CN114982987B - Pet feed reprocessing equipment with anti-adhesion function - Google Patents

Abstract

The invention relates to the field of feed processing and preparation, in particular to pet feed reprocessing equipment with an anti-adhesion function. The technical problem is as follows: the moisture of the agglomerated pet feed cannot be dried, so that the agglomerated pet feed is easy to mildew and deteriorate, and the oil-mixed pet feed is extremely easy to wrap by fine powder and cannot be fully contacted with grease in subsequent oil change, so that the quality of the pet feed is influenced. The technical scheme is as follows: a pet feed reprocessing device with an anti-adhesion function comprises a transfer component and a feed processing mechanism, wherein the transfer component is arranged on the right side of a bottom frame; the right side of the transfer component is provided with a feed processing mechanism. The invention rubs and dries the grease feed through the first heating plate, and the fallen grease feed generates slight jump under the inclined action of the second supporting plate, the powder adhered to the outer surface of the grease feed falls off, so that the grease feed can be better contacted with grease during subsequent oil change, the oil absorption of the grease feed is enhanced, and the quality of the grease feed is better.

Description

Pet feed reprocessing equipment with anti-adhesion function

Technical Field

The invention relates to the field of feed processing and preparation, in particular to pet feed reprocessing equipment with an anti-adhesion function.

Background

When the pet feed is produced, special nutrient substances are required to be added into some pet feeds to meet the requirements, wherein some grease is added into the feed, so that higher energy concentration can be provided in a smaller space, the requirements of partial pets on high energy are met, the concentrations of other nutrient components can be improved, and the normal growth and development of the pets are ensured.

At present after pet feed shaping, carry out the drying earlier then stirring the oil, carry out the drying and trade the oil afterwards, trade the feed processing preparation that the oil can realize different tastes, because after stirring the oil, the easy adhesion pet feed of grease, and then cause the caking of pet feed, pet feed after the caking can lead to the unable stoving of inside moisture, so can lead to the pet feed to go mildy and go bad, and then can influence the quality of fodder, can cause the difficult preservation of fodder simultaneously, and pet feed after stirring the oil still very easily is wrapped up by tiny powder, in follow-up oil change, pet feed can't fully contact with the grease, thereby can influence the quality of pet feed.

Disclosure of Invention

The invention provides pet feed reprocessing equipment with an anti-adhesion function, and aims to overcome the defects that the moisture in the agglomerated pet feed cannot be dried, the pet feed is easy to mildew and deteriorate, and the pet feed mixed with oil is extremely easy to wrap by fine powder, so that the pet feed cannot be fully contacted with grease in subsequent oil change, and the quality of the pet feed is influenced.

The technical scheme is as follows: the utility model provides a pet fodder reprocessing equipment with antiseized even function, including the chassis, the cask, first sieve dish, the second sieve dish, break up the subassembly, transfer subassembly and fodder processing mechanism, chassis middle part bolt has the cask, the first sieve dish of middle part fixedly connected with in the cask, lower part fixedly connected with second sieve dish in the cask, chassis upside rear portion is connected with breaks up the subassembly, the right-hand transfer subassembly that is used for following the fodder with the fodder and shifts away from the cask, the transfer subassembly is connected with the cask, the right-hand fodder processing mechanism who is used for the outside powder of fodder to handle that is provided with of transfer subassembly.

More preferably, the feed processing mechanism is including the support frame, the second backup pad, the removal subassembly, touching subassembly, the third connecting plate, the spring post, first hot plate, the cylinder, the second discharging pipe, dysmorphism board and second hot plate, the right-hand two support frames that are provided with of transfer subassembly, two support frame upside fixedly connected with from the front top to the second backup pad of below slope backward, second backup pad upside front portion and upside rear portion respectively are connected with a removal subassembly, second backup pad upside front portion and upside rear portion respectively are connected with a touching subassembly, two touching subassemblies are located the outside of two removal subassemblies, it has four spouts that are the equidistance and distribute around being to open in the second backup pad, the spout contacts with the transfer subassembly, four spouts are the echelonment setting from the past backward, two removal subassembly downside respectively are connected with the third connecting plate, two spring post downside respectively fixedly connected with two spring posts of two connection plate in the place ahead, two spring post downside fixedly connected with first hot plate in place ahead, two spring post downside also fixedly connected with first hot plate downside fixedly connected with first hot plate, two first hot plate downside that first hot plate contact between two first hot plate and second heating plate are connected with respectively, the back side fixing of the second heating subassembly is the dysmorphism board, the back portion that is connected with the second heating subassembly respectively, the dysmorphism board is connected with the back portion.

