CN110982567A - Honeycomb briquette preparation equipment - Google Patents
Honeycomb briquette preparation equipment Download PDFInfo
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- CN110982567A CN110982567A CN201911383685.1A CN201911383685A CN110982567A CN 110982567 A CN110982567 A CN 110982567A CN 201911383685 A CN201911383685 A CN 201911383685A CN 110982567 A CN110982567 A CN 110982567A
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10L—FUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
- C10L5/00—Solid fuels
- C10L5/02—Solid fuels such as briquettes consisting mainly of carbonaceous materials of mineral or non-mineral origin
- C10L5/34—Other details of the shaped fuels, e.g. briquettes
- C10L5/36—Shape
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10L—FUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
- C10L5/00—Solid fuels
- C10L5/02—Solid fuels such as briquettes consisting mainly of carbonaceous materials of mineral or non-mineral origin
- C10L5/06—Methods of shaping, e.g. pelletizing or briquetting
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Abstract
The invention discloses honeycomb briquette preparation equipment, which comprises a main machine body, wherein a forming cavity is arranged in the main machine body, a transmission cavity is arranged on the front side of the forming cavity, a first transmission shaft extending forwards and backwards is rotatably arranged between the forming cavity and the transmission cavity, a transport disc is fixedly arranged on the first transmission shaft in the forming cavity, four forming modules are uniformly distributed on the transport disc at equal angles in the circumferential direction, and each forming module consists of two forming holes; according to the invention, the steel wire rope I can be pulled through the meshing of the sector gear II and the rack II to compact the honeycomb briquette raw material, and the dried honeycomb briquette can be quantitatively stacked through the meshing of the special-shaped cylindrical gear II and the rack III, so that the automatic shaping and drying can be realized, the dried honeycomb briquette can be stacked, and the method can be popularized in various honeycomb briquette manufacturers.
Description
Technical Field
The invention relates to the technical field of mineral energy application, in particular to honeycomb briquette preparation equipment.
Background
As is well known, coal mines are more and more popular in application, home units and small enterprises generally demand for cooking and heating of coal products, and with social development, honeycomb briquettes have the characteristics of high efficiency, flammability and energy conservation, so that honeycomb briquettes become the first choice of people for living and living to coal products.
Disclosure of Invention
The present invention aims to provide a honeycomb briquette manufacturing apparatus which overcomes the above-mentioned drawbacks of the prior art.
The honeycomb coal preparation equipment comprises a main machine body, wherein a forming cavity is arranged in the main machine body, a transmission cavity is arranged on the front side of the forming cavity, a first transmission shaft extending forwards and backwards is rotatably arranged between the forming cavity and the transmission cavity, a first transmission shaft is fixedly arranged on the first transmission shaft in the forming cavity, four forming modules are circularly arranged in the circumferential direction of the first transmission shaft, each forming module consists of two forming holes, the forming holes are symmetrically arranged at the front and back of the symmetrical center of the first transmission shaft, a first guide groove is formed in the right side of the forming cavity, the first guide groove is positioned right to the rightmost forming module of the first transmission shaft, a pressing block matched with the forming holes is arranged in the first guide groove in a sliding mode, a first spring is fixedly arranged between the pressing block and the right side wall of the first guide groove, a drying cavity is arranged below the forming cavity, the upper side wall of the drying cavity is provided with a guide groove II communicated with the forming cavity, the guide groove II is positioned under the lowest side of the forming module on the transport plate, a supporting plate I is arranged in the guide groove II in a sliding manner, a spring II is fixedly arranged between the supporting plate I and the lower side wall of the drying cavity, the lower side of the drying cavity is provided with a conveying cavity, the front side wall of the conveying cavity is provided with a guide groove III communicated with the transmission cavity, the guide groove III is internally provided with a supporting rod I extending forwards and backwards in a sliding manner, the upper side wall of the supporting rod I in the conveying cavity is symmetrically and fixedly provided with a guide rod extending upwards into the drying cavity at the front and back positions of the symmetrical center of the transport plate, the lower side wall of the drying cavity is provided with a guide groove IV in sliding fit with the guide rod, the supporting plate I is also provided with a guide groove V in sliding fit with the guide rod, and, the left side wall of the transmission cavity is fixedly provided with a second support rod extending rightwards, a first rack is sleeved on the second support rod in a sliding mode, the tail end of the front side of the first support rod is fixedly arranged on the end face of the rear side of the first rack, a first auxiliary plate is fixedly arranged at the tail end of the left side of the first rack, a third spring is fixedly arranged between the first auxiliary plate and the left side wall of the transmission cavity, a third support rod extending rightwards is further fixedly arranged on the left side wall of the transmission cavity, a second rack is sleeved on the third support rod in a sliding mode, a first steel wire rope is fixedly arranged between the tail end of the right side of the second rack and the tail end of.
