CN116638613B - Drying box for manufacturing ceramic marmite convenient to use and ceramic marmite convenient to use - Google Patents

Abstract

The invention discloses a drying box for manufacturing a convenient ceramic marmite and the ceramic marmite thereof, which relate to the technical field of ceramic marmite production, wherein a storage fixing frame is arranged at the positions of a movable supporting groove and a reset supporting plate, a plurality of linkage inclined grooves are formed in the side ends of a placing sleeve joint block at equal intervals, one end of each of two separation electric push rods is fixedly connected with a separation partition plate, one side of the bottom end of each discharge box is clamped with a shaping box, a thermal oven is divided into a plurality of different spaces through the separation electric push rods and the separation partition plates, a plurality of electric drying plates are controlled by electric control to provide thermal drying environments with different temperatures, the interior is divided into a plurality of temperature areas, and then a feeding liquid pressing cylinder and a feeding supporting plate gradually push the storage fixing frame to ascend at equal intervals.

Description

Drying box for manufacturing ceramic marmite convenient to use and ceramic marmite convenient to use

Technical Field

The invention relates to the technical field of ceramic marmite production, in particular to a drying box for manufacturing a convenient ceramic marmite and the ceramic marmite thereof.

Background

Ceramic is a collective name of pottery and porcelain, the texture of pottery and porcelain is different, the nature is different, the pottery is with higher, the clay that plasticity is stronger is as main raw materials to make, the porcelain is with clay, feldspar and quartz to make, the marmite is a cooking utensil, traditional marmite is by the ceramic product that raw materials such as difficult heat transfer's quartz, feldspar, clay were joined in marriage into, fire through the high temperature, have the air permeability, adsorptivity, heat transfer uniformity, characteristics such as slow heat dissipation, generally utilize the electric frequency stoving case to dry when producing the ceramic marmite now.

But when the conventional marmite is baked, the operation of heating and cooling is needed to be repeated in the electric frequency drying box during heating by feeding and baking at one time, so that the time for baking is prolonged, the waste of energy is increased, and the product is directly contacted with the external environment during discharging, so that deformation and cracking of the product are easily caused by overlarge temperature difference, and the quality of the product is affected.

Disclosure of Invention

The invention provides a drying box for manufacturing a ceramic marmite and the ceramic marmite, which can effectively solve the problems that in the background art, when the ceramic marmite is manufactured by hot baking, the operation of repeatedly heating and cooling the inside of an electric frequency drying box during hot baking is generally carried out through one-time feeding hot baking operation, the time of the hot baking is prolonged, meanwhile, the waste of energy is increased, and a product is directly contacted with the external environment during discharging, so that deformation and cracking of the product are easily caused by overlarge temperature difference, and the quality of the product is affected.

In order to achieve the above purpose, the present invention provides the following technical solutions: the drying box for manufacturing the ceramic marmite comprises a thermal oven, wherein a multistage synchronous component is arranged on one side of the thermal oven;

the multi-stage synchronous assembly comprises a combined clamping groove;

the inner side of the thermal oven is symmetrically provided with combined clamping grooves, a plurality of reset springs are equidistantly arranged on the inner side of the combined clamping grooves, and one end of each reset spring is connected with a reset supporting plate;

the inner side of the hot oven is symmetrically provided with movable supporting grooves, a plurality of feeding hydraulic cylinders are equidistantly arranged at the bottom end of the hot oven, the top ends of the feeding hydraulic cylinders are clamped with feeding supporting plates, and storage fixing frames are arranged at the positions of the movable supporting grooves and the reset supporting plates;

the storage fixing frame is characterized in that a plurality of placing sleeve blocks are equidistantly welded at the top end of the storage fixing frame, a plurality of linkage inclined slots are equidistantly formed in the side ends of the placing sleeve blocks, limit combination holes are symmetrically formed in the top end of the storage fixing frame, a plurality of combination springs are equidistantly arranged at the bottom end of the storage fixing frame, and isolation combination blocks are arranged at the bottom ends of the combination springs;

a plurality of separation electric pushing rods are symmetrically arranged at the side end of the hot oven at equal intervals, and one end of each separation electric pushing rod is connected with a separation baffle;

the top end of the hot oven is fixedly connected with a discharge box, two ends of the discharge box are connected with isolation electric push rods, one end of each isolation electric push rod is connected with an isolation combined plate, two ends of the inner side of the discharge box are respectively connected with a discharge electric slide rail in a clamping manner, and a discharge slide plate is connected between the two discharge electric slide rails through a slide rail seat;

the discharging box is characterized in that one side of the bottom end of the discharging box is clamped with a shaping box, two ends of the inner side of the shaping box are provided with discharging electric sliding rails, one end of each discharging electric sliding rail is connected with a lower sliding box through a sliding rail seat, the inner side of each lower sliding box is provided with a supporting electric push rod, and one end of each supporting electric push rod is clamped with a supporting lower sliding block;

a plurality of linkage circulating grooves are equidistantly arranged at the two ends of the inner side of the shaping box far away from the blanking electric slide rail, a plurality of collecting hydraulic cylinders are equidistantly arranged at the bottom end of the shaping box, the top ends of the collecting hydraulic cylinders are provided with collecting fixing plates, and a plurality of electric drying plates are equidistantly arranged on the inner side of the hot oven.

According to the technical scheme, the inner side of the discharge box is provided with the closed fixed block in an inserting mode, and two ends of the closed fixed block are clamped with the closed electric push rod;

the utility model discloses a hot oven, including motor cabinet, sealed assembly piece, hot oven, shaping case one end, sealed apron, hot oven and shaping case one end all through-connection have the blast pipe, accommodate motor is installed to hot oven one end through the motor cabinet, accommodate motor output shaft joint has the alignment jig, alignment jig one end joint has the linkage electricity push rod, sealed assembly piece is installed to linkage electricity push rod one end.

