CN108844362B - A second grade drying equipment for fodder - Google Patents

Abstract

The invention discloses secondary drying equipment for feed, which structurally comprises an equipment main body, a processing box, a material pouring hopper, a control panel, an observation window, a conveying platform, a discharge opening and a material loading frame, wherein the processing box is arranged on the surface of the lower left side of the equipment main body and is connected with the processing box through electric welding, the lower part of the material pouring hopper is embedded into the upper part in the processing box, the material pouring hopper is fixedly connected with the processing box through bolts, the control panel is arranged on the upper right part of the front surface of the equipment main body and is electrically connected with the equipment main body, the observation window is provided with 2 observation windows which are respectively arranged in the middle of the front surface of the equipment main body, the observation window and the equipment main body are of an integrated structure, the conveying platform is arranged in the. According to the invention, through the processing box, when the material is dried, the quantitative transmission structure is utilized to perform component processing on the material, so that the phenomenon of material accumulation is reduced, and meanwhile, the material is uniformly laid out through the vibration mechanism, so that the drying efficiency is accelerated, and the working efficiency of a user is effectively improved.

Description

A second grade drying equipment for fodder

Technical Field

The invention relates to the technical field of drying, in particular to secondary drying equipment for feed.

Background

Drying equipment is also known as dryers and dryers. The apparatus for carrying out the drying operation vaporizes the moisture (generally referred to as moisture or other volatile liquid components) in the material by heating to escape so as to obtain a solid material having a prescribed moisture content. The purpose of drying is for material use or further processing requirements. For example, the wood can be dried before making wood mould and woodware to prevent the product from deforming, and the ceramic blank can be dried before calcining to prevent the cracking of the finished product. In addition, the dried material is also convenient to transport and store, such as drying the harvested grain below a certain moisture content to prevent mildew. Since natural drying is far from meeting the requirements of production development, various mechanized dryers are increasingly widely used. However, the drying apparatus of the present invention has the following disadvantages:

1. when the material is dry, it needs the manual work to pave it and puts and carry out the drying, and then leads to work efficiency low.

2. The drying efficiency is influenced by the fact that different materials can be dried uniformly in shapes due to the need of consideration in the drying process.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide secondary drying equipment for feed, so as to solve the problems that the working efficiency is low because the materials in the prior art need to be laid and dried manually when being dried, and the drying efficiency is influenced because different material shapes can be dried uniformly in the drying process.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a secondary drying device for feed structurally comprises a device main body, a processing box, a material pouring hopper, a control panel, an observation window, a conveying platform, a discharge opening and a material loading frame, wherein the processing box is arranged on the lower left side surface of the device main body and is connected with the device main body through electric welding, the lower part of the material pouring hopper is embedded into the upper part in the processing box, the material pouring hopper is fixedly connected with the processing box through bolts, the control panel is arranged on the upper right part of the front surface of the device main body, the control panel is electrically connected with the device main body, the observation window is provided with 2 observation windows which are respectively arranged in the middle of the front surface of the device main body, the observation window and the device main body are of an integrated structure, the conveying platform is arranged in the middle of the device main body, the left part of the conveying platform is connected with the processing box, the discharge opening is arranged in the middle of the lower right surface of the device main body, the discharge, the loading frame is connected with the equipment main body through electric welding, the processing box consists of a power source mechanism, a quantitative transmission structure, a pushing mechanism, a vibration mechanism, a quantity limiting structure, a sliding mechanism and a transmission connecting structure, the power source mechanism is arranged on the inner lower wall of the processing box, the quantitative transmission structure is fixedly arranged below the material pouring hopper and is connected with the power source mechanism in a transmission way, the left part of the pushing mechanism is connected with the upper right part of the quantitative transmission structure by pulling, the upper part of the vibration mechanism is fixedly arranged at the middle lower part of the pushing mechanism, and the left part of the vibration mechanism is parallel to the right part of the quantitative transmission structure, the left lower part of the limit structure is connected with the transmission case of the power source mechanism, and the right upper part of the limit structure is positioned below the vibration mechanism, the sliding mechanism is arranged at the right lower part of the quantity limiting structure, the left part of the transmission connecting structure is connected with the quantity limiting structure through meshing, and the right upper part of the transmission connecting structure is connected with the sliding mechanism through pushing.

As a further scheme of the invention, the power source mechanism comprises a driving motor, a rotating disk, a shaft lever, a winding block, a first transmission rope and a bevel gear, wherein the rotating disk is arranged on the right side surface of the driving motor and connected with the rotating disk through a bolt, the shaft lever is arranged in the middle of the right side surface of the rotating disk and vertically connected with the rotating disk through electric welding, the winding block is arranged in the middle of the shaft lever and connected with the shaft lever through sleeving, the winding block is connected with the quantitative transmission structure through the first transmission rope, the bevel gear is arranged on the right end surface of the shaft lever and connected with the shaft lever through electric welding, and the bevel gear is connected with the quantitative structure through meshing.