More preferably, the first sieve tray and the second sieve tray are both obliquely arranged, and the through holes in the first sieve tray are larger than the through holes in the second sieve tray.

More preferably, break up the subassembly including first L template, motor power, first inclined plane gear, first connecting plate, first backup pad, puddler and second inclined plane gear, the first L template of chassis upside rear portion fixedly connected with, side fixedly connected with motor power on the first L template, the first inclined plane gear of anterior fixedly connected with of first L template upside, first inclined plane gear is located motor power's downside, motor power output shaft passes first L template and first inclined plane gear, the first connecting plate of motor power output shaft fixedly connected with, the first backup pad of first L template front side upper portion fixedly connected with, the anterior rotation of first backup pad is connected with the puddler, puddler upper portion rotates with first connecting plate to be connected, puddler upper portion fixedly connected with second inclined plane gear, second inclined plane gear is located first connecting plate top, second inclined plane gear and first inclined plane gear meshing.

More preferably, the touching subassembly is including the second connecting plate, the link, touch panel and first baffle, second backup pad upside fixedly connected with second connecting plate, the second connecting plate is located removal subassembly the place ahead, second connecting plate upper portion is opened there is trapezoidal logical groove, the second connecting plate contacts with adjacent cylinder, two links of second connecting plate front side fixedly connected with, fixedly connected with touch panel between two link rear sides, touch panel both sides all set up to the inclined plane, touch panel is located the trapezoidal logical inslot side of second connecting plate, touch panel right part rotates and is connected with first baffle.

More preferably, still including collection system, the cask downside is connected with collection system, and collection system is including hopper, third discharging pipe, collecting box and baffle, cask downside fixedly connected with hopper, hopper lower part intercommunication have the third discharging pipe, and the cask rear lower place is provided with the collecting box, and the collecting box is linked together with the third discharging pipe other end, collecting box middle part fixedly connected with baffle.

More preferably, including processing system, outer anchor ring middle part of cask is connected with processing system, processing system is including the unloading subassembly, the fourth L template, bake out case and collision subassembly, the right part of cask is provided with the unloading subassembly, the unloading subassembly is used for the oil fodder blowing, chassis right side upper portion is connected with the fourth L template, the fourth L template is located the cask rear, fourth L template right flank fixedly connected with bakes out the case, bake out the case front side and be connected with the unloading subassembly, the collision subassembly is installed at the downside rear portion of baking out the case, the collision subassembly is used for the oil fodder to bump and makes its breakage.

More preferably, the unloading subassembly is including third L template, electric putter, the second baffle, board and fourth discharging pipe are accepted to the third, outer annular upper portion fixedly connected with third L template of cask, third L template right part fixedly connected with electric putter, electric putter pars contractilis fixedly connected with second baffle, second baffle and cask sliding connection, the outer annular middle part fixedly connected with third of cask is accepted the board, the board is located electric putter below is accepted to the third, board downside intercommunication has the fourth discharging pipe is accepted to the third, the fourth discharging pipe is linked together with the toasting case.

More preferably, the collision component is including the fifth L template, the third backup pad, first flitch, flitch under the second, the deflector, third baffle and screen cloth, the transfer component rear is provided with two fifth L templates that are the symmetry setting from beginning to end, the collecting box is located between two fifth L templates, each fixedly connected with third backup pad of side on two fifth L templates, the first flitch of third backup pad upside fixedly connected with in the place ahead, the second discharging pipe is linked together with first flitch, the second flitch under the third backup pad upside fixedly connected with second of rear, the second flitch is linked together with the case of toasting, deflector of two fifth L template opposite sides respectively fixedly connected with a deflector, deflector and first flitch fixed connection in the place ahead, deflector and second flitch fixed connection in the place ahead, two deflector right sides fixedly connected with third baffle, fixedly connected with screen cloth between two deflectors, two deflector downside left parts and baffle fixed connection.

