CN102410713B - Continuous drying chamber for wet ceramic green - Google Patents

Abstract

The invention discloses a continuous drying chamber for a wet ceramic green, belonging to the technical field of ceramic production equipment and used for automatic drying in production of molded wet ceramic green. In a technical scheme disclosed by the invention, the continuous drying chamber is composed of a drying chamber main body, a drying chamber inlet conveying line, an advancing and lifting mechanism, roller shelves, a receiving and lifting mechanism, a drying chamber outlet conveying line, hot air stirrers, a heat supply device, a dampness removing device and a PLC (Programmable Logic Controller) system, wherein the advancing and lifting mechanism and the receiving and lifting mechanism are arranged at two ends of the drying chamber and are respectively the drying chamber inlet conveying line and the drying chamber outlet conveying line, the roller shelves are arranged between the advancing and lifting mechanism and the receiving and lifting mechanism, a plurality of hot air stirrers are arranged among the roller shelves, the heat supply device and the dampness removing device are respectively communicated with the drying chamber main body, and the PLC control device is respectively connected with the mechanisms and devices. According to the invention, the automatic drying of molded wet ceramic green is realized without manual carrying, damages caused by manual operation are avoided, the utilization rate of a production field is increased, and the drying effect is enhanced.

Description

A kind of pottery base continuous drying chamber of wetting

Technical field

The present invention relates to the wet base drying plant of a kind of sanitary ceramics, belong to the ceramic production device technical field.

Background technology

In the wet base drying process of traditional forming process of ceramics, adopt the drying mode of common hothouse always, install to by the base that manually will wet and to shift onto on the transit wagon in the drying chamber, after oven dry is finished by the time dry body is moved down, cause breakage easily, transit wagon by artificial loading and unloading can not do too high, therefore can not effectively utilize the space, and the door of drying chamber often opens, make that the heat in the drying chamber is inhomogeneous, cause drying effect inconsistent, influence the dries quantity of dry body.

Summary of the invention

Technical problem to be solved by this invention provides a kind ofly can guarantee the wet needed variations in temperature of base dry run, realize that mechanization transmits, avoids artificial breakage, the pottery that is had living space that maximally utilises drying chamber simultaneously in the process of removing the down base continous way drying chamber that wets.

The technical scheme that addresses the above problem is:

A kind of pottery base continuous drying chamber of wetting, it is by the drying chamber body, drying chamber inlet pipeline, advance hoisting mechanism, the cylinder shelf, receive hoisting mechanism, drying chamber outlet pipeline, the hot blast mixer, heating plant, moisture discharge device, the PLC control device is formed, advance hoisting mechanism and receive hoisting mechanism and be installed in the intrinsic two ends of drying chamber, the cylinder shelf are advancing hoisting mechanism and are receiving between the hoisting mechanism, drying chamber inlet pipeline and drying chamber outlet pipeline lay respectively at the entrance and exit of drying chamber body, be connected with the reception hoisting mechanism with advancing hoisting mechanism respectively, many hot blast mixers are arranged between the cylinder shelf, heating plant and moisture discharge device are connected with the drying chamber body respectively, and the PLC control device is connected with device with said mechanism respectively;

Described propelling hoisting mechanism is got on the right track, advances lower railway and advanced elevator to form by propelling, propelling is got on the right track on the drying chamber framework that is fixedly mounted on drying chamber top, advance the lower railway fixed installation on the ground, propelling is got on the right track with to advance lower railway parallel relatively, advances elevator top and bottom to get on the right track, advance lower railway to match respectively with propelling;

Described reception hoisting mechanism is got on the right track, receives elevator, received lower railway and form by reception, reception is got on the right track on the drying chamber framework that is fixedly mounted on drying chamber top, receive the lower railway fixed installation on the ground, reception is got on the right track with to receive lower railway parallel relatively, receives elevator top and bottom and gets on the right track, receives lower railway respectively with reception and match;

Described cylinder shelf have two groups, and every component is a multilayer, and every layer has many passages, and unpowered shelf cylinder is equipped with in every passage bottom.