On the basis of the technical scheme, a stirring cavity is arranged on the upper side of the forming cavity, a material guide groove communicated with the forming cavity and corresponding to the forming hole is formed in the lower side wall of the stirring cavity, a material inlet is formed in the upper side wall of the stirring cavity, a second transmission shaft extending front and back is rotatably arranged between the stirring cavity and the transmission cavity, a spiral stirring disc is fixedly arranged on the second transmission shaft in the stirring cavity, a motor is fixedly arranged on the front side wall of the transmission cavity, and the tail end of the front side of the second transmission shaft is arranged on the end face of the rear side of the motor.
On the basis of the technical scheme, a first sector gear and a second sector gear capable of being meshed with the second rack gear in transmission are sequentially and fixedly arranged on the second transmission shaft in the transmission cavity from front to back, a first special-shaped cylindrical gear and a first cylindrical gear capable of being meshed with the first sector gear are sequentially and fixedly arranged on the first transmission shaft in the transmission cavity from front to back, a third transmission shaft is rotatably arranged between the front wall and the back wall of the transmission cavity, and a second cylindrical gear meshed with the first special-shaped cylindrical gear and a third cylindrical gear meshed with the first rack gear are sequentially and fixedly arranged on the third transmission shaft from front to back.
On the basis of the technical scheme, a stacking cavity communicated with the drying cavity is arranged on the right side of the drying cavity, the stacking cavity is communicated with the conveying cavity, a stacking device for stacking formed honeycomb briquette is arranged in the stacking cavity, and a conveying device for conveying the stacked honeycomb briquette out of the main body is arranged in the conveying cavity.
On the basis of the technical scheme, the stacking device comprises a guide groove six formed in the right side wall of the stacking cavity, an auxiliary plate two is arranged in the guide groove six in a sliding mode, limiting blocks are symmetrically and fixedly arranged at the upper tail end and the lower tail end of the auxiliary plate two, a spring four is fixedly arranged between the auxiliary plate two and the right side wall of the guide groove six, a supporting plate two is arranged on the upper side end face of each limiting block, a heating dryer is symmetrically and fixedly arranged on the front wall and the rear wall of the drying cavity, a transmission shaft four extending forwards and backwards is rotatably arranged between the transmission cavity and the conveying cavity, a special-shaped cylindrical gear two, a disc-shaped ratchet wheel one, a cylindrical gear four meshed with the rack gear one and a disc-shaped ratchet wheel two are sequentially and fixedly arranged on the transmission shaft four from front to back in the transmission cavity, a support rod four extending leftwards is fixedly arranged on the right side wall of the transmission cavity, a rack three, a second steel wire rope is fixedly arranged between the tail end of the right side of the third rack and the tail end of the right side of the second auxiliary plate, the second steel wire rope is always in a tight state, and a manual plate feeding opening for feeding the second supporting plate into the stacking cavity is formed in the right side wall of the stacking cavity.