As a further scheme of the invention, the quantitative transmission structure comprises a first chain wheel, a first rotary rod, a second chain wheel, a third chain wheel, a transmission belt, a positioning plate, a second rotary rod, a rope, a limiting rotary disc and a third rotary rod, wherein the first rotary rod is arranged in the middle of the front surface of the first chain wheel, the first rotary rod is vertically connected with the first chain wheel through electric welding, the first rotary rod is connected with a winding block through the first transmission rope, the second chain wheel is arranged at the left side of the first chain wheel in parallel, the third chain wheel is arranged at the right side of the first chain wheel in parallel, the first chain wheel, the second chain wheel and the third chain wheel are connected through the transmission belt, the positioning plate is provided with 6 blocks which are respectively arranged on the surface of the transmission belt in uniform and equidistant shapes, the second rotary rod is arranged in the middle of the front surface of the third chain wheel and is vertically connected through electric welding, the limiting rotary, the limiting rotary disc is connected with the pushing mechanism, the third rotary rod is arranged in the middle of the front surface of the limiting rotary disc and is vertically connected through electric welding, and the second rotary rod is connected with the third rotary rod through a rope.

As a further scheme of the invention, the pushing mechanism consists of a track frame, a first movable plate, a fixed seat, a transmission rod, a hinge seat, a first support rod, a second movable plate, a second support rod, a telescopic rod and a U-shaped fixed frame, wherein the track frame is arranged on the right side of the upper wall in the processing box in a cross-shaped structure, the first movable plate is arranged on the left side of the front surface of the track frame, the fixed seat is arranged in the middle of the left surface of the first movable plate, the fixed seat is connected with the first movable plate through electric welding, the right end of the transmission rod is connected with the fixed seat through a hinge, the left end of the transmission rod is connected with a limiting turntable, the hinge seats are respectively provided with 2 hinge seats, the lower parts of the hinge seats are connected with the vibrating mechanism through pushing, the first support rods are provided with 2 support rods, the top ends of the first support rods are connected with the, no. two fly leafs are installed on track frame front surface right side, No. two branches are equipped with 2 altogether, No. two branch tops are connected and its bottom is connected with hinge seat right side through the hinge with No. two fly leaf left side upper surfaces, No. two fly leaf right side surfaces are located to the telescopic link and are connected through the electric welding, the telescopic link right-hand member is installed in processing incasement upper right wall through U type mount.

As a further proposal of the invention, the vibration mechanism consists of a push rod, a transverse plate, a connecting rod, a sleeve I, a spring, a sieve plate and a spring rod, the push rod is arranged on the lower surface of the lower hinge seat and is vertically connected with the hinge seat through electric welding, the transverse plates are arranged on the lower surface of the push rod and connected through electric welding, the connecting rods are provided with 2 connecting rods which are respectively arranged on the left side and the right side of the lower surface of the transverse plates, the connecting rod is vertically connected with the transverse plate through electric welding, the sieve plate is arranged below the transverse plate, the first sleeve is provided with 2 sleeves which are respectively arranged at the left side and the right side of the upper surface of the sieve plate, the first sleeve is vertically connected with the sieve plate through electric welding, the spring is equipped with 2 altogether, the connecting rod lower part stretches into sleeve inside and is connected through the spring, the sieve right-hand member is located to the spring beam, the spring beam is connected through promoting with the sieve.

As a further scheme of the invention, the limit structure consists of a gearwheel, a first limit rod, a first disc, a first positioning buckle, a connecting plate, a second disc and a hinge rod, the bull gear is meshed with the helical gear, the first round disc is arranged at the left lower part of the sieve plate, the first positioning buckle is arranged on the front surface of the first disc and is connected with the first disc through electric welding, the right end of the first limiting rod is connected with the first positioning buckle through buckling, the big gear is connected with the first disc through the first limiting rod, the left end of the connecting plate is arranged on the rear surface of the first disc, the connecting plate is connected with the first disc through electric welding, no. two discs are equipped with 4 altogether and are the equidistance form and locate the connecting plate front surface, the hinge lever is equipped with 4 altogether, No. two discs are connected through hinge lever activity with the connecting plate.

As a further scheme of the invention, the sliding mechanism comprises a second sleeve, a fixed frame, a supporting rod, a wane, a baffle, a thin rod and a gravity hammer, the second sleeve is arranged on the right side of the inner lower wall of the processing box, the second sleeve is connected with the processing box through electric welding, the fixed frame is arranged on the upper surface of the second sleeve, the fixed frame is connected with the second sleeve through electric welding, the lower end of the supporting rod extends into the second sleeve and is fixed through the fixed frame, the middle part of the wane is connected with the upper end of the supporting rod through a hinge, the baffle is arranged on the left side of the upper surface of the wane, the baffle is connected with the wane through electric welding, the thin rods are provided with 2 pieces and are respectively arranged on the left side and the right side of the lower surface of the wane, the thin rod is connected with the wane through electric welding, the gravity hammer is provided with 2 pieces, the gravity hammer is connected with the transmission connecting structure through pushing.

