CN117804178B - High-energy-efficiency drying equipment - Google Patents

Abstract

The invention relates to the technical field of drying equipment, in particular to high-energy-efficiency drying equipment which comprises two arc-shaped coamings distributed front and back, wherein a turning component is rotationally arranged between the two arc-shaped coamings, and a rolling component is rotationally arranged inside the two arc-shaped coamings. The output shaft of the alternating current motor drives the driving gear to rotate, drives the annular gear meshed with the driving gear to rotate, drives the swivel connected with the annular gear to rotate, drives the bearing support to rotate simultaneously when the two swivel rotates, further drives the plurality of reciprocating screw rods to rotate along with the swivel, and a plurality of planetary gears roll along the sun gear during the period, so that the plurality of reciprocating screw rods can synchronously rotate along with the swivel to drive the sector scraping plates in threaded connection with the reciprocating screw rods to reciprocate left and right, and the accumulated materials between the two arc coamings are spread horizontally to two sides, so that the materials can be evenly distributed on the inner wall of the arc coamings with the same thickness and fully contact with the plurality of drying holes, and the drying efficiency of the materials is further improved.

Description

High-energy-efficiency drying equipment

Technical Field

The invention relates to the technical field of drying equipment, in particular to high-energy-efficiency drying equipment.

Background

The drying equipment is a combination of a series of mechanical equipment for drying moisture or other liquid on the surface of an object by a certain technical means, and the most common drying technology at present mainly comprises hot air drying, and is widely applied to drying of various mechanical equipment and food and drying requirements required by other production;

According to the authorized bulletin number: the portable energy-saving potato chip dehydration drying equipment disclosed in CN 115388623B can enable the potato chip to be dried more uniformly when the placement frame rotates, can accelerate the drying speed of the potato chip under the mutual cooperation of a heating pipe and a fan, and the heat insulation plate prevents hot air from being dispersed outside the box body, so that the potato chip can be dried rapidly under the airtight space, but the conventional drying equipment still has the defects, such as the placement frame of the conventional drying equipment can drive the materials inside the conventional drying equipment to rotate together when rotating, but the materials are easy to be accumulated intensively in the placement frame during rotating, so that the conventional equipment cannot ensure that the placement frame is distributed evenly in the rotating process, and the materials are heated unevenly easily.

Disclosure of Invention

To this end, the present invention provides an energy-efficient drying apparatus to solve the above-mentioned problems.

The invention provides the following technical scheme: an energy-efficient drying apparatus, comprising:

the air-conditioner comprises two arc-shaped coamings which are distributed front and back and two side end covers which are distributed left and right, wherein an air blowing cavity is formed in each of the two arc-shaped coamings, a plurality of drying holes are formed in the inner walls of the two arc-shaped coamings in a penetrating mode, the drying holes are communicated with the inner parts of the air blowing cavities, air inlets are formed in the outer walls of the two arc-shaped coamings in a penetrating mode, the air inlets are communicated with the inner parts of the air blowing cavities, air collecting hoods are fixedly connected to the outer walls of the two arc-shaped coamings, the two air collecting hoods are located on the periphery of openings of the two air inlets respectively, a hot air machine is arranged at the left part of each of the two arc-shaped coamings, and the output end of the hot air machine is fixedly connected with two hot air pipes which are fixedly connected with left end connectors of the two air collecting hoods respectively;

The material turning assembly is rotationally arranged between two arc coamings and comprises two turning rings which are distributed left and right, a plurality of material turning plates are connected between the turning rings, the material turning plates are distributed in a circumferential array mode, the material turning plates are in contact with the inner walls of the two arc coamings, a plurality of bearing supports are fixedly connected to the outer walls of the turning rings, the bearing supports are located between the two adjacent material turning plates, a reciprocating screw rod is rotationally connected between the bearing supports, a fan-shaped scraping plate is connected to the outer wall of the reciprocating screw rod in a threaded matching mode, two supporting bars are fixedly connected to the containing and scooping faces of the fan-shaped scraping plate, and one ends, far away from the fan-shaped scraping plates, of the supporting bars are connected with a spreading scraping bar.

As a preferable scheme of the invention, a rolling assembly is rotationally arranged in the two arc-shaped coamings, the rolling assembly comprises two front-back distributed crushing rollers, crushing blocks are fixedly connected to the outer walls of the two crushing rollers, the two crushing blocks are symmetrically distributed front and back, a plurality of crushing hammers are fixedly connected to one side surface, close to the crushing blocks, of the two crushing blocks, the rolling assembly further comprises two front-back distributed hammering rollers, the two hammering rollers are positioned at the bottoms of the two crushing rollers, a plurality of left-right distributed hammer handles are fixedly connected to the outer walls of the two hammering rollers, and one ends, far away from the hammering rollers, of the hammer handles are fixedly connected with knocking hammers, and the knocking hammers are positioned on one side, far away from the crushing hammers, of the crushing blocks.