The beneficial effects are that: according to the invention, the oil feed is stirred by the scattering assembly, so that the caked oil feed is loosened, the subsequent treatment of the oil feed is facilitated, and meanwhile, the oil feed with fine residues is separated from the oil feed by the first sieve tray and the second sieve tray, so that the quality of the oil feed is improved, the later-stage operation treatment is facilitated, and the labor intensity of a first-line operator is reduced.

According to the invention, the grease feed is rubbed by the first heating plate, and simultaneously the grease feed is dried, so that the powder adhered to the outer surface of the grease feed is rubbed off by the first heating plate, and the fallen grease feed generates slight bounce under the action of the inclination of the second supporting plate, so that the powder adhered to the outer surface of the grease feed drops, and the grease feed is better contacted with grease during subsequent oil change, thereby enhancing the oil absorption of the grease feed and ensuring better quality of the grease feed.

According to the invention, the dried caked grease feed falls into the second blanking plate through the second blanking plate, the caked grease feed collides with the inner wall of the second blanking plate, so that the grease feed is crushed for the first time, and then the grease feed collides under the action of the second blanking plate and the first blanking plate, so that the caked grease feed is further crushed, the mixing effect of the grease feed and grease is further improved, the interior of the grease feed after oil change is dried better, the grease feed is prevented from going moldy and going bad, and the grease feed is convenient to store.

Drawings

FIG. 1 is a schematic diagram of a first perspective structure according to the present invention;

FIG. 2 is a schematic diagram of a second perspective view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a first partial structural schematic diagram of the present invention;

FIG. 5 is a second partial structural view of the present invention;

FIG. 6 is a third partial structural view of the present invention;

FIG. 7 is a schematic view of the collection system of the present invention;

FIG. 8 is a schematic view of a first configuration of the processing system of the present invention;

FIG. 9 is a schematic diagram of a second configuration of the processing system of the present invention;

FIG. 10 is a schematic view of a first partial structure of the processing system of the present invention;

FIG. 11 is a second partial block diagram of the processing system of the present invention.

The parts are numbered as follows: 1-underframe, 2-drum, 201-first L-shaped plate, 202-power motor, 203-first bevel gear, 204-first connecting plate, 205-first supporting plate, 206-stirring rod, 207-second bevel gear, 208-first sieve tray, 209-second sieve tray, 210-first bearing plate, 211-second L-shaped plate, 212-second bearing plate, 213-first discharging pipe, 214-supporting frame, 215-second supporting plate, 216-portal frame, 217-electric sliding rail, 218-electric sliding block, 219-second connecting plate, 220-connecting frame, 221-touch plate, 222-first baffle, 223-third connecting plate, 224-spring column, 225-first heating plate, 226-cylinder, 227-second discharge pipe, 228-special-shaped plate, 229-second heating plate, 301-hopper, 302-third discharge pipe, 303-collecting box, 304-partition plate, 401-third L-shaped plate, 402-electric push rod, 403-second baffle plate, 404-third receiving plate, 405-fourth discharge pipe, 406-fourth L-shaped plate, 407-baking box, 408-fifth L-shaped plate, 409-third supporting plate, 410-first discharge plate, 411-second discharge plate, 412-guide plate, 413-third baffle plate, 414-screen and 2151-chute.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, etc. used herein to indicate orientation are simply for the location of the illustrated structure in the corresponding figures. The part numbers are themselves numbered herein, for example: first, second, etc. are used only to distinguish the described objects, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise stated, include both direct and indirect connections (couplings).