According to the technical scheme, the reset supporting plate is rotatably arranged on the inner side of the combined clamping groove, the side end of the storage fixing frame is respectively in sliding fit with the side end of the combined clamping groove and the side end of the movable supporting groove, the feeding supporting plate is arranged on the inner side of the hot oven, and the longitudinal section of the placing sleeve joint block is trapezoidal;

the separation combined block is slidably mounted at the bottom end of the storage fixing frame, the separation partition plate is slidably mounted at the inner side of the hot oven, the bottom ends of the separation combined plate are respectively slidably attached to the top end of the hot oven and the top end of the shaping box, and the closed electric push rod is fixedly mounted at the side end of the discharge box.

According to the technical scheme, the supporting lower sliding block is in sliding sleeve joint with the lower sliding box, the collecting fixing plate is in sliding fit with the inner side of the shaping box, and the sealing combination block is in sleeve joint with the side end of the hot oven;

the electric drying oven comprises a heating oven body, a feeding hydraulic cylinder, a separating electric push rod, an isolating electric push rod, a discharging electric slide rail, a closing electric push rod, a discharging electric slide rail, a supporting electric push rod, a collecting hydraulic cylinder, an adjusting motor, a linkage electric push rod and an electric drying plate, wherein the input end of the heating oven body is electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.

According to the technical scheme, a temperature control isolation drying component is arranged on one side of the exhaust pipe;

the temperature-control isolation drying assembly comprises a discharge pipe rack;

two exhaust pipe frame one end is connected with through the adapter, exhaust fan is installed in the embedding of exhaust pipe frame top symmetry, exhaust valve is installed near exhaust fan position department to exhaust pipe frame one end, exhaust pipe frame one end is connected with the heat exchange pipe frame through the adapter, heat exchange pipe frame top one side is connected with the cold air pipe in a run-through manner, exhaust pipe frame one end is close to heat exchange pipe frame position department and cold air pipe one end all installs the control valve, heat exchange pipe frame one end equidistance embedding is installed a plurality of water conservancy diversion fan, heat exchange pipe frame one end welding has the flowing back box, a plurality of reflow hole has been seted up to heat exchange pipe frame one end and flowing back box one end equal distance;

the heat exchange tube rack side end is connected with a sealed closed box in a sleeved mode, a plurality of movable fixing grooves are formed in the inner side of the sealed closed box at equal intervals, a storage support frame is arranged at the position of the corresponding movable fixing groove in the inner side of the sealed closed box, a plurality of storage support frames are fixedly connected with a sealed linkage plate at one end of each storage support frame, temperature monitors are arranged at the side ends of the storage support frames and the sealed linkage plate, a plurality of storage support grooves are formed in the top end of each storage support frame at equal intervals, and a plurality of current-limiting inclined grooves are formed in the two ends of the sealed closed box at equal intervals.

According to the technical scheme, the longitudinal section of the heat exchange pipe rack is -shaped, the longitudinal section of the liquid draining box is L-shaped, the input ends of the exhaust fan, the exhaust valve, the control valve, the diversion fan and the temperature monitor are electrically connected with the output end of the external controller, and the signal output end of the temperature monitor is electrically connected with the signal input end of the external controller.

According to the technical scheme, the side end of the storage support frame is in sliding fit with the movable fixing groove, the side end of the sealing linkage plate is in sleeving combination with the side end of the sealing closed box, and the longitudinal section of the current-limiting chute is parallelogram.

According to the technical scheme, one side of the hot oven is provided with the in-out positioning assembly;

the in-out positioning assembly comprises a bearing support frame;

the utility model discloses a hot oven, including hot oven, support frame, auxiliary hydraulic cylinder, discharge push rod one end, the support frame is installed to hot oven bottom, support frame is installed to support frame bottom, support frame top one side symmetry welding has the removal stop collar, it installs the feeding electricity slide rail to remove stop collar inboard one end, feeding electricity slide rail one end is connected with the centre gripping motor through the slide rail seat, centre gripping motor output shaft joint has the centre gripping push pedal, support frame one end is installed spacing electricity slide rail, the removal box is collected through the slide rail seat to the spacing electricity slide rail top, it blocks the electric push rod inboard to collect and removes the box, it blocks the push rod top to block the electric push rod top, support frame bottom symmetry joint has auxiliary hydraulic cylinder, two auxiliary hydraulic cylinder top joint has the pushing materials fixed plate, discharge push rod is installed to design case one end.

According to the technical scheme, centre gripping push pedal slidable mounting is in removing stop collar side, block the material pushing block and cup joint in collecting the removal box, the material pushing fixed plate cup joint and install in bearing support frame top, feeding electricity slide rail, centre gripping motor, spacing electricity slide rail, block electric push rod, auxiliary hydraulic cylinder and the output electric connection of discharge electricity push rod.

According to the technical scheme, the ceramic marmite is manufactured according to the drying box for manufacturing the ceramic marmite.

Compared with the prior art, the invention has the beneficial effects that:

1. the multistage synchronous assembly is arranged, the hot oven is divided into a plurality of different spaces through the separation electric push rod and the separation baffle plate, and a plurality of electric baking plates are controlled through electric control to provide hot baking environments with different temperatures, so that the interior is divided into a plurality of temperature areas, the storage fixing frame is gradually pushed to ascend by the feeding hydraulic cylinder and the feeding supporting plate, the situation that the marmite deforms and cracks due to larger temperature difference when the marmite is heated is avoided through gradual heating and ascending, the hot oven does not need repeated heating and cooling operations, the waste of resources is reduced, the production speed of products is accelerated, the hot oven and the shaping box environment are isolated through the separation combination plate and the discharge box, the mutual influence of hot baking and cooling shaping is avoided, meanwhile, the outside cold air is extracted for heat dissipation, so that the marmite is uniformly cooled, the temperature of the marmite is reduced at the same time, the production heat preservation time of the marmite is prolonged, the production and the quality of the marmite can be better shaped during production, and the product quality is ensured;

the storage fixing frames placed with the marmite are supported and fixed through the reset supporting plates, so that synchronous feeding can be realized during feeding, independent separation and fixation can be realized during hot baking, influences among a plurality of storage fixing frames are reduced, the marmite is supported by the placement sleeve joint blocks, air is introduced into the marmite through the linkage chute, the inside and the outside of the marmite are heated simultaneously, the occurrence of uneven deformation caused by heating is avoided, and the feeding is realized through the bottom end, so that a hot oven is not required to be completely opened during feeding and discharging of the marmite, heat dissipation of the marmite is reduced, and the stability of internal hot baking temperature is ensured;

the storage fixing frames are driven to slide downwards along the shaping box through the blanking electric sliding rail, the sliding box, the supporting electric push rod and the supporting lower sliding block, the storage fixing frames after hot baking are placed inside the shaping box one by one, external air is pumped through the exhaust pipe and the linkage circulating groove and the internal air is driven to be discharged from bottom to top, meanwhile, the marmite moves downwards gradually, the cooling time is ensured through uniform cooling and uniform downward movement, and the shaping effect is ensured.