As a preferable scheme of the invention, the left side face and the right side face of the two arc-shaped coamings are fixedly connected with side end covers, one side face, close to the side end covers, of the two arc-shaped coamings is fixedly connected with a rotary joint ring block, one side face, far away from the rotary joint ring, of the two arc-shaped coamings is provided with rotary joint ring grooves, the outer walls of the rotary joint ring blocks are respectively and slidably connected with the inner walls of the rotary joint ring grooves, the left side face of the fan-shaped scraper blade is provided with two guide holes in a penetrating mode, the inside of each guide hole is slidably inserted with a guide polished rod, and two ends of the guide polished rod are respectively and fixedly connected with the inner side faces of the two rotary rings.

As a preferable scheme of the invention, an inner gear ring is fixedly connected to the inner wall of the swivel at the right part, an alternating current motor is fixedly connected to the outer wall of one side end cover, an output shaft of the alternating current motor movably penetrates through the side end cover, a driving gear is fixedly connected to the output shaft of the alternating current motor and meshed with the inner gear ring, a sun gear is fixedly connected to the inner wall of the side end cover at the right part and positioned at the periphery of the swivel, a plurality of planetary gears are meshed in the sun gear, and a plurality of planetary gears are fixedly connected with the right ends of a plurality of reciprocating screw rods respectively.

As a preferable scheme of the invention, two crushing rollers movably penetrate through two side end covers and are in sliding connection with penetrating holes of the two side end covers, turning gears are fixedly connected to the left parts of the outer walls of the two crushing rollers, two sliding seats which are distributed front and back are fixedly connected to the inner walls of the side end covers and positioned at the left parts, two sliding rods are slidably connected to the inner walls of the two sliding seats, top caps are fixedly connected to the tops of the two sliding rods, springs are fixedly connected to the bottoms of the two top caps, the two springs are respectively sleeved on the peripheries of the two sliding rods, the bottoms of the two springs are fixedly connected with the tops of the two sliding seats, a carrying block is commonly connected to the bottoms of the two sliding rods, a force application pressing strip is fixedly connected to the middle of the top of the carrying block and positioned between the two turning gears, tooth plates are respectively meshed with the two turning gears, the top pressing strips are rotatably connected to the side surfaces of the two turning gears, and a plurality of bosses are fixedly connected to the left sides of the corresponding bosses.

As a preferable scheme of the invention, the right ends of the two crushing rollers are fixedly connected with cylindrical blocks, the outer walls of the two cylindrical blocks are provided with spiral grooves, the spiral directions of the two spiral grooves are the same, grooved nails are slidingly inserted into the two spiral grooves, the tops of the two grooved nails are jointly connected with a fixing plate, and the fixing plate is fixedly connected to the outer wall of one side end cover positioned at the right part.

As a preferable scheme of the invention, the two hammering rollers movably penetrate through the two side end covers and are rotationally connected with the penetrating holes of the two side end covers, the right parts of the outer walls of the two hammering rollers are fixedly connected with first gears, the tops of the two first gears are respectively meshed with second gears, the width of the two second gears is smaller than that of the two first gears, and the inner walls of the two second gears are respectively fixedly connected with the outer walls of the two crushing rollers.

As a preferable scheme of the invention, two arc-shaped side frames which are distributed front and back are fixedly connected between the two side end covers, and the outer diameters of the two arc-shaped side frames are the same as the rotation inner diameters of the plurality of material turning plates.

As a preferable scheme of the invention, the tops of the two arc-shaped coamings are connected with a feed hopper jointly, the tops of the feed hopper are connected with a flip through hinges in a rotating mode, the bottoms of the two arc-shaped coamings are connected with a connecting arc plate jointly, the bottoms of the connecting arc plate are provided with a discharging hole in a penetrating mode, and a discharging sealing plate is arranged in the discharging hole in a rotating mode through the hinges.

As a preferable scheme of the invention, a plurality of sector scrapers are in clearance fit with the inner walls of two arc coamings.

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

1. According to the invention, after hot air is generated by the air heater and is input into the two air gathering covers through the two hot air pipes, the hot air is discharged into the two air blowing cavities through the two air inlets, and then the hot air is output outwards through the plurality of drying holes to heat and dry materials, during the period, the output shaft of the alternating current motor drives the driving gear to rotate to drive the inner gear ring meshed with the driving gear ring to rotate, so that the rotating ring connected with the inner gear ring rotates, the bearing support is driven to rotate simultaneously when the two rotating rings rotate, the plurality of reciprocating screw rods are driven to rotate along the rotating ring, during the period, the plurality of planetary gears roll along the sun gear, so that the plurality of reciprocating screw rods rotate synchronously when rotating along the rotating ring, the sector scraping plates in threaded connection with the reciprocating screw rods are driven to reciprocate left and right, the materials piled between the two arc-shaped coamings are spread towards two sides, the materials can be spread on the inner walls of the arc coamings in the same thickness, and are fully contacted with the plurality of drying holes, and the uniformity and the drying efficiency of the materials are improved.