The above-mentioned pottery base continuous drying chamber of wetting, described propelling elevator be by advancing the elevator framework, hoisting mechanism, advances carrier, propulsive mechanism, the horizontal walking mechanism of propelling to form; Advancing the elevator framework is upright rectangle metal framework, advance the top platform of elevator framework that lifting twin shaft output speed reducer is housed, promote the twin shaft output speed reducer and connect drive sprocket by shaft coupling, output shaft, advance the bottom of elevator framework that driven sprocket is housed, there is chain to be connected between drive sprocket and the driven sprocket, the propelling line slideway is housed in the inboard of the column that advances the elevator framework; Advance the both sides of carrier that lifting ear seat is housed, on the lifting ear seat chain fastener is housed and is connected, advance on the carrier electronic propelling cylinder and unpowered propelling cylinder are housed, advance in the carrier mid portion groove to connect propulsive mechanism with chain; Propulsive mechanism advances dolly, advances vehicle guide, advances reductor to form by advancing framework, leading screw, two feed rods, advances dolly to drive two feed rods guiding by leading screw, and wheel cooperates with advancing vehicle guide, and the push pedal shift fork is equipped with in the centre of axletree.

The above-mentioned pottery base continuous drying chamber of wetting, described reception elevator be by receiving the elevator framework, received vector, receives horizontal walking mechanism and form; Receiving the elevator framework is upright rectangle metal framework, the top platform that receives the elevator framework is equipped with and promotes the twin shaft output speed reducer, promote the twin shaft output speed reducer and connect drive sprocket by shaft coupling, output shaft, driven sprocket is equipped with in the bottom that receives the elevator framework, there is chain to be connected between drive sprocket and the driven sprocket, the reception line slideway is housed in the inboard of the column that receives the elevator framework; Many electronic reception cylinders and the unpowered reception cylinder of Duo Zhi are housed on the received vector.

The above-mentioned pottery base continuous drying chamber of wetting, described drying chamber inlet pipeline is by pipeline framework, transport trolley, the walking track, propulsion cylinder is formed, two axles are housed on the transport trolley, two cover bearings are housed on the every axle, bearing cooperates with the walking track, the transport trolley below is connected with propulsion cylinder, and propulsion cylinder is installed on the pipeline framework.

The above-mentioned pottery base continuous drying chamber of wetting, described drying chamber outlet pipeline is made up of roller frame, miniature electric cylinder, unpowered conveying cylinder, and all cylinders are installed in the same working face, and the leading section of drying chamber outlet conveying is equipped with the miniature electric cylinder.

The above-mentioned pottery base continuous drying chamber of wetting, described heating plant is made up of a trunk line and three branch lines, and every branch line is by the butterfly valve control of a YE control, and YE is connected with temperature sensor.

The above-mentioned pottery base continuous drying chamber of wetting, described moisture discharge device is made up of two axial flow blowers and exhausting moisture pipeline, and axial flow blower is installed on the sidewall of drying chamber first half, is connected with exhausting moisture pipeline, and axial flow blower is connected with humidity sensor.

Usefulness of the present invention is:

The present invention is in the wet base drying process of pottery, the drying mode that has replaced traditional artificial entrucking-drying-unload, the streamline drying mode that adopts mechanically-propelled, continuous drying, machinery to receive, realized the automation of wet base drying, not only reduce personnel, also greatly reduced the breakage rate of this operation; Adopt this continuous drying chamber, realized the layer stereo oven dry, saved the drying chamber area greatly, effectively increased space availability ratio; This continuous drying chamber is the normally closed type drying chamber, and internal temperature humidity is relatively stable, and the drying course basically identical of each wet base can reach good drying effect.

The present invention has changed the baking operation of manually removing down of the wet base of traditional pottery, has realized that mechanization operates automatically, has improved production efficiency greatly, and under human resources anxiety, energy-intensive situation now, the use of equipment is of great immediate significance.