2. The temperature control isolation drying assembly is arranged, heat at the positions of the hot oven and the shaping box is led into the sealed box through the discharge pipe rack and the heat exchange pipe rack, cold air is controlled to be mixed with hot steam through the cold air pipe and the control valve, so that the temperature inside the sealed box is regulated, the temperature inside the sealed box is stable, the heat is partially recycled, the waste of resources is reduced, the air flow speed is accelerated through the guide fan, the hot steam is directly discharged through the exhaust fan, and the temperature stability is further ensured through the mutual cooperation of a plurality of exhaust and air inlet when the heat exchange temperature is controlled;

through the stable heat supply to inside, again by the restriction air current flow of restriction chute to through the sealed close case to the marmite fixed seal, make the marmite carry out the drying in the shade in no light, windless and homothermal environment and handle, thereby accelerate the speed that the marmite was dried in the shade, and avoid the marmite to appear the crack, thereby accelerated the speed of product production, guaranteed the quality of product.

3. The device is provided with an in-out positioning assembly, a clamping motor and a clamping push plate are driven by a feeding electric sliding rail to push a storage fixing frame, a blocking push rod is driven by a blocking electric push rod to slide along a collecting moving box, the collecting moving box is driven by a limiting electric sliding rail and the blocking push rod to push the storage fixing frame to move, and a plurality of groups of pushing materials are used for avoiding the direct contact of workers with a hot oven, reducing the labor intensity of the workers and avoiding the occurrence of the condition that the workers are burnt at high temperature;

the discharging block is driven to push the storage fixing frame through the discharging electric push rod, the auxiliary hydraulic cylinder drives the pushing fixing plate to jack up the storage fixing frame, so that workers can conveniently take the storage fixing frame during discharging, workers are not required to extract the storage fixing frame, and the labor intensity of the workers is reduced.

In summary, through multistage synchronization assembly and accuse temperature isolation drying module mutually support for can carry out recycle to the heat when hot steam discharges, and can carry out the stoving processing to the marmite of multiple stage simultaneously when drying, make the product production environment more controllable, guaranteed the quality of product, guaranteed the wholeness of production and the speed of production simultaneously, the waste of the energy when having reduced the production, mutually support through multistage synchronization assembly and business turn over locating component, make can synchronous linkage operation when feeding and discharging, alleviate staff's operation degree of difficulty, make the production more automatic, guaranteed the speed and the efficiency of production, mutually support through multiple components, guaranteed the product quality and the speed of product production of producing.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of a multi-stage synchronization assembly of the present invention;

FIG. 3 is a schematic view of the mounting structure of the exhaust pipe of the present invention;

FIG. 4 is a schematic view of the mounting structure of the discharge slide of the present invention;

FIG. 5 is a schematic view of the installation structure of the linkage circulation tank of the present invention;

FIG. 6 is a schematic view of the installation structure of the combined clamping groove of the invention;

FIG. 7 is a schematic view of the mounting structure of the loading support plate of the present invention;

FIG. 8 is a schematic view of a temperature controlled isolation drying assembly according to the present invention;

FIG. 9 is a schematic view of the mounting structure of the liquid discharge cartridge of the present invention;

FIG. 10 is a schematic view of the mounting structure of the heat exchange tube rack of the present invention;

FIG. 11 is a schematic view of the structure of the in-out positioning assembly of the present invention;

FIG. 12 is a schematic view of the mounting structure of the ejector retainer plate of the present invention;

reference numerals in the drawings: 1. a thermal oven;

2. a multi-stage synchronization component; 201. a combined clamping groove; 202. a return spring; 203. resetting the supporting plate; 204. a moving support groove; 205. feeding a hydraulic cylinder; 206. a feeding support plate; 207. a storage fixing frame; 208. placing a sleeve joint block; 209. a linkage chute; 210. limiting combined holes; 211. a combination spring; 212. isolating the combined blocks; 213. separating the electric push rod; 214. a separation partition; 215. a discharge box; 216. isolating the electrical push rod; 217. isolating the composite board; 218. discharging electric slide rail; 219. a discharging slide plate; 220. closing the fixed block; 221. closing the electric push rod; 222. a shaping box; 223. discharging an electric slide rail; 224. a slide-down box; 225. supporting an electric push rod; 226. supporting a lower slide block; 227. a linkage circulation groove; 228. collecting a hydraulic cylinder; 229. collecting a fixed plate; 230. adjusting a motor; 231. an adjusting frame; 232. linkage electric push rod; 233. sealing the combined block; 234. sealing the cover plate; 235. an exhaust pipe; 236. an electric baking plate;

3. a temperature-controlled isolation drying assembly; 301. a discharge pipe rack; 302. an exhaust fan; 303. an exhaust valve; 304. a heat exchange pipe rack; 305. a cold air pipe; 306. a control valve; 307. a diversion fan; 308. a liquid discharge box; 309. a reflow hole; 310. sealing the closed box; 311. a movable fixing groove; 312. storing the support frame; 313. sealing the linkage plate; 314. a temperature monitor; 315. a storage support groove; 316. a flow restricting chute;