On the basis of the technical scheme, the conveying device comprises a first conveying belt wheel arranged on a fourth conveying shaft in the conveying cavity, a discharge hole communicated with the outside of the main machine body is formed in the right side wall of the conveying cavity, a third auxiliary plate is fixedly arranged on the right side wall of the main machine body, a fifth conveying shaft extending forwards is rotatably arranged on the front side face of the third auxiliary plate, a second conveying belt wheel is fixedly arranged on the fifth conveying shaft, and a conveying belt is arranged between the second conveying belt wheel and the first conveying belt wheel in a transmission manner.
The invention has the beneficial effects that: according to the invention, the first steel wire rope can be pulled through the meshing of the second sector gear and the second rack to compact honeycomb briquette raw materials, the second special-shaped cylindrical gear and the third rack can also be meshed to stack dried honeycomb briquettes quantitatively, and meanwhile, the second supporting plate can be replaced through pulling the second steel wire rope.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is a schematic front view of a honeycomb briquette producing apparatus according to the present invention;
FIG. 2 is a schematic view of the structure at A-A in FIG. 1;
FIG. 3 is a schematic view of the structure at B-B in FIG. 2;
FIG. 4 is a schematic view of the structure at C-C in FIG. 2;
FIG. 5 is a schematic view of the structure of FIG. 2 at D;
fig. 6 is a schematic structural diagram at E in fig. 1.
Detailed Description
The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
Referring to fig. 1-6, the honeycomb briquette preparation apparatus according to the embodiment of the present invention includes a main body 10, a forming cavity 11 is provided in the main body 10, a transmission cavity 12 is provided at the front side of the forming cavity 11, a first transmission shaft 13 extending forward and backward is rotatably provided between the forming cavity 11 and the transmission cavity 12, a transport tray 14 is fixedly provided on the first transmission shaft 13 in the forming cavity 11, four forming modules 15 are annularly arranged in the circumferential direction of the transport tray 14, the forming modules 15 are composed of two forming holes 16, the forming holes 16 are symmetrically arranged at the front and rear positions of the symmetric center of the transport tray 14, a first guide groove 17 is provided at the right side of the forming cavity 11, the first guide groove 17 is located right of the rightmost forming module 15 of the transport tray 14, a pressing block 18 matched with the forming hole 16 is slidably provided in the first guide groove 17, a first spring 19 is fixedly arranged between the pressing block 18 and the right side wall of the first guide groove 17, a drying cavity 20 is arranged below the forming cavity 11, a second guide groove 21 communicated with the forming cavity 11 is formed in the upper side wall of the drying cavity 20, the second guide groove 21 is positioned under the lowest forming module 15 on the transport tray 14, a first support plate 22 is arranged in the second guide groove 21 in a sliding manner, a second spring 23 is fixedly arranged between the first support plate 22 and the lower side wall of the drying cavity 20, a conveying cavity 24 is arranged at the lower side of the drying cavity 20, a third guide groove 25 communicated with the transmission cavity 12 is formed in the front side wall of the conveying cavity 24, a first support rod 26 extending forwards and backwards is arranged in the third guide groove 25 in a sliding manner, and guide rods 27 extending upwards into the drying cavity 20 are symmetrically and fixedly arranged on the upper side wall of the first support rod 26 in the conveying cavity 24 at the front and back positions of the symmetric center of the transport tray 14, a fourth guide groove 28 in sliding fit with the guide rod 27 is formed in the lower side wall of the drying cavity 20, a fifth guide groove 29 in sliding fit with the guide rod 27 is also formed in the first support plate 22, a push plate 30 is fixedly arranged at the tail end of the upper side of the guide rod 27, a second support rod 31 extending rightwards is fixedly arranged on the left side wall of the transmission cavity 12, a first rack 32 is slidably sleeved on the second support rod 31, the tail end of the front side of the first support rod 26 is fixedly arranged on the rear end face of the first rack 32, a first auxiliary plate 33 is fixedly arranged at the tail end of the left side of the first rack 32, a third spring 34 is fixedly arranged between the first auxiliary plate 33 and the left side wall of the transmission cavity 12, a third support rod 35 extending rightwards is fixedly arranged on the left side wall of the transmission cavity 12, a second rack 36 is slidably sleeved on the third support rod 35, and a first steel wire rope 37 is fixedly arranged, the first steel wire rope 37 is always in a tight state.