Example 1

A pet feed reprocessing device with an anti-adhesion function is shown in figures 1-6 and comprises a base frame 1, a barrel 2, a first sieve tray 208, a second sieve tray 209, a scattering component, a transfer component and a feed processing mechanism; a barrel 2 is arranged at the middle part of the underframe 1 through bolts; a first sieve tray 208 is welded at the middle part in the barrel 2; a second sieve tray 209 is welded at the inner lower part of the barrel 2; the first sieve tray 208 and the second sieve tray 209 are both obliquely arranged, the through holes in the first sieve tray 208 are larger than those in the second sieve tray 209, and the rear part of the upper side of the underframe 1 is connected with a scattering assembly; the grease feed is stirred by the scattering component, so that the caked grease feed is loosened, and a transfer component for transferring the feed out of the barrel 2 is arranged on the right side of the chassis 1; the transfer component is connected with the drum 2; the right side of transferring the subassembly is provided with the fodder processing agency that is used for the outside powder of fodder to handle.

The feed processing mechanism comprises a support frame 214, a second support plate 215, a moving assembly, a touch assembly, a third connecting plate 223, a spring column 224, a first heating plate 225, a cylinder 226, a second discharge pipe 227, a special-shaped plate 228 and a second heating plate 229; two support frames 214 are arranged on the right side of the transfer assembly; a second support plate 215 which is inclined from the front upper side to the rear lower side is mounted on the upper sides of the two support frames 214 through bolts; the second support plate 215 is connected to one moving assembly at each of the upper front portion and the upper rear portion thereof; the upper front part and the upper rear part of the second support plate 215 are respectively connected with a touch component; the two touch assemblies are positioned at the outer sides of the two moving assemblies; the second supporting plate 215 is provided with four sliding grooves 2151 which are equidistantly distributed from front to back; the chute 2151 contacts the transfer module; the four sliding grooves 2151 are arranged in a step shape when viewed from front to back; the lower sides of the two moving assemblies are respectively connected with a third connecting plate 223; two spring columns 224 are fixedly connected to the lower sides of the two third connecting plates 223 respectively; the lower sides of the two front spring columns 224 are provided with a first heating plate 225 through bolts; the first heating plate 225 moves rightwards to rub the grease feed, so that the grease feed rolls rightwards in the chute 2151, and meanwhile, under the action of the first heating plate 225, the grease feed is dried, so that powder adhered to the outer surface of the grease feed is rubbed off by the first heating plate 225, and the first heating plate 225 is also mounted on the lower sides of the two rear spring columns 224 through bolts; a second heating plate 229 is installed between the two first heating plates 225 through bolts; the second heating plate 229 moves rightwards to rub the grease feed, so that the grease feed rolls rightwards in the chute 2151, and is dried under the action of the second heating plate 229, so that the second heating plate 229 rubs off powder adhered to the outer surface of the grease feed, and the two first heating plates 225 and the second heating plate 229 are respectively in sliding connection with the second supporting plate 215; the moving assembly is used for driving the first heating plate 225 and the second heating plate 229 to move back and forth, and rubbing the feed, so that the powder adhered to the feed is separated, and the feed is jumped; the touch assembly is used for avoiding contact with the feed when the first heating plate 225 and the second heating plate 229 are reset; a cylinder 226 is fixedly connected to the opposite sides of the two first heating plates 225; the two cylinders 226 are respectively in contact with adjacent touch components; the rearmost chute 2151 is provided with a second discharge pipe 227; a profile plate 228 is fixedly connected to the right portion of the upper side of the second supporting plate 215, and the profile plate 228 is arranged in a step shape.

The scattering assembly comprises a first L-shaped plate 201, a power motor 202, a first bevel gear 203, a first connecting plate 204, a first supporting plate 205, a stirring rod 206 and a second bevel gear 207; a first L-shaped plate 201 is fixedly connected to the rear part of the upper side of the underframe 1; the side surface of the first L-shaped plate 201 is connected with a power motor 202 through a bolt; a first bevel gear 203 is fixed on the front part of the upper side of the first L-shaped plate 201 through a bolt, and the first bevel gear 203 is positioned on the lower side of the power motor 202; an output shaft of the power motor 202 penetrates through the first L-shaped plate 201 and the first bevel gear 203; an output shaft of the power motor 202 is fixedly connected with a first connecting plate 204; a first supporting plate 205 is fixedly connected to the upper part of the front side of the first L-shaped plate 201; the front part of the first supporting plate 205 is rotatably connected with a stirring rod 206, and the middle part of the stirring rod 206 is provided with a round ball; the stirring rod 206 rotates to stir the grease feed, so that the caked grease feed is loosened; the upper part of the stirring rod 206 is rotationally connected with the first connecting plate 204; the upper part of the stirring rod 206 is fixedly connected with a second bevel gear 207; the second bevel gear 207 is located above the first link plate 204; the second bevel gear 207 meshes with the first bevel gear 203; after the grease feed is poured into the barrel 2, the power motor 202 is controlled to work, the power motor 202 drives the first connecting plate 204 to rotate, the stirring rod 206 and the second bevel gear 207 rotate synchronously along with the first connecting plate 204, and power is provided for the stirring rod 206 to stir the grease feed.