Description of drawings

Fig. 1 is the front view of structural representation of the present invention;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the front view of drying chamber inlet pipeline;

Fig. 4 is the cutaway view of Fig. 3;

Fig. 5 is the front view that advances hoisting mechanism;

Fig. 6 is the left view of Fig. 5;

Fig. 7 is the front view of propulsive mechanism;

Fig. 8 is the cutaway view of Fig. 7;

Fig. 9 is the front view of receiving mechanism;

Figure 10 is the left view of Fig. 9.

Mark is as follows among the figure:

1-drying chamber body, 2-drying chamber inlet pipeline, 3-propelling hoisting mechanism, 4-cylinder shelf, 5-reception hoisting mechanism, 6-drying chamber outlet pipeline, 7-hot blast mixer, 8-heating plant, 9-moisture discharge device, 10-drying chamber framework, 11-advance and get on the right track, 12-propelling lower railway, 13-warming plate, 14-receive and get on the right track, 15-wet base blank inlet, 16-reception lower railway, 17-electronic reception cylinder, 18-unpowered reception cylinder, the outlet of 19-dry body, 20-pipeline framework, 21-transport trolley, 22-walking track, 23---propulsion cylinder, 24-axle, 25-bearing, 26-advance the mount pad that gets on the right track, 27-propelling elevator, 28-propelling lower railway mount pad, 29-unpowered shelf cylinder, the spacing angle steel of 30-frock plate, 31-reception elevator, 32-roller frame, 33-miniature electric cylinder, 34-unpowered conveying cylinder, 35-butterfly valve, 36-air inlet, 37-axial flow blower, 38-propelling elevator framework, 39-hoisting mechanism, 40-propelling carrier, 41-propulsive mechanism, 42-advance horizontal walking mechanism, 43-column, 44-top platform, 45-bottom connects, 46-tiltedly draw support 47-truss, 48-propelling line slideway, 49-upward driven sheaves, 50-deceleration sprocket wheel, 51-driven sprocket, 52-driving sheave, 53-following driven sheave, 54-lifting twin shaft output speed reducer, 55-shaft coupling, 56-output shaft, 57-drive sprocket, 58-lifting ear seat, 59-chain fastener, 60-electronic propelling cylinder, 61-unpowered propelling cylinder, 62-propelling framework, 63-leading screw, 64-feed rod, 65-propelling dolly, 66-propelling vehicle guide, 67-propelling reductor, 68-copper sheathing, 69-feed screw nut, 70-axle, 71-wheel, 72-push pedal shift fork, 73-reception elevator framework, 74-received vector.

The specific embodiment

The present invention is made up of drying chamber body 1, drying chamber inlet pipeline 2, propelling hoisting mechanism 3, cylinder shelf 4, reception hoisting mechanism 5, drying chamber outlet pipeline 6, hot blast mixer 7, heating plant 8, moisture discharge device 9, PLC control device.

Show among the figure that overall structure of the present invention is:

In drying chamber body 1 inside, drying chamber inlet pipeline 2, propelling hoisting mechanism 3, cylinder shelf 4, reception hoisting mechanism 5, drying chamber outlet pipeline 6 are arranged in order according to the streamline form.Two series cylinder shelf 4 are installed in and advance between hoisting mechanism 3 and the reception hoisting mechanism 5, advance elevator 27 to get on the right track 11 and advance lower railway 12 fixing by propelling, can walk before cylinder shelf 4 along track, reception elevator 31 can get on the right track and receive lower railway and walk in cylinder shelf 4 backs along reception.Four hot blast mixers 7 are arranged between the two series cylinder shelf 4, and 8 fens three groups of pipelines of heating plant are regulated temperature automatically by temperature sensor control YE 12, and moisture discharge device is controlled by humidity sensor.

Described drying chamber enters the mouth pipeline 2 by pipeline framework 20, transport trolley 21, walking track 22, and propulsion cylinder 23 is formed.Advance on the dolly 21 two axles 24 are housed, two cover bearings 25 are housed on the every axle 24, bearing 25 cooperates with walking track 22, transport trolley 21 belows are stretched out connector and are connected with propulsion cylinder 23, propulsion cylinder 23 is installed on the pipeline framework 20, under the effect of cylinder 23, can follow away track 22 and walk repeatedly.