2. According to the invention, the plurality of overturning plates are driven to overturn when the swivel rotates to overturn the dried material, so that the heated uniformity of the material is improved, the plurality of overturning plates can upwards shovel the material along the inner wall of the arc-shaped coaming when in overturn, the swivel rotates to drive the bosses to rotate together, so that the plurality of bosses sequentially pass through the top of the guide wheel, the guide wheel is pushed downwards, the force application pressing strip, the carrying block and the two sliding rods are further driven to move downwards, and meanwhile, under the compression elasticity caused by the two springs after the two sliding rods move downwards, the force application pressing strip is enabled to reciprocate upwards and downwards to drive the two toothed plates to synchronously move, the two overturning gears meshed with the two toothed plates are further driven to reciprocate to drive the two crushing rollers to synchronously reciprocate, the two crushing blocks are further driven to continuously overturn towards the middle, the plurality of crushing hammers are driven to synchronously move, and the plurality of crushing hammers can clamp the hardened material, so that the uniformity and uniformity of material drying are ensured.

3. According to the invention, the two cylindrical blocks are driven to rotate simultaneously when the two crushing rollers overturn, and further under the sliding connection of the two spiral grooves and the two fixing plates, the two crushing rollers further do left and right reciprocating sliding in opposite directions while reciprocally overturning, so that the two crushing blocks and the plurality of crushing hammers are driven to move simultaneously, and the plurality of crushing hammers apply clamping force to the plate-bonded materials and also apply tearing force in the left and right directions to the materials, thereby ensuring that some hard-to-crush hardened materials are crushed.

4. According to the invention, when the two crushing rollers drive the two crushing blocks to repeatedly overturn, the two second gears are driven to synchronously overturn, so that the two first gears are driven to overturn under the meshing of the two first gears, and the two hammering rollers connected with the two first gears are further driven to reversely overturn with the two crushing rollers, so that when the two crushing rollers drive the two crushing blocks to overturn towards the middle, the two hammering rollers drive the hammer handles and the hammering hammers to swing towards the two sides, and when the two crushing rollers drive the two crushing blocks to overturn towards the two sides, the two hammering rollers drive the hammer handles and the hammering hammers to swing towards the middle, and the two crushing blocks are knocked, so that materials attached to the two crushing blocks and the surface parts of the crushing hammers are prevented from falling under the action of knocking vibration of the hammering hammers, and a large amount of materials attached to the crushing blocks and the crushing hammers are avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the structure of a part between two arc-shaped coamings in the invention;

FIG. 3 is a schematic view of a detailed construction of an arcuate shroud of the present invention;

FIG. 4 is a schematic view of a turning assembly and a rolling assembly according to the present invention;

FIG. 5 is a schematic diagram of a turning assembly and a rolling assembly according to the present invention;

FIG. 6 is a schematic view of a swivel and a material turning plate structure according to the present invention;

FIG. 7 is a schematic view of a sector screed according to the present invention;

Fig. 8 is a detailed schematic diagram of a twisting assembly according to the present invention;

FIG. 9 is a schematic view of the enlarged partial structure of the A in FIG. 8;

Fig. 10 is a schematic diagram of a detail structure of a twisting assembly according to the present invention;

fig. 11 is a schematic view of a partial enlarged structure of B in the present invention of fig. 10.

In the figure: 1. arc coaming; 2. a material turning component; 3. a twisting assembly; 4. an air heater; 101. a blast cavity; 102. drying holes; 103. an air inlet; 104. a wind collecting hood; 105. a loading hopper; 106. a flip cover; 107. connecting an arc plate; 108. a side end cap; 109. discharging sealing plates; 201. a swivel; 202. a rotary ring groove is connected; 203. rotating and connecting the ring blocks; 204. a turning plate; 205. an inner gear ring; 206. an alternating current motor; 207. a drive gear; 208. a bearing support; 2081. a reciprocating screw rod; 209. a planetary gear; 2010. a sun gear; 2011. a fan-shaped scraping plate; 2012. a support bar; 2013. spreading the scraping strip; 2014. a guide hole; 2015. guiding a polished rod; 301. a crushing roller; 302. breaking fragments; 303. a breaking hammer; 304. a turnover gear; 305. a sliding seat; 306. a slide bar; 307. a top cap; 308. a spring; 309. carrying a block; 3010. a force-applying pressing bar; 3011. a toothed plate; 3012. a guide wheel; 3013. a hammering roller; 3014. a hammer handle; 3015. knocking a hammer; 3016. a first gear; 3017. a second gear; 3018. a cylindrical block; 3019. a spiral groove; 3020. a fixing plate; 3021. groove nails; 3022. a boss; 401. a hot air pipe; 5. arc side frames.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 11, the present invention provides a high energy efficiency drying apparatus, which specifically includes the following embodiments:

embodiment one:

The utility model provides a high energy efficiency drying equipment, including two arc bounding wall 1 that distribute around and two side cover 108 that distribute about, rotate between two arc bounding wall 1 and be equipped with the stirring subassembly 2, stirring subassembly 2 includes two swivel 201 that distribute about, is connected with a plurality of stirring boards 204 jointly between two swivel 201, and a plurality of stirring boards 204 are the circumference array and distribute, and a plurality of stirring boards 204 contact with the inner wall of two arc bounding wall 1;