As a further scheme of the invention, the transmission connecting structure consists of a pinion, a second limiting rod, a third disc, a second positioning buckle, a fixed rod, a first cam, a first positioning block, a second transmission rope, a second cam, a second positioning block and a third transmission rope, wherein the pinion is connected with the bull gear through meshing, the left end of the second limiting rod is arranged on the front surface of the pinion and is connected through electric welding, the third disc is arranged at the lower part of the front surface of the second sleeve, the third disc is connected with the second sleeve through electric welding, the second positioning buckle is arranged on the front surface of the third disc and is connected through electric welding, the right end of the second limiting rod is connected with the second positioning buckle through buckling, the fixed rod is arranged in the middle of the front surface of the third disc, the fixed rod is connected with the third disc through electric welding, the first cam is arranged above the left side of the third disc and is positioned on the lower surface of the left gravity hammer, the positioning block is arranged on the middle upper portion of the front surface of the cam, the positioning block is connected with the cam through electric welding, the positioning block is connected with the fixing rod through a transmission rope II, the cam II is arranged on the upper right of the disc III and located on the lower surface of the gravity hammer on the right side, the positioning block II is arranged on the middle lower portion of the front surface of the cam II, the positioning block II is connected with the cam II through electric welding, and the positioning block II is connected with the fixing rod through a transmission rope III.

Advantageous effects of the invention

The invention relates to a secondary drying device for feed, which starts a device main body through a control panel, starts a power source mechanism along with the device main body, pours materials into a material pouring hopper, paves the materials in a processing box, conveys the materials to a conveying platform for drying treatment, discharges the dried materials from a discharge opening, pours the materials into a material loading frame, slides the materials from the material pouring hopper to the upper part of a quantitative transmission structure, performs component blocking through a positioning plate, conveys the materials to the upper surface of a sieve plate under the anticlockwise rotation of a transmission belt, simultaneously pulls a movable plate through a transmission rod by a pushing mechanism under the action of a limit turntable for moving the pushing mechanism left and right synchronously, drives the pushing mechanism connected with a transverse plate to move up and down through a push rod, further performs vibration screening under the up and down movement of the transverse plate, and screens the materials from the upper part of the quantitative structure to the upper surface of the sliding mechanism, the big gear wheel and the helical gear are meshed with each other to synchronously rotate clockwise, the first round disc is driven to synchronously rotate through the first limiting rod, the second round disc is driven to synchronously rotate through the connecting plate arranged on the rear surface of the first round disc through the hinge rod under the action of the connecting plate, so as to crush the larger materials falling from the sieve, the pinion arranged on the lower surface of the big gear synchronously rotates clockwise through meshing, the third disc is pulled to synchronously rotate by buckling a second limiting rod and a second positioning buckle arranged on the front surface of the third disc, the first cam and the second cam synchronously rotate with the third disc through a second transmission rope and a third transmission rope respectively, the gravity hammer is pushed leftwards, rightwards, upwards and downwards by the first cam and the second cam respectively to drive the wane to move upwards and downwards on two sides, then the scattered materials are poured into the conveying platform through moving up and down on the upper surface of the warping plate; on the contrary, the power source mechanism is closed through the control panel, so that the whole processing box stops rotating, the push rod moves upwards along with the connecting rod under the upward elasticity of the spring and returns to the initial state, and the pushing mechanism drives the first movable plate and the second movable plate to move inwards to two sides under the action of the pushing mechanism and return to the initial track.

According to the secondary drying equipment for the feed, when the material is dried, the quantitative transmission structure is utilized to conduct component processing on the material, the phenomenon of material accumulation is reduced, meanwhile, the material is uniformly laid out through the vibration mechanism, the drying efficiency is accelerated, and the working efficiency of a user is effectively improved.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural view of a secondary drying apparatus for fodder according to the present invention.

FIG. 2 is a plan view of the structure of the processing box of the present invention.

FIG. 3 is a plan view showing a detailed structure of a processing box according to the present invention.

Fig. 4 is a detailed structural diagram of a processing box according to the present invention.

In the figure: the device comprises a device main body-1, a processing box-2, a material pouring hopper-3, a control panel-4, an observation window-5, a conveying platform-6, a discharge opening-7, a material loading frame-8, a power source mechanism-20, a quantitative transmission structure-21, a pushing mechanism-22, a vibrating mechanism-23, a quantity limiting structure-24, a sliding mechanism-25, a transmission connection structure-26, a driving motor-201, a rotating disk-202, a shaft rod-203, a wire winding block-204, a first transmission rope-205, a helical gear-206, a first chain wheel-210, a first rotating rod-211, a second chain wheel-212, a third chain wheel-213, a transmission belt-214, a positioning plate-215, a second rotating rod-216, a rope-217, a first rotating rod-217, a second rotating rod-213, a limit turntable-218, a third rotating rod-219, a track frame-220, a first movable plate-221, a fixed seat-222, a transmission rod-223, a hinge seat-224, a first support rod-225, a second movable plate-226, a second support rod-227, a telescopic rod-228, a U-shaped fixed frame-229, a push rod-230, a transverse plate-231, a connecting rod-232, a first sleeve-233, a spring-234, a sieve plate-235, a spring rod-236, a bull gear-240, a first limit rod-241, a first disc-242, a first positioning buckle-243, a connecting plate-244, a second disc-245, a hinge rod-246, a second sleeve-250, a fixed frame-251, a support rod-252, a warping plate-253, a baffle-254, a second positioning buckle, The device comprises a thin rod-255, a gravity hammer-256, a pinion-260, a second limiting rod-261, a third disc-262, a second positioning buckle-263, a fixed rod-264, a first cam-265, a first positioning block-266, a second transmission rope-267, a second cam-268, a second positioning block-269 and a third transmission rope-2610.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-4, the present invention provides a technical solution of a secondary drying apparatus for fodder:

a secondary drying device for feed comprises a device main body 1, a processing box 2, a dumping hopper 3, a control panel 4, an observation window 5, a conveying platform 6, a discharge opening 7 and a loading frame 8, wherein the processing box 2 is arranged on the lower left side surface of the device main body 1 and is connected with the left side surface of the device main body by electric welding, the lower part of the dumping hopper 3 is embedded into the upper part of the processing box 2, the dumping hopper 3 is fixedly connected with the processing box 2 by bolts, the control panel 4 is arranged on the upper right part of the front surface of the device main body 1, the control panel 4 is electrically connected with the device main body 1, the observation window 5 is provided with 2 observation windows which are respectively arranged in the middle part of the front surface of the device main body 1, the observation window 5 and the device main body 1 are of an integrated structure, the conveying platform 6 is arranged in the middle part of the device main body 1, the left part of the conveying platform, discharge opening 7 passes through bolt fixed connection with equipment principal 1, material loading frame 8 is located equipment principal 1 right side lower surface and is located under discharge opening 7, material loading frame 8 is connected through the electric welding with equipment principal 1, processing case 2 comprises power source mechanism 20, quantitative transmission structure 21, pushing mechanism 22, vibrations mechanism 23, limit quantity structure 24, landing mechanism 25, transmission connection structure 26, power source mechanism 20 locates processing case 2 inner lower wall, quantitative transmission structure 21 fixed mounting is in pouring hopper 3 below and is connected through the transmission with power source mechanism 20, pushing mechanism 22 left part is connected through the pulling with quantitative transmission structure 21 upper right part, vibrations mechanism 23 upper portion fixed mounting is in pushing mechanism 22 lower part and its left part is parallel with quantitative transmission structure 21 right part, limit quantity structure 24 left lower part is connected with power source mechanism 20 transmission case and its upper right part is located vibrations mechanism 23 below, the sliding mechanism 25 is arranged at the right lower part of the quantity-limiting structure 24, the left part of the transmission connecting structure 26 is connected with the quantity-limiting structure 24 through meshing, the right upper part of the transmission connecting structure is connected with the sliding mechanism 25 through pushing, the power source mechanism 20 is composed of a driving motor 201, a rotating disk 202, a shaft rod 203, a winding block 204, a first transmission rope 205 and a bevel gear 206, the rotating disk 202 is arranged on the right side surface of the driving motor 201 and connected through bolts, the shaft rod 203 is arranged in the middle of the right surface of the rotating disk 202, the shaft rod 203 is vertically connected with the rotating disk 202 through electric welding, the winding block 204 is arranged in the middle of the shaft rod 203, the winding block 204 is connected with the shaft rod 203 through sleeving, the winding block 204 is connected with the quantitative transmission structure 21 through the first transmission rope 205, the bevel gear 206 is arranged on the right end surface of, the bevel gear 206 is connected with the quantity-limiting structure 24 through meshing, the quantity-limiting transmission structure 21 is composed of a first chain wheel 210, a first rotating rod 211, a second chain wheel 212, a third chain wheel 213, a transmission belt 214, a positioning plate 215, a second rotating rod 216, a rope 217, a limiting turntable 218 and a third rotating rod 219, the first rotating rod 211 is arranged in the middle of the front surface of the first chain wheel 210, the first rotating rod 211 is vertically connected with the first chain wheel 210 through electric welding, the first rotating rod 211 is connected with the winding block 204 through the first transmission rope 205, the second chain wheel 212 is arranged at the left side of the first chain wheel 210 in parallel, the third chain wheel 213 is arranged at the right side of the first chain wheel 210 in parallel, the first chain wheel 210, the second chain wheel 211 and the third chain wheel 212 are connected through the transmission belt 214, the positioning plate 215 is provided with 6 blocks and is respectively arranged on the surface of the transmission belt 214 in, the second rotating rod 216 is arranged in the middle of the front surface of the third chain wheel 213 and vertically connected through electric welding, the limiting turntable 218 is arranged above the third chain wheel 213, the limiting turntable 218 is connected with the pushing mechanism 22, the third rotating rod 219 is arranged in the middle of the front surface of the limiting turntable 218 and vertically connected through electric welding, the second rotating rod 216 is connected with the third rotating rod 219 through a rope 217, the pushing mechanism 22 is composed of a track frame 220, a first movable plate 221, a fixed seat 222, a transmission rod 223, a hinge seat 224, a first support rod 225, a second movable plate 226, a second support rod 227, a telescopic rod 228 and a U-shaped fixed seat 229, the track frame 220 is arranged on the right side of the upper wall in the processing box 2 in a cross-shaped structure, the first movable plate 221 is arranged on the left side of the front surface of the track frame 220, and the fixed seat 222 is arranged, the fixed seat 222 is connected with the first movable plate 221 through electric welding, the right end of the transmission rod 223 is connected with the fixed seat 222 through a hinge, the left end of the transmission rod is connected with the limit turntable 218, the hinge seat 224 is provided with 2 hinge seats respectively arranged in the middle of the track frame 220, the lower part of the hinge seat 224 is connected with the vibration mechanism 23 through pushing, the first support rod 225 is provided with 2 support rods, the top end of the first support rod 225 is connected with the right upper surface of the first movable plate 221 through a hinge, the bottom end of the first support rod 225 is connected with the left side of the hinge seat 224, the second movable plate 226 is arranged on the right side of the front surface of the track frame 220, the second support rod 227 is provided with 2 support rods, the top end of the second support rod 227 is connected with the left upper surface of the second movable plate 226 through a hinge, the bottom end of the second support rod, the right end of the telescopic rod 228 is mounted on the right upper wall of the processing box 2 through a U-shaped fixing frame 229, the vibrating mechanism 23 is composed of a push rod 230, a transverse plate 231, a connecting rod 232, a first sleeve 233, springs 234, a sieve plate 235 and a spring rod 236, the push rod 230 is arranged on the lower surface of the lower hinge seat 224, the push rod 230 is vertically connected with the hinge seat 224 through electric welding, the transverse plate 231 is arranged on the lower surface of the push rod 230 and is connected through electric welding, the connecting rod 232 is provided with 2 sleeves and is respectively arranged on the left side and the right side of the lower surface of the transverse plate 231, the connecting rod 232 is vertically connected with the transverse plate 231 through electric welding, the sieve plate 235 is arranged below the transverse plate 231, the first sleeve 233 is provided with 2 sleeves and is respectively arranged on the left side and the right side of the upper surface of the sieve plate 235, the first sleeve 233 is vertically connected with the sieve plate 235 through electric welding, the, the spring rod 236 is arranged at the right end of the sieve plate 235, the spring rod 236 is connected with the sieve plate 235 by pushing, the quantity limiting structure 24 is composed of a bull gear 240, a first limiting rod 241, a first disc 242, a first positioning buckle 243, a connecting plate 244, a second disc 245 and a hinge rod 246, the bull gear 240 is connected with the bevel gear 206 by meshing, the first disc 242 is arranged at the lower left of the sieve plate 235, the first positioning buckle 243 is arranged on the front surface of the first disc 242, the first positioning buckle 243 is connected with the first disc 242 by electric welding, the right end of the first limiting rod 241 is connected with the first positioning buckle 243 by buckling, the bull gear 240 is connected with the first disc 242 by the first limiting rod 241, the left end of the connecting plate 244 is arranged on the rear surface of the first disc 242, the connecting plate 244 is connected with the first disc 242 by electric welding, the second disc 245 is provided with 4 pieces which are arranged on the front surface of the connecting plate 244 in an equidistant manner, the hinge rod 246 is provided with 4 pieces, the second disc 245 is movably connected with the connecting plate 244 through the hinge rod 246, the sliding mechanism 25 is composed of a second sleeve 250, a fixing frame 251, a supporting rod 252, a warping plate 253, a baffle plate 254, a thin rod 255 and a gravity hammer 256, the second sleeve 250 is arranged on the right side of the inner lower wall of the processing box 2, the second sleeve 250 is connected with the processing box 2 through electric welding, the fixing frame 251 is arranged on the upper surface of the second sleeve 250, the fixing frame 251 is connected with the second sleeve 250 through electric welding, the lower end of the supporting rod 252 extends into the second sleeve 250 and is fixed through the fixing frame 251, the middle part of the warping plate 253 is connected with the upper end of the supporting rod 252 through a hinge, the baffle plate 254 is arranged on the left side of the upper surface of the warping plate 253, the baffle plate 254 is connected with the warping plate 253 through electric welding, the thin rod 255 is provided with 2, the thin rod 255 is connected with the warping plate 253 through electric welding, the gravity hammer 256 is provided with 2 blocks which are respectively arranged on the lower surface of the thin rod 255, the gravity hammer 256 is connected with the thin rod 255 through electric welding, the gravity hammer 256 is connected with the transmission connecting structure 26 through pushing, the transmission connecting structure 26 consists of a pinion gear 260, a second limiting rod 261, a third disc 262, a second positioning buckle 263, a fixing rod 264, a first cam 265, a first positioning block 266, a second transmission rope 267, a second cam 268, a second positioning block 269 and a third transmission rope 2610, the pinion gear 260 is connected with the large gear 240 through meshing, the left end of the second limiting rod 261 is arranged on the front surface of the pinion gear 260 and connected through electric welding, the third disc 262 is arranged on the lower part of the front surface of the second sleeve 250, the third disc 262 is connected with the second sleeve 250 through electric welding, the second positioning buckle 263 is arranged on the front surface of the third positioning buckle 262 and connected through electric welding, the right end of the second limiting rod 261 is connected with the second positioning buckle 263 in a buckling manner, the fixed rod 264 is arranged in the middle of the front surface of the third disc 262, the fixed rod 264 is connected with the third disc 262 through electric welding, the first cam 265 is arranged at the upper left of the third disc 262 and is positioned on the lower surface of the left gravity hammer 256, the first positioning block 266 is arranged at the middle upper part of the front surface of the first cam 265, the first positioning block 266 is connected with the first cam 265 through electric welding, the first positioning block 266 is connected with the fixing rod 264 through a second transmission rope 267, second cam 268 is disposed above and to the right of third disk 262 and is located on the lower surface of right weight 256, the second positioning block 269 is arranged at the middle lower part of the front surface of the second cam 268, the second positioning block 269 is connected with the second cam 268 through electric welding, the second positioning block 269 is connected with the fixing rod 264 through a third transmission rope 2610.