Described propelling hoisting mechanism 3 by propelling get on the right track mount pad 26, advance and to get on the right track 11, advance elevator 27, advance lower railway 12, advance lower railway mount pad 28 to form, the propelling mount pad 26 that gets on the right track is welded on the drying chamber framework 10, advance lower railway mount pad 28 that parallel up and down aligning is installed on the ground.

Described cylinder shelf 4 are divided into three layers up and down, and every group of shelf have six passages, and unpowered shelf cylinder 29 is equipped with in every passage bottom, and the spacing angle steel 30 of frock plate is equipped with in unpowered shelf cylinder 29 tops.

Described reception hoisting mechanism 5 is identical with the structure that advances hoisting mechanism 3, receives elevator 31 and has replaced propelling elevator 27.

Described drying chamber outlet pipeline 6 is made up of roller frame 32, miniature electric cylinder 33, unpowered conveying cylinder 34, and all cylinders are installed in the same working face.

Described heating plant 8 is made up of a trunk line and three branch pipe(tube)s, and every branch pipe(tube) is controlled by the butterfly valve 35 of a YE 12 controls, and every branch pipe(tube) is divided into two air inlets 36, and YE 12 is connected with temperature sensor.

Described moisture discharge device 9 is made up of two axial flow blowers 37 and exhausting moisture pipeline, and axial flow blower 37 is controlled by humidity sensor.

Show among the figure that the structure of the propelling elevator 27 of propelling hoisting mechanism 3 of the present invention is as follows:

Advance elevator 27 by advancing elevator framework 38, hoisting mechanism 39, propelling carrier 40, propulsive mechanism 41, the horizontal walking mechanism 42 of propelling are formed.Advance elevator framework 38 to connect 45, tiltedly draw support 46, truss 47 bolts to connect to form by column 43, top platform 44, bottom, the inboard of column 43 is equipped with and is advanced top, line slideway 48 outsides to be equipped with two to put driven sheave 49, deceleration sprocket wheel 50 is equipped with by the upper part in the centre, driven sprocket 51 is equipped with by following position in the centre, left side column outer lower portion is equipped with driving sheave 52, and right side column outer lower portion is equipped with down driven sheave 53.Advancing horizontal walking mechanism 42 to put driven sheave 49, the following driven sheave 53 of a cover and driving sheave 52 by two forms, truss 47 all is equipped with in two columns, 43 fronts, top platform 44 is equipped with and promotes twin shaft output speed reducer 54, promote twin shaft output speed reducer 54 and connect output shaft 56 by shaft coupling 55, output shaft is fixed by two rolling bearing units, axle head is equipped with drive sprocket 57, drive sprocket 57 is connected with hinge wheel in the deceleration sprocket wheel 50 by chain, and the minor sprocket of deceleration sprocket wheel 50 is connected with driven sprocket 51 by chain.

Show among the figure that the structure of the propelling carrier 40 of propelling hoisting mechanism 3 of the present invention is as follows:

Advance the both sides of carrier 40 that lifting ear seat 58 is housed, on the lifting ear seat 58 chain fastener 59 being housed is connected with chain, advance on the carrier 40 electronic propelling cylinder 60 and unpowered propelling cylinder 61 are housed, advance bolt connection propulsive mechanism 41 in the carrier 40 mid portion grooves.Advancing carrier 40 to do up and down at the traction lower edge of hoisting mechanism 39 line slideway 48 transports.

Show among the figure that the structure of the propulsive mechanism 41 of propelling hoisting mechanism 3 of the present invention is as follows:

Propulsive mechanism 41 is by advancing framework 62, leading screw 63, two feed rods 64, advance dolly 65, advance vehicle guide 66, advance reductor 67 to form, one end of leading screw 63 connects propelling reductor 67, and be fixed on by two bearings and advance on the framework 62, all there is screw thread at two feed rods, 64 two ends, be fixed on the propelling framework 62 by round nut, advance the lower part of dolly 65 that two copper sheathings 68 that cooperate with feed rod 64 are housed, a feed screw nut 69 that cooperates with leading screw 63, the lower part is connected by block with top, on two axles 70 of top car body four wheels 71 are housed, wheel 71 rolls in advancing vehicle guide 66, and push pedal shift fork 72 is equipped with in the centre of two axles 70.Advance reductor 67 to drive leading screw 63 rotations and promote to be bolted to the mother lead screw that advances on the dolly 65, make to advance dolly 65 to move reciprocatingly.