The inside of the two arc-shaped coamings 1 is rotationally provided with a rolling assembly 3, the rolling assembly 3 comprises two crushing rollers 301 which are distributed front and back, crushing blocks 302 are fixedly connected to the outer walls of the two crushing rollers 301, the two crushing blocks 302 are symmetrically distributed front and back, and a plurality of crushing hammers 303 are fixedly connected to one side surface of the two crushing blocks 302, which is close to each other;

The inner wall of the swivel 201 at the right part is fixedly connected with an annular gear 205, the outer wall of one side end cover 108 is fixedly connected with an alternating current motor 206, an output shaft of the alternating current motor 206 movably penetrates through the side end cover 108, the output shaft of the alternating current motor 206 is fixedly connected with a driving gear 207, the driving gear 207 is meshed with the annular gear 205, the inner wall of the side end cover 108 at the right part is fixedly connected with a sun gear 2010, the sun gear 2010 is positioned at the periphery of the swivel 201, a plurality of planetary gears 209 are meshed in the sun gear 2010, and the planetary gears 209 are respectively fixedly connected with the right ends of a plurality of reciprocating screw rods 2081;

the two crushing rollers 301 movably penetrate through the two side end covers 108 and are in sliding connection with penetrating holes of the two side end covers 108, the left parts on the outer walls of the two crushing rollers 301 are fixedly connected with turning gears 304, two sliding seats 305 which are distributed front and back are fixedly connected to the inner walls of the side end covers 108 positioned at the left parts, two sliding rods 306 are slidably connected to the inner walls of the two sliding seats 305, top caps 307 are fixedly connected to the tops of the two sliding rods 306, springs 308 are fixedly connected to the bottoms of the two top caps 307, the two springs 308 are respectively sleeved on the peripheries of the two sliding rods 306, the bottom ends of the two springs 308 are fixedly connected with the tops of the two sliding seats 305, the bottom ends of the two sliding rods 306 are jointly connected with a carrying block 309, a force application pressing strip 3010 is fixedly connected to the middle of the top of the carrying block 309 and positioned between the two turning gears 304, the force application pressing strip 3010 is close to the side surfaces of the two turning gears 304 and is fixedly connected with a toothed plate 3011, the two toothed plates 3011 are respectively meshed with the two turning gears 304, the tops of the force application pressing strip 3010 are rotatably connected with a plurality of bosses 3022, and a plurality of bosses 201 are respectively connected to the positions of the bosses 201 of the left end caps 201;

The right ends of the two crushing rollers 301 are fixedly connected with cylindrical blocks 3018, spiral grooves 3019 are formed in the outer walls of the two cylindrical blocks 3018, the spiral directions of the two spiral grooves 3019 are the same, grooved nails 3021 are slidably inserted into the two spiral grooves 3019, the tops of the two grooved nails 3021 are jointly connected with a fixing plate 3020, and the fixing plate 3020 is fixedly connected to the outer wall of one side end cover 108 positioned at the right part;

Specifically, the driving gear 207 is driven by the output shaft of the ac motor 206 to rotate, the ring gear 205 meshed with the driving gear 207 is driven to rotate, the swivel 201 connected with the ring gear 205 is further driven to rotate, the plurality of turning plates 204 are driven to turn over, the dried material is turned over, the uniformity of heating of the material is improved, the material is shoveled upwards along the inner wall of the arc-shaped coaming 1 when the plurality of turning plates 204 turn over, the material is shoveled between the two crushing blocks 302 under the blocking of the arc-shaped side frame 5, the tiny material falls under the two crushing blocks 302 again through the gap between the two crushing blocks 302, the hardened material is clamped between the two crushing blocks 302, the boss 3022 is driven to rotate together when the swivel 201 rotates, the guide wheels 3012 are pushed downwards when the plurality of bosses 3022 sequentially pass through the tops of the guide wheels 3012, the force-applying pressing strips 3010, the carrying blocks 309 and the two sliding bars 306 are further driven to move downwards, simultaneously, under the compression elasticity of the two springs 308 after the two sliding rods 306 move downwards, the force application pressing strips 3010 are made to reciprocate up and down to drive the two toothed plates 3011 to synchronously move, further the two overturning gears 304 meshed with the two toothed plates 3011 are made to reciprocally rotate to drive the two crushing rollers 301 to synchronously reciprocally rotate, further the two crushing blocks 302 are further driven to constantly overturn towards the middle to drive the plurality of crushing hammers 303 to move together, the plurality of crushing hammers 303 can clamp the hardened materials, the clamped materials fall into the bottom part between the two crushing blocks 302, thereby ensuring the consistency and uniformity of material drying, when the two crushing rollers 301 overturn, the two cylindrical blocks 3018 are driven to co-rotate, further the two crushing rollers 301 are made to reciprocally slide left and right in a reciprocal way while being reciprocally overturned under the sliding connection of the two spiral grooves 3019 and the two fixing plates 3020, thereby drive two breaking blocks 302 and a plurality of breaking hammer 303 and move simultaneously to the clamp force is exerted to the hardened material to a plurality of breaking hammer 303, still can exert the left and right directions to send out tearing force to the material, thereby guaranteed to break the piece reduction to some hard-to-break hardened material.