4. an in-out positioning assembly; 401. a bearing support frame; 402. moving the limiting sleeve; 403. feeding electric slide rail; 404. clamping the motor; 405. clamping the push plate; 406. limiting the electric slide rail; 407. collecting the mobile box; 408. blocking the electric push rod; 409. blocking the pusher block; 410. an auxiliary hydraulic cylinder; 411. pushing a material fixing plate; 412. discharging the electric push rod; 413. and discharging the block.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-12, the invention provides a technical scheme, namely a drying box for manufacturing a ceramic marmite, which comprises a thermal oven 1, wherein a multi-stage synchronous assembly 2 is arranged on one side of the thermal oven 1;

the multi-stage synchronous assembly 2 comprises a combined clamping groove 201, a return spring 202, a return supporting plate 203, a movable supporting groove 204, a feeding hydraulic cylinder 205, a feeding supporting plate 206, a storage fixing frame 207, a placing sleeve joint block 208, a linkage chute 209, a limiting combined hole 210, a combined spring 211, an isolation combined block 212, a separation electric push rod 213, a separation partition 214, a discharge box 215, an isolation electric push rod 216, an isolation combined plate 217, a discharge electric slide rail 218, a discharge slide plate 219, a closing fixed block 220, a closing electric push rod 221, a shaping box 222, a discharging electric slide rail 223, a lower slide box 224, a supporting electric push rod 225, a supporting lower slide block 226, a linkage circulating groove 227, a collecting hydraulic cylinder 228, a collecting fixed plate 229, an adjusting motor 230, an adjusting frame 231, a linkage electric push rod 232, a sealing combined block 233, a sealing cover plate 234, an exhaust pipe 235 and an electric drying plate 236;

the inner side of the thermal oven 1 is symmetrically provided with a combined clamping groove 201, the inner side of the combined clamping groove 201 is equidistantly provided with a plurality of reset springs 202, one end of each reset spring 202 is fixedly connected with a reset supporting plate 203, the reset supporting plates 203 are rotatably arranged on the inner side of the combined clamping groove 201, so that the thermal oven can be effectively operated and fixed in limit linkage, the inner side of the thermal oven 1 is symmetrically provided with a movable supporting groove 204 away from the position of the combined clamping groove 201, the bottom end of the thermal oven 1 is equidistantly provided with a plurality of feeding hydraulic cylinders 205, the top ends of the feeding hydraulic cylinders 205 are clamped with a feeding supporting plate 206, the feeding supporting plate 206 is arranged on the inner side of the thermal oven 1, the raw material positions can be positioned when being pushed by feeding, the situation of deviation and separation is avoided, the positions of the movable supporting groove 204 and the reset supporting plate 203 are provided with a storage fixing frame 207, the side ends of the storage fixing frame 207 are respectively in sliding fit with the side ends of the combined clamping groove 201 and the side ends of the movable supporting groove 204, so that the storage fixing frame 207 can be effectively positioned and clamped during lifting, a plurality of placing sleeve blocks 208 are equidistantly welded at the top end of the storage fixing frame 207, the longitudinal section of each placing sleeve block 208 is trapezoid, so that the support clamping can be effectively supported and clamped during fixing and limiting of a marmite, a plurality of linkage inclined grooves 209 are equidistantly formed at the side ends of the placing sleeve blocks 208, limiting combination holes 210 are symmetrically formed at the top end of the storage fixing frame 207, a plurality of combined springs 211 are equidistantly arranged at the positions of the bottom end of the storage fixing frame 207 corresponding to the limiting combination holes 210, an isolating combination block 212 is arranged at the bottom end of the combined springs 211, the isolating combination block 212 is slidably arranged at the bottom end of the storage fixing frame 207, so that the positioning operation can be effectively performed during fixing and limiting of a plurality of groups of storage fixing frames 207, a plurality of separating electric push rods 213 are equidistantly and symmetrically arranged at the side ends of the hot oven 1, one end of each of the two separation electric push rods 213 is fixedly connected with a separation baffle 214, and the separation baffle 214 is slidably arranged on the inner side of the hot oven 1, so that effective separation operation can be realized when hot baking at different temperatures is performed;

the top end of the thermal oven 1 is fixedly connected with a discharge box 215, two ends of the discharge box 215 are fixedly connected with an isolation electric push rod 216, one end of the isolation electric push rod 216 is fixedly connected with an isolation composition board 217, the bottom ends of the two isolation composition boards 217 are respectively in sliding fit with the top end of the thermal oven 1 and the top end of a shaping box 222, so that effective linkage treatment can be carried out when the thermal oven 1, the shaping box 222 and the discharge box 215 are in isolation operation, two ends of the inner side of the discharge box 215 are clamped with discharge electric slide rails 218, two discharge electric slide rails 218 are connected with a discharge slide plate 219 through a slide rail seat, a closed fixed block 220 is inserted and installed on the inner side of the discharge box 215, two ends of the closed fixed block 220 are clamped with closed electric push rods 221, and the closed electric push rods 221 are fixedly installed on the side ends of the discharge box 215, so that effective positioning and sealing can be carried out when the closed fixed block 220 is lifted and closed;

the discharging box 215 bottom side is clamped with the shaping box 222, the two ends of the inner side of the shaping box 222 are provided with the discharging electric slide rail 223, one end of the discharging electric slide rail 223 is connected with the lower slide box 224 through a slide rail seat, the inner side of the lower slide box 224 is provided with the supporting electric push rod 225, one end of the supporting electric push rod 225 is clamped with the supporting lower slide block 226, the supporting lower slide block 226 and the lower slide box 224 are in sliding sleeve joint, so that the sealing can be effectively closed when in lifting linkage, the two ends of the inner side of the shaping box 222 far away from the discharging electric slide rail 223 are equidistantly provided with the plurality of linkage circulating grooves 227, the bottom end of the shaping box 222 is equidistantly provided with the plurality of collecting hydraulic cylinders 228, the top ends of the plurality of collecting hydraulic cylinders 228 are provided with the collecting fixing plates 229, and the collecting fixing plates 229 are slidably arranged on the inner side of the shaping box 222, so that the movable support can be effectively carried when the collecting and placing;