The transfer component comprises a first bearing plate 210, a second L-shaped plate 211, a second bearing plate 212 and a first discharging pipe 213; the lower part of the outer annular surface of the barrel 2 is provided with a first bearing plate 210 through bolts; a second L-shaped plate 211 is arranged on the right of the bottom frame 1; a second bearing plate 212 is arranged on the upper side of the second L-shaped plate 211 through bolts; the second bearing plate 212 is fixedly connected with the first bearing plate 210 through bolts; the second bearing plate 212 is communicated with a first discharge pipe 213; the greasy feed falling on the second sieve tray 209 will slide down onto the first receiving plate 210 and subsequently onto the second receiving plate 212 and into the first discharge pipe 213; the first outlet pipe 213 is in contact with the front chute 2151.

The moving assembly comprises a portal frame 216, an electric slide rail 217 and an electric slide block 218; a portal frame 216 is arranged on the upper side of the second support plate 215 through bolts; the lower side of the portal frame 216 is connected with an electric slide rail 217 through bolts; the electric slide rail 217 is connected with an electric slide block 218 in a sliding way; the lower side of the electric slide 218 is fixedly connected with two spring columns 224, the electric slide 218 moves the first heating plate 225 and the second heating plate 229 through the spring columns 224 on the electric slide, and the powder on the grease feed in the chute 2151 is rubbed off and dried through the movement of the first heating plate 225 and the second heating plate 229.

The touch component comprises a second connecting plate 219, a connecting frame 220, a touch plate 221 and a first baffle 222; a second connecting plate 219 is fixedly connected to the upper side of the second support plate 215; the second connecting plate 219 is located in front of the gantry 216; a trapezoidal through groove is formed in the upper part of the second connecting plate 219; the second connecting plate 219 contacts the adjacent cylinder 226; two connecting frames 220 are fixedly connected to the front side of the second connecting plate 219; a touch panel 221 is fixedly connected between the rear sides of the two connecting frames 220, and both sides of the touch panel 221 are provided with inclined planes; the touch plate 221 is positioned inside the trapezoidal through groove of the second connecting plate 219; a first shutter 222 is rotatably connected to a right portion of the touch plate 221.

When the pet feed reprocessing equipment with the anti-adhesion function is used, firstly, the chassis 1 and the barrel 2 are horizontally fixed, then, the pet feed reprocessing equipment with the anti-adhesion function is debugged, then, oil-mixed feed, hereinafter referred to as oil feed, is poured into the barrel 2, then, the power is switched on to start working, at the moment, the first heating plate 225 and the second heating plate 229 start working, the oil feed is stirred through the scattering component, so that the caked oil feed is loosened, the non-caked oil feed and the oil feed with fine residues pass through the first sieve tray 208 and fall on the second sieve tray 209, the oil feed with fine residues continuously fall into an externally-arranged collecting device through the second sieve tray 209, the oil feed with fine residues is separated from the oil feed, and then, the non-caked oil feed is transferred into the front chute 2151 through the transfer component, and then the multigrain grease fodder is located the first hot plate 225 in the place ahead, and contact with first hot plate 225, then through moving the subassembly, drive first hot plate 225 and second hot plate 229 and move to the right, and then first hot plate 225 carries out a twirling to the grease fodder, make the grease fodder roll to the right in spout 2151, simultaneously under the effect of first hot plate 225, the grease fodder will be dried, make first hot plate 225 rub off the powder that adheres to the grease fodder surface, along with moving the subassembly removal, the grease fodder will break away from spout 2151 in the place ahead, then the grease fodder contacts with dysmorphism board 228, prevent the grease fodder from flying out, simultaneously under the effect that second backup pad 215 inclines, the grease fodder will drop to next spout 2151, after dropping the grease fodder, will produce a slight jump, further make the powder that adheres to the grease fodder surface drop, thereby improve follow-up oil change effect to the grease fodder, the first-line operation workman's that alleviates work intensity, the grease fodder after handling will pass through second discharging pipe 227 roll-off, and the cooperation through touching the subassembly has at last avoided first hot plate 225 and second hot plate 229 and grease fodder direct contact when reseing, causes the extrusion.