Embodiment two:

On the basis of the first embodiment, a plurality of bearing brackets 208 are fixedly connected to the outer walls of two swivel 201, the plurality of bearing brackets 208 are positioned between two adjacent turning plates 204, a reciprocating screw rod 2081 is rotatably connected between the left and right bearing brackets 208, a sector scraper 2011 is connected to the outer walls of the reciprocating screw rod 2081 in a matched manner by threads, clearance fit is formed between the plurality of sector scrapers 2011 and the inner walls of two arc-shaped coamings 1, two supporting bars 2012 are fixedly connected to the scooping surfaces of the sector scrapers 2011, one ends of the two supporting bars 2012, which are far away from the sector scrapers 2011, are commonly connected with a spreading scraping bar 2013, side end covers 108 are fixedly connected to the left side surfaces and the right side surfaces of the two arc-shaped coamings 1, rotating ring blocks 203 are fixedly connected to one side surface, which is far away from the two side surfaces of the two swivel rings 201, the outer walls of the two rotating ring blocks 203 are respectively connected with the inner walls of the two rotating ring grooves 202 in a clearance fit manner, two guide holes 2014 are respectively formed in the left side surfaces and the right side surfaces of the sector scrapers 2011, two guide holes 2014 are respectively connected with two guide rings 2014 in a sliding manner, and two guide holes 2014 are fixedly connected to the inner sides of the two guide rings 2014 are respectively;

Specifically, through setting up rotatory ring piece 203 and the rotatory annular 202 sliding connection, further install the rotation of two swivel rings 201 on the inner wall of two side end covers 108, thereby guaranteed the rotatory smoothness and the stability of a plurality of turning over material boards 204, drive bearing bracket 208 with changeing when two swivel rings 201 rotate, further will drive a plurality of reciprocating screw 2081 and rotate along swivel ring 201, a plurality of planetary gear 209 can roll along sun gear 2010 during, thereby can synchronous rotation when a plurality of reciprocating screw 2081 rotate along swivel ring 201, drive the sector scraper 2011 with reciprocating screw 2081 threaded connection about reciprocating motion, with the material that piles up between two arc bounding wall 1 to both sides flat spreading, make the material can be with the equal thickness flat distribution on the inner wall of arc bounding wall 1 with a plurality of stoving hole 102 fully contact, further promote the drying efficiency of material, can drive the horizontal hunting of flat bar 2013 through the connection of two support bars when fan scraper 2011 swings about, scrape the material that the turning over material board 204 is scraped up, simultaneously, the excessive running of the material that will be scraped from the single piece of scraping back down can be avoided, thereby the excessive running material between two pieces of the rolling over material boards 204 has been guaranteed, and the equipment of rolling over between the two pieces is avoided to have been reasonable.

Embodiment III:

On the basis of the first embodiment, the twisting assembly 3 further comprises two hammering rollers 3013 which are distributed back and forth, the two hammering rollers 3013 are positioned at the bottoms of the two crushing rollers 301, a plurality of hammer handles 3014 which are distributed left and right are fixedly connected to the outer walls of the two hammering rollers 3013, knocking hammers 3015 are fixedly connected to one ends of the hammer handles 3014, which are far away from the hammering rollers 3013, and the knocking hammers 3015 are positioned at one side, far away from the crushing hammers 303, of the crushing blocks 302;

the two hammering rollers 3013 movably penetrate through the two side end covers 108 and are rotatably connected with penetrating holes of the two side end covers 108, the right parts of the outer walls of the two hammering rollers 3013 are fixedly connected with first gears 3016, the tops of the two first gears 3016 are meshed with second gears 3017, the width of the two second gears 3017 is smaller than that of the two first gears 3016, and the inner walls of the two second gears 3017 are fixedly connected with the outer walls of the two crushing rollers 301 respectively;

Specifically, when the two crushing rollers 301 drive the two crushing blocks 302 to repeatedly overturn, the two second gears 3017 are also driven to synchronously overturn, so that the two first gears 3016 are driven to overturn under the meshing of the two first gears 3016, the two hammering rollers 3013 connected with the two first gears 3016 are further driven to reversely overturn with the two crushing rollers 301, when the two crushing rollers 301 drive the two crushing blocks 302 to overturn towards the middle, the two hammering rollers 3013 drive the hammer handles 3014 and the hammering hammers 3015 to swing towards two sides, and when the two crushing rollers 301 drive the two crushing blocks 302 to overturn towards two sides, the two hammering rollers 3013 drive the hammer handles 3014 and the hammering hammers 3015 to swing towards the middle, and the materials attached to the two crushing blocks 302 and the surface parts of the crushing hammers 303 fall under the action of the hammering vibration of the hammering hammers 3015, so that a large amount of materials attached to the crushing blocks 302 and the crushing hammers 303 are avoided.