one end of the hot oven 1 is provided with an adjusting motor 230 through a motor base, an output shaft of the adjusting motor 230 is connected with an adjusting frame 231 in a clamping mode, one end of the adjusting frame 231 is connected with a linkage electric push rod 232 in a clamping mode, one end of the linkage electric push rod 232 is provided with a sealing combination block 233, the sealing combination block 233 is sleeved and arranged at the side end of the hot oven 1, the hot oven 1 can be sealed and fixed after feeding, one end of a shaping box 222 is hinged with a sealing cover plate 234, one ends of the hot oven 1 and the shaping box 222 are all connected with an exhaust pipe 235 in a penetrating mode, and a plurality of electric drying plates 236 are arranged on the inner side of the hot oven 1 in an equidistant mode;

the input ends of the thermal oven 1, the feeding hydraulic cylinder 205, the separating electric push rod 213, the isolating electric push rod 216, the discharging electric slide rail 218, the closing electric push rod 221, the discharging electric slide rail 223, the supporting electric push rod 225, the collecting hydraulic cylinder 228, the adjusting motor 230, the linkage electric push rod 232 and the electric drying plate 236 are electrically connected with the output end of the external controller, and the input end of the external controller is electrically connected with the output end of the external power supply.

One side of the exhaust pipe 235 is provided with a temperature control isolation drying component 3;

the temperature-control isolation drying assembly 3 comprises an exhaust pipe rack 301, an exhaust fan 302, an exhaust valve 303, a heat exchange pipe rack 304, a cold air pipe 305, a control valve 306, a diversion fan 307, a liquid discharging box 308, a backflow hole 309, a sealed closed box 310, a movable fixing groove 311, a storage supporting frame 312, a sealed linkage plate 313, a temperature monitor 314, a storage supporting groove 315 and a flow limiting chute 316;

the exhaust pipe racks 301 are connected to one ends of the two exhaust pipes 235 through the adapter, the exhaust fans 302 are symmetrically embedded and installed at the top ends of the exhaust pipe racks 301, the exhaust valves 303 are installed at the positions, close to the exhaust fans 302, of one ends of the exhaust pipe racks 301, the heat exchange pipe racks 304 are connected to one ends of the exhaust pipe racks 301 through the adapter, the longitudinal sections of the heat exchange pipe racks 304 are -shaped, so that heat dissipation and heat exchange can be carried out on different positions during clamping and combining, cold air pipes 305 are connected to one sides of the top ends of the heat exchange pipe racks 304 in a penetrating mode, control valves 306 are installed at the positions, close to the heat exchange pipe racks 304, of one ends of the exhaust pipe racks 301 and one ends of the cold air pipes 305, a plurality of diversion fans 307 are installed at the same intervals in an embedding mode, liquid discharge boxes 308 are welded at one ends of the heat exchange pipe racks 304, the longitudinal sections of the liquid discharge boxes 308 are L-shaped, and a plurality of backflow holes 309 are formed in equal distances between one ends of the heat exchange pipe racks 304 and one ends of the liquid discharge boxes 308;

the side ends of the heat exchange tube frames 304 are sleeved with the sealed closed boxes 310, the inner sides of the sealed closed boxes 310 are provided with a plurality of movable fixed slots 311 at equal intervals, the positions of the inner sides of the sealed closed boxes 310 corresponding to the movable fixed slots 311 are provided with the storage support frames 312, the side ends of the storage support frames 312 are in sliding fit with the movable fixed slots 311, so that effective positioning can be realized during movement, the raw materials are prevented from being collided and damaged due to position deviation, one ends of the plurality of storage support frames 312 are fixedly connected with the sealed linkage plates 313, the side ends of the sealed linkage plates 313 are sleeved with the side ends of the sealed closed boxes 310, the stability of internal sealed closure is ensured, the side ends of the storage support frames 312 and the sealed linkage plates 313 are provided with temperature monitors 314, the top ends of the storage support frames 312 are provided with a plurality of storage support slots 315 at equal intervals, the two ends of the sealed closed boxes 310 are provided with a plurality of flow limiting chute 316 at equal intervals, and the longitudinal sections of the flow limiting chute 316 are in a parallelogram shape, so that protection can be effectively blocked during air inlet, and the condition that the air flow is prevented from being blown to cause the drying speed of a earthen pot to be excessively fast, and cracks are avoided;

the input ends of the exhaust fan 302, the exhaust valve 303, the control valve 306, the diversion fan 307 and the temperature monitor 314 are all electrically connected with the output end of the external controller, and the signal output end of the temperature monitor 314 is electrically connected with the signal input end of the external controller.

One side of the thermal oven 1 is provided with an in-out positioning component 4;

the in-out positioning assembly 4 comprises a bearing support frame 401, a movable limiting sleeve 402, a feeding electric slide rail 403, a clamping motor 404, a clamping push plate 405, a limiting electric slide rail 406, a collecting movable box 407, a blocking electric push rod 408, a blocking push rod 409, an auxiliary hydraulic cylinder 410, a push material fixing plate 411, a discharging electric push rod 412 and a discharging block 413;

the bearing support 401 is installed to hot oven 1 bottom, bearing support 401 top one side symmetry welding has removal stop collar 402, it installs feeding electricity slide rail 403 to remove stop collar 402 inboard one end, feeding electricity slide rail 403 one end is connected with clamp motor 404 through the slide rail seat, clamp motor 404 output shaft joint has clamp push pedal 405, clamp push pedal 405 slidable mounting is in removal stop collar 402 side for can effectually support spacingly when feeding, the stability of feeding has been guaranteed, bearing support 401 one end installs spacing electricity slide rail 406, the collection removal box 407 is installed through the slide rail seat in spacing electricity slide rail 406 top, it installs the stop electricity push rod 408 to collect removal box 407 inboard, stop electricity push rod 408 top is installed and is blockked the ejector pad 409, it cup joints in collecting removal box 407 to block the ejector pad 409 to slide, the stability of guaranteeing the ejector pad joint, avoid the combination to break away from influencing the condition of feeding to appear, bearing support 401 bottom symmetry joint has auxiliary hydraulic cylinder 410, two auxiliary hydraulic cylinder 410 top joint has ejector pad 411, ejector pad 411 cup joint is installed in bearing support 401 top, the stability of having guaranteed the ejection of support, discharge support has been guaranteed to have one end of the discharge support, electric push rod 412 is installed through the slide rail seat, electric push rod 408 is stopped electrically, electric rod 408 is stopped electrically to be connected with outer end of the electric push rod 408, the outer end of the discharge electricity push rod 408 is controlled by the electric rod 408.