Show among the figure that reception elevator 31 structures of reception hoisting mechanism 5 of the present invention are as follows:

Receive elevator 31 by receiving elevator framework 73, receive hoisting mechanism, received vector 74, receive horizontal walking mechanism composition, receive elevator framework 73 and advance elevator framework 38 structures identical, 5 electronic reception cylinders 17 and 5 unpowered reception cylinders 18 are housed on the received vector 74.Receive elevator 31 and can get on the right track 14 and receive lower railway 16 and back and forth walk along reception.

The course of work of the present invention is as follows:

One. send wet base:

Cylinder 23 initial positions of drying chamber inlet pipeline 2 are in contraction state, and optoelectronic switch detects after the wet base that streamline sends here, and cylinder 23 is released, and one group (two) wet base is advanced to advance on the elevator 27.

Two. advance, receive the workflow of elevator:

Control according to PLC, advance elevator 27 and receive elevator 31 predetermined orders and supply (getting) base for 12 passages on the cylinder shelf 4.Advance elevator 27 to be in the propelling origin position, dock with drying chamber inlet pipeline 2; Receive elevator and also be in the reception origin position, dock with drying chamber outlet pipeline 6; When drying chamber inlet pipeline 2 base that will wet is shifted onto when advancing on the elevator 27, being installed in the electronic promotion cylinder 60 that advances on the carrier 40 begins to rotate, wet base is delivered to the rear portion that advances carrier 40, electronic promotion cylinder 60 stops operating, the horizontal walking mechanism 42 of hoisting mechanism 39 and propelling is rotated, carrier 40 is corresponding with the pre-routing of program in the cylinder shelf 4 with advancing, meanwhile, by PLC interlock control, receive elevator 31 and reach the precalculated position at the opposite side of cylinder shelf 4, after the both sides signal puts in place, propulsive mechanism 41 is started working, to advance the wet base on the carrier 40 to advance to cylinder shelf 4, on the cylinder shelf 4 the dry body of drying eject, simultaneously, the electronic reception cylinder that receives on the elevator 31 rotates, dry body is received from cylinder shelf 4, advance, after receiving, advance elevator 27 zero loads, it is fully loaded to receive elevator 31, two elevators are all got back to origin position separately, and the electronic reception cylinder 17 that receives elevator 31 rotates, and dry body is transported on the drying chamber outlet pipeline 6, miniature electric cylinder 33 rotates on the drying chamber outlet pipeline 6, dry body is sent, advanced elevator 27 to wait for wet base, enter next working cycles.

Claims (5)

1. the wet base continuous drying chamber of a pottery, it is characterized in that: it is by drying chamber body (1), drying chamber inlet pipeline (2), advance hoisting mechanism (3), cylinder shelf (4), receive hoisting mechanism (5), drying chamber outlet pipeline (6), hot blast mixer (7), heating plant (8), moisture discharge device (9), the PLC control device is formed, advance hoisting mechanism (3) and receive hoisting mechanism (5) and be installed in the interior two ends of drying chamber body (1), cylinder shelf (4) are advancing hoisting mechanism (3) and are receiving between the hoisting mechanism (5), drying chamber inlet pipeline (2) and drying chamber outlet pipeline (6) lay respectively at the entrance and exit of drying chamber body (1), be connected with reception hoisting mechanism (5) with advancing hoisting mechanism (3) respectively, many hot blast mixers (7) are arranged between the cylinder shelf (4), heating plant (8) and moisture discharge device (9) are connected with drying chamber body (1) respectively, and the PLC control device is connected with device with said mechanism respectively;