In addition, in one embodiment, a stirring cavity 38 is disposed on the upper side of the molding cavity 11, a material guiding groove 39 communicated with the molding cavity 11 and corresponding to the molding hole 16 is disposed on the lower side wall of the stirring cavity 38, a material feeding hole 40 is disposed on the upper side wall of the stirring cavity 38, a second transmission shaft 41 extending forward and backward is rotatably disposed between the stirring cavity 38 and the transmission cavity 12, a spiral stirring disc 42 is fixedly disposed on the second transmission shaft 41 in the stirring cavity 38, a motor 43 is fixedly disposed on the front side wall of the transmission cavity 12, and the front end of the second transmission shaft 41 is mounted on the rear end face of the motor 43.
In addition, in one embodiment, a sector gear first 44 and a sector gear second 45 capable of being meshed with the rack second 36 are fixedly arranged on the transmission shaft second 41 in the transmission cavity 12 from front to back in sequence, a special-shaped cylindrical gear first 46 and a cylindrical gear first 47 capable of being meshed with the sector gear first 44 are fixedly arranged on the transmission shaft first 13 in the transmission cavity 12 from front to back in sequence, a transmission shaft third 48 is rotatably arranged between the front wall and the rear wall of the transmission cavity 12, and a cylindrical gear second 49 meshed with the special-shaped cylindrical gear first 46 and a cylindrical gear third 50 meshed with the rack first 32 are fixedly arranged on the transmission shaft third 48 from front to back in sequence.
In addition, in an embodiment, a stacking chamber 51 is disposed at the right side of the drying chamber 20 and is communicated with the drying chamber, the stacking chamber 51 is further communicated with the conveying chamber 24, a stacking device 52 for stacking the formed honeycomb briquette is disposed in the stacking chamber 51, and a conveying device 53 for conveying the stacked honeycomb briquette out of the main body 10 is disposed in the conveying chamber 24.
In addition, in one embodiment, the stacking device 52 includes a guide groove six 54 formed in the right side wall of the stacking chamber 51, an auxiliary plate two 55 is slidably disposed in the guide groove six 54, limit blocks 56 are symmetrically and fixedly disposed at upper and lower end positions of the auxiliary plate two 55, a spring four 57 is fixedly disposed between the auxiliary plate two 55 and the right side wall of the guide groove six 54, a support plate two 58 is disposed on an upper end surface of the limit block 56, a heating dryer 59 is symmetrically and fixedly disposed on front and rear walls of the drying chamber 20, a transmission shaft four 60 extending forward and backward is rotatably disposed between the transmission chamber 12 and the conveying chamber 24, a cylindrical special-shaped gear two 61, a disc-shaped ratchet wheel one 62, a cylindrical gear four 63 engaged with the rack one 32, and a disc-shaped ratchet wheel two 64 are sequentially and fixedly disposed on the transmission shaft four 60 in the transmission chamber 12 from front to rear, a support rod four 65 extending leftward is fixedly disposed on the right side wall of the transmission chamber 12, a third rack 66 meshed with the second special-shaped cylindrical gear 61 is slidably sleeved on the fourth support rod 65, a second steel wire rope 67 is fixedly arranged between the right tail end of the third rack 66 and the right tail end of the second auxiliary plate 55, the second steel wire rope 67 is always in a tight state, and a manual plate feeding opening 74 for feeding the second support plate 58 into the stacking cavity 51 is formed in the right side wall of the stacking cavity 51; when the stacking is carried out, the cylindrical gear three 50 is meshed with the rack one 32, the rack one 32 is driven to move rightwards, when the stacking is carried out, the shaped honeycomb briquette is dried by the heating dryer 59 and then pushed to the lower side of the support plate two 58 by the push plate 30, meanwhile, the rack one 32 is meshed with the cylindrical gear four 63 to drive the transmission shaft four 60 to rotate, the rack three 66 is meshed with the rack three 66 through the