The invention relates to secondary drying equipment for feed, which has the working principle that: the equipment main body 1 is started through the control panel 4, then the power source mechanism 20 is started, materials are poured into the dumping hopper 3, the materials pass through the processing box 2 and are paved in the processing box, the materials are conveyed to the conveying platform 6 for drying treatment, the dried materials are discharged from the discharge opening 7 and are poured into the material loading frame 8, the materials slide to the upper part of the quantitative transmission structure 21 from the dumping hopper 3, component blocking is carried out through the positioning plate 215, meanwhile, the materials are conveyed to the upper surface of the sieve plate 235 under the anticlockwise rotation of the transmission belt 214, meanwhile, the pushing mechanism 22 pulls a movable plate 221 to move left and right synchronously under the action of the limiting turntable 218, the pushing mechanism 22 connected with the transverse plate 231 through the push rod 230 drives the pushing mechanism 22 to move up and down, further, the materials on the upper part of the sieve plate 235 are vibrated and sieved under the up and down movement of the transverse plate 231, and the materials fall from the upper part of the limiting structure 24, the bull gear 240 and the bevel gear 206 rotate clockwise synchronously by meshing, the first disc 242 is driven to rotate synchronously by the first limiting rod 241, the second disc 245 is driven to rotate by the connecting plate 244 arranged on the rear surface of the first disc 242 under the action of the first limiting rod 246 so as to crush the larger materials falling from the sieve, the pinion gear 260 arranged on the lower surface of the bull gear 240 rotates clockwise synchronously by meshing, the second limiting rod 261 and the second positioning buckle 263 arranged on the front surface of the third disc 262 pull the third disc 262 to rotate synchronously by buckling, the first cam 265 and the second cam 268 rotate synchronously with the third disc 262 by the second transmission rope 267 and the third transmission rope 2610 respectively, the gravity hammer 256 is pushed left and right by the first cam 265 and the second cam 268 respectively to drive the wane 253 to move up and down on two sides, then the scattered materials are poured into the conveying platform 6 on the upper surface of the warping plate 253 through moving up and down; on the contrary, the power source mechanism 20 is turned off by the control panel 4, so that the whole processing box 2 stops rotating, the push rod 230 moves upwards under the upward elasticity of the spring 234 of the connecting rod 232, and returns to the initial state, and the pushing mechanism 22 also drives the first movable plate 221, the second movable plate 226 moves inwards to both sides under the action of the connecting rod, and returns to the initial track.