One of the ceramic marmite is a product manufactured by a drying box for manufacturing the ceramic marmite according to convenience.

The working principle and the using flow of the invention are as follows: the ceramic marmite is produced by using a drying box, a worker places a storage fixing frame 207 on which the marmite after being dried in the shade on the top end of a bearing support frame 401, a clamping motor 404 drives a clamping push plate 405 to rotate to the position of the bearing support frame 401, a feeding electric slide rail 403 drives the clamping motor 404 and the clamping push plate 405 to push the storage fixing frame 207 to move towards the position of a hot oven 1, a blocking electric push rod 408 drives a blocking pushing block 409 to ascend along a collecting moving box 407, and a limiting electric slide rail 406 drives the collecting moving box 407 and the blocking pushing block 409 to push the storage fixing frame 207 to enter the inner side of the hot oven 1, so that raw materials can be accurately fed into the inner side of the hot oven 1 through multistage operation during feeding, feeding is realized, manual operation is reduced during feeding, and personnel are reduced to be contacted with the hot oven 1, so that burn is avoided, and feeding can be continuously stabilized during feeding;

the storage fixing frame 207 is placed inside the thermal oven 1, the feeding support plate 206 is driven by the feeding hydraulic cylinder 205 to push the storage fixing frame 207 to ascend, the reset support plate 203 is pushed to rotate along the combined clamping groove 201 when the storage fixing frame 207 ascends, meanwhile, the storage fixing frame 207 is limited and clamped through the movable support groove 204, the position of the storage fixing frame 207 is prevented from being deviated, after the storage fixing frame 207 is pushed to ascend, the reset support plate 203 is driven by the reset spring 202 to rotate and reset, then the feeding hydraulic cylinder 205 is driven by the feeding hydraulic cylinder 205 to descend, the storage fixing frame 207 is placed on the top end of the reset support plate 203, thus finishing feeding, after the placement is finished, the feeding hydraulic cylinder 205 drives the feeding support plate 206 to descend and reset, and the storage fixing frame 207 is pushed to the inner side of the thermal oven 1 again through the clamping push plate 405 and the blocking push plate 409, thus continuing feeding, the combined spring 211 at the bottom end of the storage fixing frame 207 is pushed to be embedded into the inner side of the limiting combined hole 210, thus limiting support is carried between the storage fixing frames 207, the combined plate 217 is driven by the electric push rod 216 to be embedded into the inner side of the thermal oven 1, thus the thermal oven 207 is separated into a plurality of groups of thermal fixing frames, and the thermal oven 1 is separated from the thermal oven 1, and the thermal oven is separated from the thermal oven is not separated, and the thermal oven is controlled by the thermal oven 1, and the thermal oven is controlled to be heated to the thermal oven temperature is controlled, and the thermal oven temperature is controlled;

after the top end marmite is heated, a feeding hydraulic cylinder 205 drives a feeding support plate 206 to continuously push a storage fixing frame 207 to feed, an isolation push rod 216 drives an isolation composition plate 217 to be pulled out of a setting box 215, when the storage fixing frame 207 is fed, the storage fixing frame 207 at the top end is pushed into the inner side of the setting box 215, a closing electric push rod 221 drives a closing fixing block 220 to ascend, a discharging slide rail 218 drives a discharging slide plate 219 to push the storage fixing frame 207 to move to the middle part of the setting box 215 along the discharging box 215, a discharging electric slide rail 223 drives a lower slide box 224 to ascend to the top part of the inner side of the setting box 222, a supporting electric push rod 225 drives a supporting lower slide block 226 to push out along the lower slide box 224, so that the discharged storage fixing frame 207 is fixedly limited, the lower slide box 224 and the supporting lower slide block 226 drive the storage fixing frame 207 to descend along the setting box 222, the storage fixing frame 207 is driven to slide downwards through the discharging electric slide rail 223, a collecting hydraulic cylinder 228 drives a collecting fixing plate 229 to ascend to the position of the storage fixing frame 207, and accordingly the inner side of the storage fixing frame 207 is collected and fixed, after the storage fixing frame 207 is completely discharged, the isolation push rod 225 drives the supporting lower slide plate 226 to push rod 226 to push the supporting the lower slide plate 226 along the lower slide box 224, the setting box 224 is sealed by the sealing box 222, and the sealing box 1 is prevented from being mutually influenced by sealing and sealed, and the production box is sealed and sealed by the sealing box 215;

when the storage fixing frame 207 is discharged, the collection fixing plate 229 is driven to ascend by the collection hydraulic cylinder 228 to limit the storage fixing frame 207, the lower slide box 224 and the lower support slide block 226 are driven by the discharging electric slide rail 223 to drive the storage fixing frame 207 to be positioned, supported and fed so that continuous discharging can be realized when the operation is fixed, the air inside the shaping box 222 is exhausted through the exhaust pipe 235, the air flows along the bottom end and circulates in a linkage way along the linkage circulating groove 227, the temperature inside the shaping box is gradually reduced from top to bottom, the cooling speed is reduced, the shaping quality of the marmite is ensured, after the filling inside the thermal oven 1 is finished, the adjusting frame 231 is driven to rotate by the adjusting motor 230, the sealing combination block 233 is driven to be movably clamped to the side end of the thermal oven 1 by the linkage electric push rod 232, so that the thermal oven 1 is sealed inside, the internal environment can be isolated in the process of heating and continuous operation can be realized in the process of continuous feeding;