Embodiment four:

on the basis of the first embodiment, the inside of the two arc-shaped coaming plates 1 is provided with a blast cavity 101, the inner walls of the two arc-shaped coaming plates 1 are provided with a plurality of drying holes 102 in a penetrating way, the drying holes 102 are communicated with the inside of the blast cavity 101, the outer walls of the two arc-shaped coaming plates 1 are provided with air inlets 103 in a penetrating way, the air inlets 103 are communicated with the inside of the blast cavity 101, the outer walls of the two arc-shaped coaming plates 1 are fixedly connected with air collecting hoods 104, the two air collecting hoods 104 are respectively positioned at the periphery of the openings of the two air inlets 103, the left parts of the two arc-shaped coaming plates 1 are provided with hot air blowers 4, the output ends of the hot air blowers 4 are fixedly connected with two hot air pipes 401, and the two hot air pipes 401 are respectively fixedly connected with left end connecting ports of the two air collecting hoods 104;

Specifically, after hot air is generated by the air heater 4 and enters the two air collecting hoods 104 through the two hot air pipes 401, the hot air is immediately discharged into the two air blowing cavities 101 through the two air inlets 103, and is then output outwards through the plurality of drying holes 102, so that the materials are heated and dried.

Two arc-shaped side frames 5 which are distributed front and back are fixedly connected between the two side end covers 108, and the outer diameters of the two arc-shaped side frames 5 are the same as the rotation inner diameters of the plurality of turning plates 204;

Specifically, when the material turning plate 204 turns upwards when the material is scooped up, the material turning plate 204 moves against the outer wall of the arc-shaped side frames 5, the material is not scattered downwards, and when the material turning plate 204 turns between the two arc-shaped side frames 5, the material turning plate 204 is not blocked by the arc-shaped side frames 5, and the material is put between the two crushing blocks 302 for crushing.

The tops of the two arc coamings 1 are connected with a feed hopper 105 together, the tops of the feed hopper 105 are connected with a flip 106 through hinges in a rotating mode, the bottoms of the two arc coamings 1 are connected with a connecting arc plate 107 together, the bottoms of the connecting arc plates 107 are provided with a discharging hole in a penetrating mode, and a discharging sealing plate 109 is arranged in the discharging hole in a rotating mode through the hinges;

specifically, by opening the flip cover 106, the material to be baked can be put between the two arc coamings 1 from the hopper 105, and after the material is dried, the material can be discharged from the discharge hole after the discharge seal plate 109 is opened.

When the high-energy-efficiency drying equipment works, materials to be dried can be put between two arc coamings 1 from a charging hopper 105 by opening a flip cover 106, hot air is generated by a hot air blower 4 and is input into the two air gathering covers 104 by two hot air pipes 401, then the materials are discharged into the two air blowing cavities 101 through two air inlets 103, and then the materials are output outwards through a plurality of drying holes 102, so that the materials are heated and dried;

During the process, an alternating current motor 206 is started, the driving gear 207 is driven to rotate through the output shaft of the alternating current motor 206, the annular gear 205 meshed with the driving gear 207 is driven to rotate, the swivel 201 connected with the annular gear 205 is further driven to rotate, the plurality of material turning plates 204 are driven to turn over, the dried materials are turned over, the heating uniformity of the materials is improved, the plurality of material turning plates 204 can upwards shovel the materials along the inner wall of the arc-shaped coaming 1 when turning over, the materials are shoveled between the two crushing blocks 302 under the blocking of the arc-shaped side frames 5, the tiny materials fall under the two crushing blocks 302 again through the gap between the two crushing blocks 302, the hardened materials are clamped between the two crushing blocks 302, the boss 3022 is driven to rotate together when the swivel 201 rotates, and when the plurality of bosses 3022 sequentially pass through the top of the guide wheels 3012, the guide wheel 3012 is pushed downwards to further drive the force application pressing strip 3010, the carrying block 309 and the two sliding rods 306 to move downwards, meanwhile, under the compression elasticity of the two springs 308 after the two sliding rods 306 move downwards, the force application pressing strip 3010 swings up and down to drive the two toothed plates 3011 to move synchronously, further the two turnover gears 304 meshed with the two toothed plates 3011 are driven to rotate reciprocally to drive the two crushing rollers 301 to rotate reciprocally synchronously, further the two crushing blocks 302 are driven to turn over continuously to the middle, the crushing hammers 303 are driven to move together, the crushed materials can be clamped by the crushing hammers 303, and the clamped materials fall into the bottom part between the two crushing blocks 302, so that the consistency and uniformity of material drying are ensured;

when the two swivel 201 rotates to drive the bearing support 208 to rotate simultaneously, the plurality of reciprocating screw rods 2081 are further driven to rotate along with the swivel 201, the plurality of planetary gears 209 roll along the sun gear 2010, so that the plurality of reciprocating screw rods 2081 rotate along with the swivel 201 and synchronously rotate to drive the sector scraping plates 2011 in threaded connection with the reciprocating screw rods 2081 to reciprocate left and right, materials piled between the two arc-shaped coamings 1 are spread out to two sides, the materials can be distributed on the inner wall of the arc-shaped coamings 1 in a uniform thickness and fully contacted with the plurality of drying holes 102, the drying efficiency of the materials is further improved, the spreading scraping strips 2013 are driven to swing left and right through the connection of the two supporting strips 2012 when the sector scraping plates 2011 swing left and right, the materials scraped by the material stirring plates 204 are scraped off from two ends of the material stirring plates 204, the materials scraped off by one time are prevented from being excessively stored between the two crushing blocks 302, and the reasonable operation of equipment is ensured;