The invention solves the problems that in the prior art, when materials are dried, the materials need to be laid and placed manually for drying, so that the working efficiency is low, and the drying efficiency is influenced because different material shapes can be dried uniformly in the drying process.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a second grade drying equipment for fodder, its structure includes equipment main part (1), processing case (2), falls hopper (3), control panel (4), observation window (5), conveying platform (6), discharge opening (7), material loading frame (8), its characterized in that: the processing box (2) is arranged at the lower part of the left side surface of the equipment main body (1) and is connected with the processing box (2) through electric welding, the lower part of the material pouring hopper (3) is embedded into the upper part of the processing box (2), the material pouring hopper (3) is fixedly connected with the processing box (2) through bolts, the control panel (4) is arranged at the right upper part of the front surface of the equipment main body (1), the control panel (4) is electrically connected with the equipment main body (1), 2 observation windows (5) are arranged in the middle of the front surface of the equipment main body (1) respectively, the observation windows (5) and the equipment main body (1) are of an integrated structure, the conveying platform (6) is arranged at the middle part of the inside of the equipment main body (1) and the left part of the conveying platform is connected with the processing box (2), the discharge opening (7) is arranged at the middle part of the right side surface of the equipment main body (1), the charging frame (8) is arranged on the right lower surface of the equipment main body (1) and is positioned right below the discharge port (7), and the charging frame (8) is connected with the equipment main body (1) through electric welding; the processing box (2) consists of a power source mechanism (20), a quantitative transmission structure (21), a pushing mechanism (22), a vibration mechanism (23), a limit structure (24), a sliding mechanism (25) and a transmission connection structure (26), wherein the power source mechanism (20) is arranged on the inner lower wall of the processing box (2), the quantitative transmission structure (21) is fixedly arranged below the dumping hopper (3) and is connected with the power source mechanism (20) through transmission, the left part of the pushing mechanism (22) is connected with the right upper part of the quantitative transmission structure (21) through pulling, the upper part of the vibration mechanism (23) is fixedly arranged on the middle lower part of the pushing mechanism (22) and the left part of the vibration mechanism is parallel to the right part of the quantitative transmission structure (21), the left lower part of the limit structure (24) is connected with the transmission box of the power source mechanism (20) and the right upper part of the vibration mechanism (23) is arranged below the vibration mechanism, the sliding mechanism (25) is arranged at the right lower part of the limit structure (24), the left part of the transmission connecting structure (26) is connected with the limit structure (24) through meshing, and the right upper part of the transmission connecting structure is connected with the sliding mechanism (25) through pushing.

