Both ends pass through No.1 bearing (72) and are mounted on the inner wall of upper housing (7), and the both ends of No.1 cooling tube (71) are set with one Number belt pulley (73), the No.1 belt pulley (73) on adjacent two No.1 cooling tubes (71) are connected by No.1 belt (74) transmission It connects, the No.1 belt pulley in more No.1 cooling tubes (71) on a No.1 cooling tube (71) of No.1 conveyer belt (5) (73) it is connect by No. two belts with No. six motor drives, one end of No.1 cooling tube (71) is connected to No. two water inlet pipes, No.1 The other end of cooling tube (71) is connected to No. two outlet pipes;
Be provided with more horizontally arranged No. two cooling tubes (81) on the inner wall of the lower case (8), No. two cooling tubes (81) with No.1 cooling tube (81) is symmetrical arranged, and the both ends of No. two cooling tubes (81) pass through No. two bearings (82) and are mounted on lower case (8) Inner wall on, the both ends of No. two cooling tubes (81) are set with No. two belt pulleys (83), on adjacent two No. two cooling tubes (81) No. two belt pulleys (83) by the transmission connection of No. three belts (84), close to No.1 conveyer belt in more No. two cooling tubes (81) (5) No. two belt pulleys (83) on No. two cooling tubes (81) are connect by No. four belts with No. seven motor drives, and No. two One end of cooling tube (81) is connected to No. two water inlet pipes, and the other end of No. two cooling tubes (81) is connected to No. two outlet pipes.
3. a kind of porcelain tendre production line according to claim 1, it is characterised in that: the embossing device includes No. two cylinders (9) with No. two conveyer belts (10), the top of No. two conveyer belts (10) passes through the lower part of No. two cylinders (9), No. two circles Being provided centrally with No.1 through-hole (92) for the top cover (91) of cylinder (9), is provided with No.1 plectane (93), one right above top cover (91) Number plectane (93) is provided centrally with No. two through-holes (94), is provided on No.1 plectane (93) along No.1 plectane (93) radial direction No. four grooves communicated with No. two through-holes (94) are provided with connecting rod (95) right above No. four grooves, one end of connecting rod (95) with No.1 cylinder (96) is connected, and the other end of connecting rod (95) is connected with pneumatic clamper (97), and holding frame (98) are connected in pneumatic clamper (97), Is provided with support rod (99) in No. two cylinders (9), one end of support rod (99) sequentially pass through No.1 through-hole (92), No. two it is logical Hole (94) is connected with No. eight motors (910) afterwards, and the other end of support rod (99) is connected with one end of briquetting (911), briquetting (911) the other end is connected with No.1 electromagnet (912), is along the circumferential direction uniformly arranged on the inner wall of No. two cylinders (9) Have muti-piece support plate (913), be provided in support plate (913) module (914), one end of module (914) is provided with No. two electromagnetism Iron (915), the other end of module (914) are provided with pattern layer, and the No.1 plectane (93) can be along the circumference side of support rod (99) To rotation.
4. a kind of porcelain tendre production line according to claim 1, it is characterised in that: set at the top of the No.1 dispersion tank (1) It is equipped with No.1 air inlet (17), the position in No.1 dispersion tank (1) above screw rod (13) is provided with No.1 blower (18).
5. a kind of porcelain tendre production line according to claim 1, it is characterised in that:
Position in No. two dispersion tanks (2) below No.1 feed inlet (21) is symmetrically arranged with two pieces of No.1 baffles (29), No.1 baffle (29) is arranged diagonally downward;
The bottom of No. two dispersion tanks (2) is provided with No. two rollers (210), and No. two rollers (210) are mounted on two by bearing On number dispersion tank (2), one end of No. two rollers (210) No. nine motors (211) external with No. two dispersion tanks (2) are connected, and two The other end of number roller (210) extends in agitator tank (4), along No. two rollers (210) on the outer circumference surface of No. two rollers (210) Length direction is evenly arranged with multiple groups flight (212).
6. a kind of porcelain tendre production line according to claim 1, it is characterised in that:
Position in No. two dispersion tanks (2) below No.1 cylindrical cutter body (23) is provided with No.1 filter screen (213), No.1 filter screen (213) is sleeved on No. two cylindrical cutter bodies (26);
Position in the agitator tank (4) between No. three feed inlets (41) and paddle (43) is provided with No. two filter screens (46)。
7. a kind of porcelain tendre production line according to claim 1, it is characterised in that: the apparatus for baking further includes inlet box (52), the bottom plate of inlet box (52) is connected with the top plate of preheating cabinet (51), be provided on the top plate of inlet box (52) No. two into Air port (521) is provided with No. two outlet air through inlet box (52) bottom plate, preheating cabinet (51) top plate on the bottom plate of inlet box (52) Mouth (522), inlet box (52) is interior to be provided with No. two blowers (523).
8. a kind of porcelain tendre production line according to claim 2, it is characterised in that: vertical on the outer wall of the upper housing (7) It is connected with No. two cylinders (75).
9. a kind of porcelain tendre production line according to claim 1, it is characterised in that: the No.1 conveyer belt (5) and cooling dress It is provided between setting bracket (101), bracket (101) is ladder structure of right angle, is provided with No. three conveyings in the oblique waist of bracket (101) With (102), the position that No. three conveyer belt (102) two sides are located in the oblique waist of bracket (101) is provided with No. two baffles.
10. a kind of porcelain tendre production line according to claim 3, it is characterised in that:
No. two plectanes (916) are provided with right above the No.1 plectane (93), one end of No. two plectanes (916) passes through connecting rod (917) it is connected with No.1 plectane (93), the other end of No. two plectanes (916) is connected with No. ten motors (918);
It is provided with guide rail (919) on the top cover (91) along top cover (91) circumferencial direction, guide rail is provided with sliding block on (919) (920), sliding block (920) is connected with No.1 plectane (93).
CN201811270159.XA 2018-10-29 2018-10-29 Soft porcelain production line Active CN109624051B (en)