When the two crushing rollers 301 turn over, the two cylindrical blocks 3018 are driven to rotate in the same direction, and further under the sliding connection of the two spiral grooves 3019 and the two fixing plates 3020, the two crushing rollers 301 further slide in a left-right reciprocating manner in opposite directions while turning over reciprocally, so that the two crushing blocks 302 and the plurality of crushing hammers 303 are driven to move in the same direction, and a clamping force is applied to the hardened material by the plurality of crushing hammers 303, and a tearing force in the left-right direction is applied to the material, so that the hardened material difficult to crush is ensured to be crushed;

When the two crushing rollers 301 drive the two crushing blocks 302 to repeatedly overturn, the two second gears 3017 are also driven to synchronously overturn, so that the two first gears 3016 are driven to overturn under the meshing of the two first gears 3016, the two hammering rollers 3013 connected with the two first gears 3016 are further driven to reversely overturn with the two crushing rollers 301, when the two crushing rollers 301 drive the two crushing blocks 302 to overturn towards the middle, the two hammering rollers 3013 drive the hammer handles 3014 and the hammering hammers 3015 to swing towards two sides, and when the two crushing rollers 301 drive the two crushing blocks 302 to overturn towards two sides, the two hammering rollers 3013 drive the hammer handles 3014 and the hammering hammers 3015 to swing towards the middle, and the two crushing blocks 302 are knocked, so that materials attached to the surfaces of the two crushing blocks 302 and the crushing hammers 303 are prevented from being shocked down under the action of knocking vibration of the hammering hammers 3015, and a large amount of materials attached to the crushing hammers 303 are avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a high energy efficiency drying equipment which characterized in that: comprises the following steps:

The novel air conditioner comprises two arc-shaped coamings (1) which are distributed front and back and two side end covers (108) which are distributed left and right, wherein an air blowing cavity (101) is formed in each arc-shaped coamings (1), a plurality of drying holes (102) are formed in the inner walls of the arc-shaped coamings (1) in a penetrating mode, the drying holes (102) are communicated with the inner parts of the air blowing cavities (101), air inlets (103) are formed in the outer walls of the arc-shaped coamings (1) in a penetrating mode, the air inlets (103) are communicated with the inner parts of the air blowing cavities (101), air collecting hoods (104) are fixedly connected to the outer walls of the arc-shaped coamings (1), the two air collecting hoods (104) are located at the periphery of the openings of the two air inlets (103) respectively, a hot air blower (4) is arranged at the left part of each arc-shaped coamings (1), two hot air pipes (401) are fixedly connected to the output ends of the hot air blower (4), and the two hot air pipes (401) are fixedly connected with the left end connectors of the two air collecting hoods (104) respectively;

The utility model provides a turn over material subassembly (2), two rotate between arc bounding wall (1) and be equipped with turn over material subassembly (2), turn over material subassembly (2) including two swivel (201) of controlling the distribution, two be connected with a plurality of stirring boards (204) jointly between swivel (201), a plurality of stirring boards (204) are circumference array distribution, and a plurality of stirring boards (204) and the inner wall contact of two arc bounding wall (1), two equal fixedly connected with a plurality of bearing support (208) on the outer wall of swivel (201), a plurality of bearing support (208) all are located between two adjacent stirring boards (204), wherein control two equal rotation between bearing support (208) is connected with reciprocal lead screw 2081), screw thread supporting is connected with fan-shaped scraper blade (2011) on the outer wall of reciprocal lead screw 2081, fan-shaped scraper blade (2011) is close to the flourishing face of stirring board (204) and all fixedly connected with two support bars (2012), two fan-shaped scraper blade 2011) are kept away from the joint of fan-shaped scraper blade 2011 one end 2013.

2. The energy efficient drying apparatus according to claim 1, wherein: two inside rotation of arc bounding wall (1) is equipped with and kneads subassembly (3), it includes crushing roller (301) that two distributes around to knead subassembly (3), two equal fixedly connected with broken piece (302) on the outer wall of crushing roller (301), two on the outer wall of broken piece (302) are front and back symmetric distribution, and two equal fixedly connected with a plurality of quartering hammers (303) on the side that broken piece (302) are close to, it still includes hammering roller (3013) that two distributed around to knead subassembly (3), two hammering roller (3013) are located the bottom of two crushing rollers (301), and two equal fixedly connected with hammer handles (3014) that distribute about on the outer wall of hammering roller (3013), a plurality of hammer handles (3014) keep away from the one end of hammering roller (3013) and equal fixedly connected with hammer (3015), hammer (3015) are located one side that broken piece (302) kept away from hammer (303).