After grease feed is poured into the barrel 2, the power motor 202 is controlled to work, the power motor 202 drives the first connecting plate 204 to rotate, the stirring rod 206 and the second bevel gear 207 rotate synchronously with the first connecting plate 204, meanwhile, under the action of the first bevel gear 203, the second bevel gear 207 rotates, the stirring rod 206 rotates synchronously with the second bevel gear 207, the stirring rod 206 stirs the grease feed, so that the caked grease feed is loosened, meanwhile, in the stirring process of the stirring rod 206, the grease feed without caked and the grease feed with fine residues pass through the first sieve tray 208, fall onto the second sieve tray 209, the fine residue grease feed continues to fall into an externally-arranged collecting device through the second sieve tray 209, so that the grease feed with fine residues is separated from the grease feed, the grease feed falling onto the first receiving plate 210, then slide onto the second receiving plate 212 and enter the first discharging pipe 213, under the action of the first discharging pipe 213, the grease particles slide to the first sieve tray 209, the grease feed slides onto the first receiving plate 225, the first slide block 2151, and the grease feed slides to the first slide block 2151 to slide on the first slide chute 225, and the first heating plate 225, the slide chute 225, and the heating plate 225 controls the heating plate to move along with the first heating plate 225, the slide plate to move along the slide chute to the slide to the first heating plate 225, and dry the first heating plate 225, the slide plate 225, and the first heating plate 225, then the grease feed contacts the special-shaped plate 228, the special-shaped plate 228 prevents the grease feed from flying out, meanwhile, under the action of the inclination of the second supporting plate 215, the grease feed falls into the next chute 2151, and after the grease feed falls, a slight jump is generated, so that the powder adhered to the outer surface of the grease feed further falls, thereby improving the subsequent oil change effect on the grease feed, meanwhile, the cylinder 226 contacts the first baffle 222 and pushes the first baffle 222 to rotate upwards on the touch plate 221, then the cylinder 226 is separated from the first baffle 222, so that the first baffle 222 rotates downwards on the touch plate 221 to reset, at the moment, the cylinder 226 is positioned at the right part of the second connecting plate 219, at the moment, the electric slide rail 217 is controlled to enable the electric slide block 218 to slide leftwards to reset, the cylinder 226 contacts with the first baffle 222, under the limit of the second connecting plate 219, the first baffle 222 will not rotate, and then the cylinder 226 will move up along the inclined surface of the first baffle 222, and then move on the touch panel 221, the first heating plate 225 and the second heating plate 229 will move synchronously with the cylinder 226, the spring post 224 will be compressed, when the cylinder 226 is separated from the touch panel 221, the spring post 224 will change from the compressed state to the normal state, and in the process of the spring post 224 changing, the first heating plate 225 and the second heating plate 229 will be driven to move downwards and reset, so that the first heating plate 225 and the second heating plate 229 will be located above the plurality of grease feeds and contact with the grease feeds, and at the same time, the first heating plate 225 and the second heating plate 229 will be prevented from contacting the side of the grease feeds, thereby causing the damage of the extruded grease feeds, and after several rounds of this cycle, there will be grease feeds in the front three chutes 2151;