after the marmite on the storage fixing frame 207 is cooled, the discharge electric push rod 412 drives the discharge block 413 to push the storage fixing frame 207 to move along the shaping box 222, so that the storage fixing frame 207 is discharged along the sealing cover plate 234, the storage fixing frame 207 is moved to the top end of the bearing support frame 401, and the auxiliary hydraulic cylinder 410 drives the pushing fixing plate 411 to ascend, so that the storage fixing frame 207 is pushed to ascend, and the quick operation can be realized when the material is required to be taken;

during the heating and baking process, the earthen pot is jacked up by the placement sleeve joint block 208, and hot air is discharged into the inner side of the placement sleeve joint block 208 through the linkage chute 209, so that the whole and comprehensive heating of the earthen pot can be ensured during the heating and baking process of the earthen pot, and the heating and baking effect is ensured;

at the position of the exhaust pipe rack 301 along the exhaust pipe 235, the hot steam enters the position of the heat exchange pipe rack 304 along the exhaust pipe 235 and the exhaust pipe rack 301, the hot steam is driven to flow along the heat exchange pipe rack 304 by the guide fan 307 at the position of the heat exchange pipe rack 304, so that heat is guided into the inner side of the sealed closed box 310, the temperature inside the sealed closed box is monitored by the temperature monitor 314, when the internal temperature is too high, cold air is injected into the inner side of the sealed closed box through accelerating the flow rate of the guide fan 307 and opening the cold air pipe 305 by the control valve 306, so that the internal temperature is controlled, when the internal temperature is too high, the exhaust pipe rack 301 is closed by the control valve 306, the exhaust pipe rack 301 is opened by the exhaust valve 303, the hot steam is driven to be exhausted by the exhaust fan 302, so that the internal drying temperature of the sealed closed box 310 is ensured, and when the temperature is reduced, the condensed water in the hot steam is discharged into the inner side of the liquid discharging box 308 along the heat exchange pipe rack 304, so that the liquid discharging operation is realized;

the storage support frame 312 is clamped and fixed to the side end of the sealing linkage plate 313, the storage fixing frame 207 is sleeved on the inner side of the storage support groove 315, the storage support frame 312 is inserted into the inner side of the movable fixing groove 311 through the sealing linkage plate 313, so that semi-finished products of the marmite are placed on the inner side of the sealing closed box 310, the damp air dried in the shade is discharged along the current limiting chute 316, and the air inlet and the air outlet are blocked through the current limiting chute 316, so that the situation that the water loss on the surface of the marmite is too fast and the cracking is caused due to direct blowing of the air is avoided.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a stoving case for ceramic marmite preparation of convenience, includes hot oven (1), its characterized in that: a multistage synchronous component (2) is arranged on one side of the thermal oven (1);

the multi-stage synchronous assembly (2) comprises a combined clamping groove (201);

the inner side of the thermal oven (1) is symmetrically provided with combined clamping grooves (201), a plurality of reset springs (202) are equidistantly arranged on the inner side of the combined clamping grooves (201), and one end of each reset spring (202) is connected with a reset supporting plate (203);

the inner side of the thermal oven (1) is symmetrically provided with movable supporting grooves (204), a plurality of feeding hydraulic cylinders (205) are equidistantly arranged at the bottom end of the thermal oven (1), the top ends of the feeding hydraulic cylinders (205) are connected with a feeding supporting plate (206) in a clamping mode, and storage fixing frames (207) are placed at the positions of the movable supporting grooves (204) and the reset supporting plate (203);

the reset supporting plate (203) is rotatably arranged on the inner side of the combined clamping groove (201), and the side end of the storage fixing frame (207) is respectively in sliding fit with the side end of the combined clamping groove (201) and the side end of the movable supporting groove (204);

a plurality of placing sleeve blocks (208) are equidistantly welded at the top end of the storage fixing frame (207), a plurality of linkage chute (209) are equidistantly arranged at the side end of each placing sleeve block (208), limit combination holes (210) are symmetrically formed at the top end of the storage fixing frame (207), a plurality of combination springs (211) are equidistantly arranged at the bottom end of the storage fixing frame (207), and isolation combination blocks (212) are arranged at the bottom ends of the combination springs (211);

a plurality of separation electric push rods (213) are symmetrically arranged at the side end of the hot oven (1) at equal intervals, and one end of each separation electric push rod (213) is connected with a separation baffle plate (214);

the hot oven is characterized in that a discharge box (215) is fixedly connected to the top end of the hot oven (1), two ends of the discharge box (215) are connected with isolation electric push rods (216), one end of each isolation electric push rod (216) is connected with an isolation combined plate (217), two ends of the inner side of the discharge box (215) are respectively connected with a discharge electric slide rail (218) in a clamping mode, and a discharge slide plate (219) is connected between the two discharge electric slide rails (218) through a slide rail seat;

a shaping box (222) is clamped at one side of the bottom end of the discharge box (215), a discharging electric slide rail (223) is arranged at two ends of the inner side of the shaping box (222), one end of the discharging electric slide rail (223) is connected with a sliding box (224) through a slide rail seat, a supporting electric push rod (225) is arranged at the inner side of the sliding box (224), and a supporting lower slide block (226) is clamped at one end of the supporting electric push rod (225);

the separation partition plates (214) are slidably arranged on the inner sides of the hot oven (1), and the bottom ends of the two separation composition plates (217) are respectively slidably attached to the top end of the hot oven (1) and the top end of the shaping box (222);

a plurality of linkage circulation grooves (227) are formed in the inner side of the shaping box (222) far away from the two ends of the blanking electric sliding rail (223) at equal intervals, a plurality of collecting hydraulic cylinders (228) are arranged in the bottom end of the shaping box (222) at equal intervals, collecting fixing plates (229) are arranged at the top ends of the collecting hydraulic cylinders (228), and a plurality of electric drying plates (236) are arranged in the inner side of the hot oven (1) at equal intervals.