3. The energy efficient drying apparatus according to claim 1, wherein: two all fixedly connected with side end cover (108) on the left surface and the right flank of arc bounding wall (1), two all fixedly connected with connects ring piece (203) soon on the side that side end cover (108) are close to, two all seted up on the side that swivel (201) kept away from mutually and connect annular (202) soon, two the outer wall that connects ring piece (203) soon connects annular (202) inner wall sliding connection with two respectively, guiding hole (2014) that distribute around having all running through in the left surface of fan-shaped scraper blade (2011), guiding hole (2014) inside all slides grafting has direction polished rod (2015), the both ends of direction polished rod (2015) respectively with the medial surface fixed connection of two swivel (201).

4. A high energy efficiency drying apparatus according to claim 3, wherein: the rotary ring is fixedly connected with an inner gear ring (205) on the inner wall of the rotary ring (201) at the right part, one of the rotary ring is fixedly connected with an alternating current motor (206) on the outer wall of the side end cover (108), an output shaft of the alternating current motor (206) movably penetrates through the side end cover (108), a driving gear (207) is fixedly connected on the output shaft of the alternating current motor (206), the driving gear (207) is meshed with the inner gear ring (205), a sun gear (2010) is fixedly connected on the inner wall of the side end cover (108) at the right part, the sun gear (2010) is located at the periphery of the rotary ring (201), a plurality of planetary gears (209) are meshed in the inner portion of the sun gear (2010), and a plurality of planetary gears (209) are fixedly connected with the right ends of a plurality of reciprocating screw rods (2081) respectively.

5. The energy efficient drying apparatus according to claim 2, wherein: the two crushing rollers (301) movably penetrate through the two side end covers (108) and are in sliding connection with penetrating holes of the two side end covers (108), the left part of the outer wall of the crushing roller (301) is fixedly connected with a turnover gear (304), two sliding seats (305) which are distributed front and back are fixedly connected to the inner wall of the side end cover (108) and are positioned at the left part, two sliding rods (306) are slidably connected to the inner wall of the sliding seats (305), top caps (307) are fixedly connected to the tops of the two sliding rods (306), springs (308) are fixedly connected to the bottoms of the two top caps (307), the bottoms of the two springs (308) are respectively sleeved on the peripheries of the two sliding rods (306), the bottoms of the two springs (308) are fixedly connected with the tops of the two sliding seats (305), a carrying block (309) is jointly connected to the bottom ends of the two sliding rods (306), a force application pressing strip (3010) is fixedly connected to the middle of the top of the carrying block (309), the two pressing strips (3010) are positioned between the two toothed plates (3010) and are meshed with the two toothed plates (3011) respectively, a plurality of bosses (3022) are fixedly connected to the inner wall of the swivel (201) at the left part, and the positions of the bosses (3022) respectively correspond to the positions of the material turning plates (204).

6. The energy efficient drying apparatus of claim 5, wherein: two the right-hand member of crushing roller (301) is all fixedly connected with cylinder piece (3018), two all seted up helical groove (3019) on the outer wall of cylinder piece (3018), two helical direction of helical groove (3019) is the same, two the inside of helical groove (3019) is all pegged graft in the slip has grooved nail (3021), two the top of grooved nail (3021) is connected with a fixed plate (3020) jointly, fixed plate (3020) fixed connection is on a side end cover (108) outer wall that is located the right part.

7. The energy efficient drying apparatus of claim 6, wherein: two hammering roller (3013) all activity runs through two side end cover (108) to with two the through-hole rotation of side end cover (108) is connected, two the equal fixedly connected with first gear (3016) in outer wall right part of hammering roller (3013), two the top of first gear (3016) all meshes has second gear (3017), two the width of second gear (3017) is less than the width of two first gears (3016), two the inner wall of second gear (3017) respectively with the outer wall fixed connection of two crushing roller (301).

8. The energy efficient drying apparatus according to claim 1, wherein: two arc side frames (5) which are distributed front and back are fixedly connected between the two side end covers (108), and the outer diameters of the two arc side frames (5) are the same as the rotation inner diameters of the plurality of material turning plates (204).

9. The energy efficient drying apparatus according to claim 1, wherein: two the top of arc bounding wall (1) is connected with loading hopper (105) jointly, the top of loading hopper (105) is connected with flip (106) through the hinge rotation, two the bottom of arc bounding wall (1) is connected with arc connection board (107) jointly, a discharge opening has been seted up in the bottom of connecting arc connection board (107), discharge opening is inside to be equipped with through the hinge rotation and to unload shrouding (109).

10. The energy efficient drying apparatus according to claim 1, wherein: the fan-shaped scraping plates (2011) are in clearance fit with the inner walls of the two arc-shaped coamings (1).