2. A secondary drying apparatus for fodder, according to claim 1, characterized in that: the power source mechanism (20) consists of a driving motor (201), a rotating disk (202), a shaft lever (203), a winding block (204), a first transmission rope (205) and a helical gear (206), the rotating disc (202) is arranged on the right side surface of the driving motor (201) and connected through a bolt, the shaft lever (203) is arranged in the middle of the right surface of the rotating disk (202), the shaft lever (203) is vertically connected with the rotating disk (202) through electric welding, the winding block (204) is arranged in the middle of the shaft lever (203), the winding block (204) is connected with the shaft lever (203) through sleeving, the winding block (204) is connected with the quantitative transmission structure (21) through a first transmission rope (205), the bevel gear (206) is arranged on the right end surface of the shaft lever (203), the bevel gear (206) is connected with the shaft lever (203) through electric welding, the helical gear (206) is connected with the limit structure (24) through meshing.

3. A secondary drying apparatus for fodder, according to claim 1, characterized in that: the quantitative transmission structure (21) consists of a first chain wheel (210), a first rotating rod (211), a second chain wheel (212), a third chain wheel (213), a transmission belt (214), a positioning plate (215), a second rotating rod (216), a rope (217), a limiting turntable (218) and a third rotating rod (219), wherein the first rotating rod (211) is arranged in the middle of the front surface of the first chain wheel (210), the first rotating rod (211) is vertically connected with the first chain wheel (210) through electric welding, the first rotating rod (211) is connected with a winding block (204) through a transmission rope (205), the second chain wheel (212) is arranged on the left side of the first chain wheel (210) in parallel, the third chain wheel (213) is arranged on the right side of the first chain wheel (210) in parallel, the first chain wheel (210), the second chain wheel (211) is connected with the third chain wheel (212) through the transmission belt (214), locating plate (215) are equipped with 6 pieces altogether and are even equidistance form respectively and locate driving belt (214) surface, No. two rotary rods (216) are located No. three sprocket (213) front surface middle parts and are connected perpendicularly through the electric welding, No. three sprocket (213) tops are located to spacing carousel (218), spacing carousel (218) are connected with pushing mechanism (22), No. three rotary rod (219) are located spacing carousel (218) front surface middle part and are connected perpendicularly through the electric welding, No. two rotary rod (216) are connected through rope (217) with No. three rotary rod (219).

4. A secondary drying apparatus for fodder according to claim 1 or 3, characterized in that: the pushing mechanism (22) comprises a track frame (220), a first movable plate (221), a fixed seat (222), a transmission rod (223), a hinge seat (224), a first support rod (225), a second movable plate (226), a second support rod (227), a telescopic rod (228) and a U-shaped fixed frame (229), wherein the track frame (220) is arranged on the right side of the inner upper wall of the processing box (2) in a cross structure, the first movable plate (221) is arranged on the left side of the front surface of the track frame (220), the fixed seat (222) is arranged in the middle of the left surface of the first movable plate (221), the fixed seat (222) is connected with the first movable plate (221) through electric welding, the right end of the transmission rod (223) is connected with the fixed seat (222) through a hinge, the left end of the transmission rod is connected with the limiting turntable (218), the hinge seats (224) are provided with 2 and are respectively arranged in the middle, hinge seat (224) lower part is connected through promoting with vibrations mechanism (23), a branch (225) are equipped with 2 altogether, a branch (225) top is connected and its bottom is connected with hinge seat (224) left side with an fly leaf (221) upper right surface through the hinge, No. two fly leaves (226) are installed on track frame (220) front surface right side, No. two branch (227) are equipped with 2 altogether, No. two branch (227) top is connected and its bottom is connected with hinge seat (224) right side through the hinge with No. two fly leaf (226) upper left surfaces, No. two fly leaf (226) right side surfaces are located and are connected through the electric welding to telescopic link (228), telescopic link (228) right-hand member is installed in processing case (2) upper right wall through U type mount (229).