at this time, the electric slide rail 217 is controlled to enable the electric slide block 218 to slide rightwards, the rear first heating plate 225 rubs a plurality of grease feeds, the grease feeds roll rightwards in the third sliding groove 2151, the grease feeds are dried under the action of the rear first heating plate 225, the first heating plate 225 rubs off powder adhered to the outer surface of the grease feeds, then the grease feeds are separated from the third sliding groove 2151 and enter the fourth sliding groove 2151, meanwhile, the second heating plate 229 rubs a plurality of grease feeds, the grease feeds roll rightwards in the first sliding groove 2151 and then enter the second sliding groove 2151, the grease feeds which slide into the fourth sliding groove 2151 enter the second sliding groove 227, the grease feeds are prevented from flowing out of the grease feed discharging pipe 228, the grease feeds are separated from the first sliding groove 2151 and then enter the second sliding groove 2151, and then the grease feeds which slide into the fourth sliding groove 2151 enter the second sliding groove 227 and are treated by the grease feeding pipe 215, and the grease feed which is better treated by the second heating plate 225, and the grease feed which can be treated by the grease feed.

Example 2

On the basis of the embodiment 1, as shown in fig. 1 and fig. 7-11, a collecting system is also included; the lower side of the barrel 2 is connected with a collecting system; the collecting system comprises a hopper 301, a third discharging pipe 302, a collecting box 303 and a partition plate 304; the hopper 301 is welded at the lower side of the barrel 2; the fine residue greasy feed will pass through the first sieve tray 208 and the second sieve tray 209 and fall into the hopper 301; the lower part of the hopper 301 is communicated with a third discharge pipe 302; a collecting box 303 is arranged at the rear lower part of the barrel 2; the collecting box 303 is communicated with the right end of the third discharging pipe 302; the middle part of the collecting box 303 is fixedly connected with a clapboard 304.

Also comprises a processing system; the middle part of the outer ring surface of the round barrel 2 is connected with a processing system; the processing system is used for transferring the caked grease feed in the barrel 2, drying the caked grease feed and then colliding the caked grease feed with the processed powdered grease feed on the outer surface; the processing system comprises a blanking assembly, a fourth L-shaped plate 406, a baking box 407 and a collision assembly; a blanking assembly is arranged at the right part of the barrel 2 and used for discharging oil and fat feed which is not loosened or is in large caking, and a fourth L-shaped plate 406 is connected to the upper part of the right side of the underframe 1; the fourth L-shaped plate 406 is located behind the drum 2; the right side surface of the fourth L-shaped plate 406 is fixedly connected with a baking box 407; the baking oven 407 is used for drying the grease feed; the front side of the baking box 407 is connected with a blanking component; the lower side rear portion of toasting case 407 is installed collision subassembly, and collision subassembly is used for the grease fodder to take place the striking and accomplishes the breakage.

The blanking assembly comprises a third L-shaped plate 401, an electric push rod 402, a second baffle 403, a third bearing plate 404 and a fourth discharging pipe 405; the upper part of the outer annular surface of the barrel 2 is fixedly connected with a third L-shaped plate 401; the right part of the third L-shaped plate 401 is connected with an electric push rod 402 through a bolt; the telescopic part of the electric push rod 402 is fixedly connected with a second baffle 403, and the second baffle 403 is arranged in an arc shape; the second baffle 403 is connected with the barrel 2 in a sliding way; the middle part of the outer ring surface of the barrel 2 is fixedly connected with a third bearing plate 404; the third bearing plate 404 is positioned below the electric push rod 402; the grease feed which is not loosened or is in a large caking state is blocked by the first sieve tray 208, the electric push rod 402 is controlled to move the second baffle 403 to the right, the second baffle 403 is separated from the barrel 2, and the caked grease feed enters the third bearing plate 404; a fourth discharge pipe 405 is communicated with the lower side of the third bearing plate 404; the fourth outlet pipe 405 is connected to the baking chamber 407.