2. The drying box for manufacturing the ceramic earthenware pot convenient to use according to claim 1, wherein a closing fixing block (220) is inserted and installed inside the discharging box (215), and two ends of the closing fixing block (220) are clamped with closing electric push rods (221);

the utility model discloses a hot oven, including hot oven (1), motor cabinet, sealed package block (233) are installed to hot oven (1) one end, accommodate motor (230) output shaft joint has regulating frame (231), accommodate frame (231) one end joint has linkage electric push rod (232), sealed package block (233) are installed to linkage electric push rod (232) one end, design case (222) one end articulates has sealed apron (234), hot oven (1) and design case (222) one end all through-connection have blast pipe (235).

3. The drying box for manufacturing the ceramic marmite convenient to use according to claim 2, wherein the feeding supporting plate (206) is placed on the inner side of the hot oven (1), and the longitudinal section of the placing sleeve joint block (208) is trapezoid;

the isolation combined block (212) is slidably arranged at the bottom end of the storage fixing frame (207), and the closed electric push rod (221) is fixedly arranged at the side end of the discharge box (215).

4. The drying box for manufacturing the ceramic earthenware pot according to claim 2, wherein the supporting lower sliding block (226) and the lower sliding box (224) are in sliding sleeve joint, the collecting fixing plate (229) is in sliding mounting on the inner side of the shaping box (222), and the sealing combination block (233) is in sleeve joint mounting on the side end of the hot oven (1);

the automatic feeding device comprises a thermal oven (1), a feeding hydraulic cylinder (205), a separating electric push rod (213), an isolating electric push rod (216), a discharging electric slide rail (218), a closing electric push rod (221), a discharging electric slide rail (223), a supporting electric push rod (225), a collecting hydraulic cylinder (228), an adjusting motor (230) and an electric drying plate (236), wherein the input ends of the adjusting motor (230) are in linkage with the output end of an external controller, and the input end of the external controller is in electric connection with the output end of an external power supply.

5. The drying box for manufacturing the convenient ceramic marmite according to claim 2, wherein a temperature control isolation drying assembly (3) is arranged on one side of the exhaust pipe (235);

the temperature-control isolation drying assembly (3) comprises a discharge pipe rack (301);

two exhaust pipe (235) one end is connected with exhaust pipe support (301) through the adapter, exhaust fan (302) are installed in the embedding of exhaust pipe support (301) top symmetry, exhaust valve (303) are installed in exhaust pipe support (301) one end position department that is close to exhaust fan (302), exhaust pipe support (301) one end is connected with heat exchange pipe support (304) through the adapter, heat exchange pipe support (304) top one side through connection has cold air pipe (305), control valve (306) are all installed in exhaust pipe support (301) one end position department that is close to heat exchange pipe support (304) and cold air pipe (305) one end, a plurality of guide fan (307) are installed in heat exchange pipe support (304) one end equidistance embedding, heat exchange pipe support (304) one end welding has flowing back box (308), a plurality of backflow hole (309) have been offered to equal distance in heat exchange pipe support (304) one end and flowing back box (308) one end.

The heat exchange tube rack (304) side end suit has sealed closed case (310), a plurality of removal fixed slot (311) have been seted up to sealed closed case (310) inboard equidistance, sealed closed case (310) inboard corresponds removal fixed slot (311) position department and installs deposits support frame (312), a plurality of deposit support frame (312) one end fixedly connected with sealed linkage board (313), temperature monitor (314) are installed to deposit support frame (312) and sealed linkage board (313) side, a plurality of deposit support slot (315) have been seted up to deposit support frame (312) top equidistance, a plurality of current limiting chute (316) have been seted up to sealed closed case (310) both ends equidistance.

6. The drying box for manufacturing the ceramic marmite with convenience according to claim 5, wherein the heat exchange tube rack (304) has a -shaped longitudinal section, the liquid draining box (308) has an L-shaped longitudinal section, and input ends of the exhaust fan (302), the exhaust valve (303), the control valve (306), the diversion fan (307) and the temperature monitor (314) are electrically connected with output ends of an external controller, and a signal output end of the temperature monitor (314) is electrically connected with a signal input end of the external controller.

7. The drying box for manufacturing the ceramic earthenware pot with convenience according to claim 5, wherein the side end of the storage support frame (312) is in sliding fit with the movable fixing groove (311), the side end of the sealing linkage plate (313) is in sleeving combination with the side end of the sealing closed box (310), and the longitudinal section of the flow limiting chute (316) is in a parallelogram shape.

8. The drying box for manufacturing the convenient ceramic marmite, which is characterized in that one side of the hot oven (1) is provided with an in-out positioning component (4);

the in-out positioning assembly (4) comprises a bearing support frame (401);

the utility model discloses a thermal oven, including heat oven (1), including heat oven, support frame (1), support frame (401) top one side symmetry welding has removal stop collar (402), feed electricity slide rail (403) are installed to removal stop collar (402) inboard one end, feed electricity slide rail (403) one end is connected with centre gripping motor (404) through the slide rail seat, centre gripping motor (404) output shaft joint has centre gripping push pedal (405), support frame (401) one end is installed spacing electricity slide rail (406), spacing electricity slide rail (406) top is installed through the slide rail seat and is collected removal box (407), it blocks electric push rod (408) to collect the inboard installation of removal box (407), it blocks push rod (409) to block electric push rod (408) top, support frame (401) bottom symmetry joint has supplementary pneumatic cylinder (410), two supplementary pneumatic cylinder (410) top joint has push away material fixed plate (411), discharge electricity push rod (412) are installed to shaping case (222) one end, discharge electricity push rod (412) one end is installed and is discharged piece (413).

9. The drying box for manufacturing the ceramic marmite with convenience according to claim 8, wherein the clamping pushing plate (405) is slidably mounted at the side end of the movable limiting sleeve (402), the blocking pushing block (409) is slidably sleeved on the collecting movable box (407), the pushing fixing plate (411) is sleeved on the top end of the bearing support frame (401), and the input ends of the feeding electric sliding rail (403), the clamping motor (404), the limiting electric sliding rail (406), the blocking electric pushing rod (408), the auxiliary hydraulic cylinder (410) and the discharging electric pushing rod (412) are electrically connected with the output end of the external controller.

10. A ceramic marmite characterized by a facilitated ceramic marmite-making oven-dried box-made product according to any one of claims 1-9.