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Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002127131A (en) * 2000-10-19 2002-05-08 Sumitomo Kinzoku Kozan Siporex Kk Apparatus and method for manufacturing alc
CN101862616A (en) * 2009-04-16 2010-10-20 上海亦晨信息科技发展有限公司 Distributed two-stage mixing device and method thereof
CN203853188U (en) * 2014-05-28 2014-10-01 米成群 Superfine spherical aluminum powder dispersing device and dispersing, grading and collecting system employing same
CN204638085U (en) * 2015-05-25 2015-09-16 湖北万硕新型材料有限公司 A kind of porcelain tendre produces mixed powder agitating device
CN105082352A (en) * 2014-05-23 2015-11-25 湖北垚美软瓷有限公司 Mixer enabling fibers to be added into tender porcelain particles conveniently
CN105082334A (en) * 2014-05-23 2015-11-25 湖北垚美软瓷有限公司 Cooling device for tender porcelain finished product
CN205570208U (en) * 2016-04-20 2016-09-14 安徽凤凰涂料科技有限公司 Coating dispersion machine
CN205965694U (en) * 2016-08-25 2017-02-22 万卓(武汉)新材料有限公司 Raw material mixing equipment for soft porcelain
CN107433166A (en) * 2017-08-31 2017-12-05 颍上县永军建材有限责任公司 A kind of building material product raw material crushes feeder equipment
CN107522451A (en) * 2017-08-16 2017-12-29 顾玉城 A kind of preparation method of ceramics

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002127131A (en) * 2000-10-19 2002-05-08 Sumitomo Kinzoku Kozan Siporex Kk Apparatus and method for manufacturing alc
CN101862616A (en) * 2009-04-16 2010-10-20 上海亦晨信息科技发展有限公司 Distributed two-stage mixing device and method thereof
CN105082352A (en) * 2014-05-23 2015-11-25 湖北垚美软瓷有限公司 Mixer enabling fibers to be added into tender porcelain particles conveniently
CN105082334A (en) * 2014-05-23 2015-11-25 湖北垚美软瓷有限公司 Cooling device for tender porcelain finished product
CN203853188U (en) * 2014-05-28 2014-10-01 米成群 Superfine spherical aluminum powder dispersing device and dispersing, grading and collecting system employing same
CN204638085U (en) * 2015-05-25 2015-09-16 湖北万硕新型材料有限公司 A kind of porcelain tendre produces mixed powder agitating device
CN205570208U (en) * 2016-04-20 2016-09-14 安徽凤凰涂料科技有限公司 Coating dispersion machine
CN205965694U (en) * 2016-08-25 2017-02-22 万卓(武汉)新材料有限公司 Raw material mixing equipment for soft porcelain
CN107522451A (en) * 2017-08-16 2017-12-29 顾玉城 A kind of preparation method of ceramics
CN107433166A (en) * 2017-08-31 2017-12-05 颍上县永军建材有限责任公司 A kind of building material product raw material crushes feeder equipment

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