special-shaped cylindrical gear two 61 and moves leftwards, the auxiliary plate two 55 is pulled into the guide groove six 54 through the steel wire rope two 67 for a certain distance, when the rack one 32 is reset leftwards under the action of the spring three 34, the rack three 66 cannot move rightwards due to the unidirectionality of the disc type ratchet wheel one 62, and after a certain amount of honeycomb briquette on the lower side of the support plate two 58, at this time, the second special-shaped cylindrical gear 61 and the third rack 66 are meshed to the last tooth, when the push plate 30 sends the honeycomb briquette to the second lower supporting plate 58 again, the limit block 56 is completely pulled into the guide groove six 54, the second lower supporting plate 58 falls into the conveying cavity 24, the second upper supporting plate 58 falls, due to the lack of teeth of the second special-shaped cylindrical gear 61, the third rack 66 is pulled back to the initial position by the action of the spring four 57, and simultaneously, the second supporting plate 58 is pushed out of the guide groove six 54, so that the second upper supporting plate 58 falls to the upper end face of the limit block 56.
In addition, in one embodiment, the conveying device 53 includes a first conveying pulley 68 disposed on the fourth transmission shaft 60 in the conveying cavity 24, a discharge hole 69 communicating with the outside of the main body 10 is disposed on a right side wall of the conveying cavity 24, a third auxiliary plate 70 is fixedly disposed on the right side wall of the main body 10, a fifth transmission shaft 71 extending forward is rotatably disposed on a front side surface of the third auxiliary plate 70, a second conveying pulley 72 is fixedly disposed on the fifth transmission shaft 71, and a conveying belt 73 is disposed between the second conveying pulley 72 and the first conveying pulley 68; the conveying device 53 drives the transmission shaft four 60 to rotate through the meshing of the rack one 32 and the cylindrical gear four 63, and the transmission shaft four 60 can only rotate in one direction due to the unidirectional property of the disc-shaped ratchet wheel two 64, and drives the conveying belt 73 to move through the transmission shaft four 60, so that the second pallet 58 falling into the conveying cavity 24 is sent out of the main machine body 10 from the discharge port 69.
In an initial state, the second rack 36 is located at the rightmost position, so that the pressing block 18 is pushed into the forming hole 16 at the rightmost side under the action of the first spring 19, the second guide groove 21 is located at the uppermost position of the second guide groove 21 under the action of the second spring 23, the first rack 32 is located at the leftmost position under the action of the third spring 34, the push plate 30 is located at the left position of the second guide groove 21, and the third rack 66 is located at the rightmost position, so that the limiting block 56 is located outside the sixth guide groove 54 under the action of the fourth spring 57.
When the shaping is started, raw materials for preparing honeycomb briquette are poured into the stirring cavity 38 from the feeding hole 40, the motor 43 is started to drive the second transmission shaft 41 to rotate, the raw materials are stirred and fully mixed by the spiral stirring disc 42, so that the raw materials fall into the forming hole 16 on the uppermost side of the transport disc 14 through the material guide groove 39, the transport disc 14 intermittently rotates through the intermittent meshing of the first sector gear 44 and the first cylindrical gear 47, before the transport disc 14 rotates, the second sector gear 45 is firstly meshed with the second rack 36, so that the second rack 36 moves leftwards, the briquetting 18 is pulled away from the forming hole 16 through the first steel wire rope 37 in the moving process, the transport disc 14 rotates, the forming hole 16 filled with the raw materials is rotated to the left side of the first guide groove 17, at the moment, the second sector gear 45 is not meshed with the second rack 36, so that the pressing block 18 is moved leftwards by the first spring 19 to compact the raw material in the forming hole 16 at the rightmost side of the transport tray 14.