5. A secondary drying apparatus for fodder, according to claim 1, characterized in that: the vibration mechanism (23) comprises a push rod (230), a transverse plate (231), a connecting rod (232), a first sleeve (233), a spring (234), a sieve plate (235) and a spring rod (236), wherein the push rod (230) is arranged on the lower surface of a lower hinge seat (224), the push rod (230) is vertically connected with the hinge seat (224) through electric welding, the transverse plate (231) is arranged on the lower surface of the push rod (230) and is connected with the transverse plate through electric welding, the connecting rod (232) is provided with 2 sleeves and is respectively arranged on the left side and the right side of the lower surface of the transverse plate (231), the connecting rod (232) is vertically connected with the transverse plate (231) through electric welding, the sieve plate (235) is arranged below the transverse plate (231), the first sleeve (233) is provided with 2 sleeves and is respectively arranged on the left side and the right side of the upper surface of the sieve plate (235), the first sleeve (233) is, the sieve plate is characterized in that 2 springs (234) are arranged, the lower portion of the connecting rod (232) extends into the first sleeve (233) and is connected with the first sleeve through the springs (234), the spring rod (236) is arranged at the right end of the sieve plate (235), and the spring rod (236) is connected with the sieve plate (235) through pushing.

6. A secondary drying apparatus for fodder according to claim 1 or 2, characterized in that: the quantity limiting structure (24) is composed of a bull gear (240), a first limiting rod (241), a first disc (242), a first positioning buckle (243), a connecting plate (244), a second disc (245) and a hinge rod (246), the bull gear (240) is connected with a helical gear (206) in a meshing mode, the first disc (242) is arranged on the lower left side of the sieve plate (235), the first positioning buckle (243) is arranged on the front surface of the first disc (242), the first positioning buckle (243) is connected with the first disc (242) through electric welding, the right end of the first limiting rod (241) is connected with the first positioning buckle (243) in a buckling mode, the bull gear (240) is connected with the first disc (242) through the first limiting rod (241), the left end of the connecting plate (244) is arranged on the rear surface of the first disc (242), and the connecting plate (244) is connected with the first disc (242) through electric welding, no. two discs (245) are equipped with totally 4 and locate connecting plate (244) front surface in the equidistance form, hinge rod (246) are equipped with totally 4, No. two discs (245) are connected through hinge rod (246) activity with connecting plate (244).

7. A secondary drying apparatus for fodder, according to claim 1, characterized in that: the sliding mechanism (25) is composed of a second sleeve (250), a fixing frame (251), a supporting rod (252), a warping plate (253), a baffle plate (254), a thin rod (255) and a gravity hammer (256), the second sleeve (250) is arranged on the right side of the inner lower wall of the processing box (2), the second sleeve (250) is connected with the processing box (2) through electric welding, the fixing frame (251) is arranged on the upper surface of the second sleeve (250), the fixing frame (251) is connected with the second sleeve (250) through electric welding, the lower end of the supporting rod (252) extends into the second sleeve (250) and is fixed through the fixing frame (251), the middle part of the warping plate (253) is connected with the upper end of the supporting rod (252) through a hinge, the baffle plate (254) is arranged on the left side of the upper surface of the warping plate (253), the baffle plate (254) is connected with the warping plate (253) through electric welding, the thin rod (255) is provided with 2 tilting plates (253) and is respectively arranged on, thin pole (255) are connected through the electric welding with wane (253), gravity hammer (256) are equipped with 2 altogether and locate thin pole (255) lower surface respectively, gravity hammer (256) are connected through the electric welding with thin pole (255), gravity hammer (256) are connected through promoting with transmission connection structure (26).

8. A secondary drying apparatus for fodder according to claim 1 or 7, characterized in that: the transmission connecting structure (26) consists of a pinion (260), a second limiting rod (261), a third disc (262), a second positioning buckle (263), a fixed rod (264), a first cam (265), a first positioning block (266), a second transmission rope (267), a second cam (268), a second positioning block (269) and a third transmission rope (2610), wherein the pinion (260) is connected with the gearwheel (240) in a meshing manner, the left end of the second limiting rod (261) is arranged on the front surface of the pinion (260) and connected with the front surface of the second limiting rod through electric welding, the third disc (262) is arranged on the lower part of the front surface of the second sleeve (250), the third disc (262) is connected with the second sleeve (250) through electric welding, the second positioning buckle (263) is arranged on the front surface of the third disc (262) and connected with the third positioning buckle (263), and the right end of the second limiting rod (261) is connected with the second positioning buckle (263) through buckling, the fixed rod (264) is arranged in the middle of the front surface of the third disc (262), the fixed rod (264) is connected with the third disc (262) through electric welding, the first cam (265) is arranged at the left upper part of the third disc (262) and is positioned on the lower surface of the left gravity hammer (256), the first positioning block (266) is arranged at the middle upper part of the front surface of the first cam (265), the first positioning block (266) is connected with the first cam (265) through electric welding, the first positioning block (266) is connected with the fixed rod (264) through a second transmission rope (267), the second cam (268) is arranged at the right upper part of the third disc (262) and is positioned on the lower surface of the right gravity hammer (256), the second positioning block (269) is arranged at the middle lower part of the front surface of the second cam (268), the second positioning block (269) is connected with the second cam (268) through electric welding, the second positioning block (269) is connected with the fixing rod (264) through a third transmission rope (2610).

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