Described propelling hoisting mechanism (3) is got on the right track (11), advances lower railway (12) and advanced elevator (27) to form by propelling, propelling get on the right track (11) be fixedly mounted on the drying chamber framework (10) of drying chamber top, advance lower railway (12) fixed installation on the ground, propelling is got on the right track (11) with to advance lower railway (12) parallel relatively, advances elevator (27) top and bottom to get on the right track (11), advance lower railway (12) to match respectively with propelling;

Described reception hoisting mechanism (5) is got on the right track (14), receives elevator (31), received lower railway (16) and form by reception, reception get on the right track (14) be fixedly mounted on the drying chamber framework (10) of drying chamber top, receive lower railway (16) fixed installation on the ground, reception is got on the right track (14) with to receive lower railway (16) parallel relatively, receives elevator (31) top and bottom and gets on the right track (14), receives lower railway (16) respectively with reception and match;

Described cylinder shelf (4) have two groups, and every component is a multilayer, and every layer has many passages, and unpowered shelf cylinder (29) is equipped with in every passage bottom.

2. the pottery according to claim 1 base continuous drying chamber of wetting, it is characterized in that: described propelling elevator (27) is by advancing elevator framework (38), hoisting mechanism (39), advances carrier (40), propulsive mechanism (41), advances horizontal walking mechanism (42) to form; Advancing elevator framework (38) is upright rectangle metal framework, advance the top platform of elevator framework (38) that lifting twin shaft output speed reducer (54) is housed, promote twin shaft output speed reducer (54) and connect drive sprocket (57) by shaft coupling (55), output shaft (56), advance the bottom of elevator framework (38) that driven sprocket (51) is housed, there is chain to be connected between drive sprocket (57) and the driven sprocket (51), is equipped with in the inboard of the column (43) that advances elevator framework (38) and advances line slideway (48); Advance the both sides of carrier (40) that lifting ear seat (58) is housed, on the lifting ear seat (58) chain fastener (59) being housed is connected with chain, advance on the carrier (40) many electronic propelling cylinders (60) and many unpowered propelling cylinders (61) are housed, advance in carrier (40) the mid portion groove to connect propulsive mechanism (41); Propulsive mechanism (41) is by advancing framework (62), leading screw (63), two feed rods (64), advance dolly (65), advance vehicle guide (66), advance reductor (67) to form, advance dolly (65) to drive two feed rods (64) guiding by leading screw (63), wheel (71) cooperates with advancing vehicle guide (66), and push pedal shift fork (72) is equipped with in the centre of axletree (70).

3. the pottery according to claim 2 base continuous drying chamber of wetting is characterized in that: described reception elevator (31) is by receiving elevator framework (73), received vector (74), receives horizontal walking mechanism and forms; Receiving elevator framework (73) is upright rectangle metal framework, the top platform that receives elevator framework (73) is equipped with and promotes the twin shaft output speed reducer, promote the twin shaft output speed reducer and connect drive sprocket by shaft coupling, output shaft, driven sprocket is equipped with in the bottom that receives elevator framework (73), there is chain to be connected between drive sprocket and the driven sprocket, the reception line slideway is housed in the inboard of the column that receives elevator framework (73); Many electronic reception cylinders (17) and many unpowered reception cylinders (18) are housed on the received vector (74).

4. the pottery according to claim 3 base continuous drying chamber of wetting, it is characterized in that: described drying chamber inlet pipeline (2) is by pipeline framework (20), transport trolley (21), walking track (22), propulsion cylinder (23) is formed, two axles (24) are housed on the transport trolley (21), two cover bearings (25) are housed on the every axle, bearing (25) cooperates with walking track (22), transport trolley (21) below is connected with propulsion cylinder (23), and propulsion cylinder (23) is installed on the pipeline framework (20).

5. the pottery according to claim 4 base continuous drying chamber of wetting, it is characterized in that: described drying chamber outlet pipeline (6), form by roller frame (32), miniature electric cylinder (33), unpowered conveying cylinder (34), all cylinders are installed in the same working face, and the leading section of drying chamber outlet pipeline (6) is equipped with miniature electric cylinder (33).

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