When drying is carried out after shaping, the transportation disc 14 is meshed with the first cylindrical gear 47 through the first sector gear 44 again to drive the transportation disc 14 to rotate, the compacted raw materials are rotated to the position opposite to the second guide groove 21, the compacted raw materials are separated from the forming hole 16 through the self weight and the inertia generated when the transportation disc 14 rotates and fall onto the first supporting plate 22, the first supporting plate 22 moves downwards due to the fact that the total weight of the first supporting plate 22 and the honeycomb briquette on the first supporting plate is larger than the spring force of the second spring 23, the compacted raw materials are dried into the honeycomb briquette through the heating dryer 59, the honeycomb briquette is pushed into the second supporting plate 58 on the lower side through the push plate 30, the honeycomb briquette is stacked through the stacking device 52, and the stacked second supporting plate 58 is sent out of the main machine body 10 through the conveying device 53.
The invention has the beneficial effects that: according to the invention, the first steel wire rope can be pulled through the meshing of the second sector gear and the second rack to compact honeycomb briquette raw materials, the second special-shaped cylindrical gear and the third rack can also be meshed to stack dried honeycomb briquettes quantitatively, and meanwhile, the second supporting plate can be replaced through pulling the second steel wire rope.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (6)
1. A honeycomb briquette preparing equipment comprises a main machine body and is characterized in that: the main machine body is internally provided with a forming cavity, the front side of the forming cavity is provided with a transmission cavity, a first transmission shaft extending from front to back is rotatably arranged between the forming cavity and the transmission cavity, a transport disc is fixedly arranged on the first transmission shaft in the forming cavity, four forming modules are annularly arranged in the circumferential direction of the transport disc, each forming module consists of two forming holes, the forming holes are symmetrically arranged in the front and back positions of the symmetric center of the transport disc, the right side of the forming cavity is provided with a first guide groove, the first guide groove is positioned at the rightmost side of the transport disc and right-to-right position of the forming module, a press block matched with the forming holes is slidably arranged in the first guide groove, a first spring is fixedly arranged between the press block and the right side wall of the first guide groove, a drying cavity is arranged below the forming cavity, and the upper side wall of the drying cavity is provided with a second guide, the second guide groove is positioned at the lowest side of the transport plate and under the forming module, a first support plate is arranged in the second guide groove in a sliding manner, a second spring is fixedly arranged between the first support plate and the lower side wall of the drying cavity, a conveying cavity is arranged at the lower side of the drying cavity, a third guide groove communicated with the transmission cavity is formed in the front side wall of the conveying cavity, a first support rod extending forwards and backwards is arranged in the third guide groove in a sliding manner, a fifth guide groove in sliding fit with the first guide rod is also formed in the first support plate, a push plate is fixedly arranged at the tail end of the upper side of the guide rod, a second support rod extending rightwards is fixedly arranged on the left side wall of the transmission cavity, the support rod II is slidably sleeved with a rack I, the tail end of the front side of the support rod I is fixedly arranged on the end face of the rear side of the rack I, the tail end of the left side of the rack I is fixedly provided with an auxiliary plate I, a spring III is fixedly arranged between the auxiliary plate I and the left side wall of the transmission cavity, a support rod III extending rightwards is further fixedly arranged on the left side wall of the transmission cavity, the rack II is slidably sleeved on the support rod III, a steel wire rope I is fixedly arranged between the tail end of the right side of the rack II and the tail end of the right side of the pressing block, and the steel wire rope.
2. The honeycomb briquette production apparatus according to claim 1, wherein: the upper side of the forming cavity is provided with a stirring cavity, the lower side wall of the stirring cavity is provided with a material guide groove communicated with the forming cavity and corresponding to the forming hole, the upper side wall of the stirring cavity is provided with a material inlet, a transmission shaft II extending forwards and backwards is rotatably arranged between the stirring cavity and the transmission cavity, a spiral stirring disc is fixedly arranged on the transmission shaft II in the stirring cavity, the front side wall of the transmission cavity is fixedly provided with a motor, and the tail end of the front side of the transmission shaft II is arranged on the end face of the rear side of the motor.
3. The honeycomb briquette production apparatus according to claim 1, wherein: a first sector gear and a second sector gear which can be meshed with the second rack for transmission are sequentially and fixedly arranged on the second transmission shaft in the transmission cavity from front to back, a first special-shaped cylindrical gear and a first cylindrical gear which can be meshed with the first sector gear are sequentially and fixedly arranged on the first transmission shaft in the transmission cavity from front to back, a third transmission shaft is rotatably arranged between the front wall and the rear wall of the transmission cavity, and a second cylindrical gear which is meshed with the first special-shaped cylindrical gear and a third cylindrical gear which is meshed with the first rack are sequentially and fixedly arranged on the third transmission shaft from front to back.
4. The honeycomb briquette production apparatus according to claim 1, wherein: the honeycomb briquette drying machine is characterized in that a stacking cavity communicated with the drying cavity is arranged on the right side of the drying cavity, the stacking cavity is communicated with the conveying cavity, a stacking device for stacking formed honeycomb briquettes is arranged in the stacking cavity, and a conveying device for conveying the stacked honeycomb briquettes out of the main body is arranged in the conveying cavity.
5. The honeycomb briquette production apparatus according to claim 4, wherein: the stacking device comprises a guide groove six formed in the right side wall of the stacking cavity, an auxiliary plate two is arranged in the guide groove six in a sliding mode, limiting blocks are symmetrically and fixedly arranged at the upper tail ends and the lower tail ends of the auxiliary plate two, a spring four is fixedly arranged between the auxiliary plate two and the right side wall of the guide groove six, a supporting plate two is arranged on the upper side end face of each limiting block, heating dryers are symmetrically and fixedly arranged on the front wall and the rear wall of the drying cavity, a transmission shaft four extending forwards and backwards is rotatably arranged between the transmission cavity and the conveying cavity, a special-shaped cylindrical gear two, a disc-shaped ratchet wheel one, a cylindrical gear four meshed with the rack gear one and a disc-shaped ratchet wheel two are sequentially and fixedly arranged on the transmission shaft four from front to back in the transmission cavity, a support rod four extending leftwards is fixedly arranged on the right side wall of the transmission cavity, and a rack gear three, a second steel wire rope is fixedly arranged between the tail end of the right side of the third rack and the tail end of the right side of the second auxiliary plate, the second steel wire rope is always in a tight state, and a manual plate feeding opening for feeding the second supporting plate into the stacking cavity is formed in the right side wall of the stacking cavity.
6. The honeycomb briquette production apparatus according to claim 2, wherein: the conveying device comprises a first conveying belt wheel arranged on a fourth transmission shaft in the conveying cavity, a discharge port communicated with the outside of the main machine body is formed in the right side wall of the conveying cavity, a third auxiliary plate is fixedly arranged on the right side wall of the main machine body, a fifth transmission shaft extending forwards is rotatably arranged on the front side face of the third auxiliary plate, a second conveying belt wheel is fixedly arranged on the fifth transmission shaft, and a conveying belt is arranged between the second conveying belt wheel and the first conveying belt wheel in a transmission manner.
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CN201911383685.1A CN110982567A (en) | 2019-12-28 | 2019-12-28 | Honeycomb briquette preparation equipment |
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CN201911383685.1A CN110982567A (en) | 2019-12-28 | 2019-12-28 | Honeycomb briquette preparation equipment |
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CN110421885A (en) * | 2019-08-16 | 2019-11-08 | 诸暨高宗自动化科技有限公司 | A kind of honeycomb briquette making apparatus |
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WO2011143718A1 (en) * | 2010-05-21 | 2011-11-24 | Errol John Smith | Biochar-coke produced in an energy efficient manner |
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