The collision assembly comprises a fifth L-shaped plate 408, a third supporting plate 409, a first blanking plate 410, a second blanking plate 411, a guide plate 412, a third baffle 413 and a screen 414; two fifth L-shaped plates 408 which are symmetrically arranged in front and back are arranged behind the second L-shaped plate 211; the collection box 303 is positioned between the two fifth L-shaped plates 408; the upper sides of the two fifth L-shaped plates 408 are respectively welded with a third supporting plate 409; a first blanking plate 410 is connected to the upper side of the front third supporting plate 409 through bolts; the second discharging pipe 227 is communicated with the first blanking plate 410; the upper side of the rear third supporting plate 409 is connected with a second blanking plate 411 through bolts; the dried grease feed falls into the second blanking plate 411, and the grease feed collides with the inner wall of the second blanking plate 411, so that the grease feed is crushed for the first time; the second blanking plate 411 is communicated with the baking box 407; opposite sides of the two fifth L-shaped plates 408 are fixedly connected with a guide plate 412 respectively; the front guide plate 412 is fixedly connected with the first blanking plate 410; the rear guide plate 412 is fixedly connected with the second blanking plate 411; a third baffle 413 is fixedly connected to the right sides of the two guide plates 412; a screen 414 is fixedly connected between the two guide plates 412, and the screen 414 is used for screening the oil feed falling downwards; the left lower parts of the two guide plates 412 are fixedly connected with the partition plate 304.

When the grease feed in the barrel 2 is stirred, the grease feed with fine residues passes through the first sieve tray 208 and the second sieve tray 209, falls into the hopper 301, and then enters the collecting tank 303 through the third discharging pipe 302 to be collected and processed.

When the grease feed in the barrel 2 is stirred for a certain time, the grease feed which is not loosened or is in a large-caking state is separated and blocked by the first sieve tray 208, the electric push rod 402 is controlled to enable the second baffle 403 to move rightwards, the second baffle 403 is separated from the barrel 2, the caked grease feed enters the third bearing plate 404 and then enters the baking box 407 through the fourth discharge pipe 405, the baking box 407 dries the grease feed, the dried grease feed falls into the second blanking plate 411, the grease feed collides with the inner wall of the second blanking plate 411, the grease feed is crushed for the first time, then slides down along the second blanking plate 411, the grease feed which enters the second discharge pipe 227 simultaneously slides downwards through the first blanking plate 410, the grease feed collides under the action of the second blanking plate 410, the grease feed further crushes the caked grease feed, the collided grease feed falls on the screen mesh 414, then falls on the left part, meanwhile, the grease feed passes through the screen mesh 303, the grease feed falls off, the grease feed is prevented from being treated by the grease feed collecting box 304, and the grease feed residue after the grease feed is treated by the drying device, and the grease residue, and the grease collecting box can be conveniently used for preventing the mildew treatment of the grease feed.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (6)

1. A pet feed reprocessing device with an anti-adhesion function comprises a chassis (1), a barrel (2), a first sieve tray (208) and a second sieve tray (209); a barrel (2) is arranged in the middle of the underframe (1) through a bolt; the middle part in the barrel (2) is fixedly connected with a first sieve tray (208); the inner lower part of the barrel (2) is fixedly connected with a second sieve tray (209); the feed scattering device is characterized by also comprising a scattering component, a transfer component and a feed processing mechanism, wherein the scattering component is connected with the rear part of the upper side of the underframe (1); a transfer component for transferring the feed out of the barrel (2) is arranged on the right side of the bottom frame (1); the transfer component is connected with the barrel (2); a feed processing mechanism for processing the external powder of the feed is arranged on the right side of the transfer assembly;

the feed processing mechanism comprises a supporting frame (214), a second supporting plate (215), a moving assembly, a touch assembly, a third connecting plate (223), a spring column (224), a first heating plate (225), a cylinder (226), a second discharging pipe (227), a special-shaped plate (228) and a second heating plate (229); two support frames (214) are arranged on the right side of the transfer assembly; the upper sides of the two support frames (214) are fixedly connected with a second support plate (215) which inclines from the front upper side to the rear lower side; the upper front part and the upper rear part of the second supporting plate (215) are respectively connected with a moving component; the upper front part and the upper rear part of the second supporting plate (215) are respectively connected with a touch component; the two touch assemblies are positioned at the outer sides of the two moving assemblies; the second supporting plate (215) is provided with four sliding chutes (2151) which are distributed at equal intervals from front to back; the chute (2151) is in contact with the transfer assembly; the four sliding grooves (2151) are arranged in a step shape when being seen from front to back; the lower sides of the two moving assemblies are respectively connected with a third connecting plate (223); two spring columns (224) are fixedly connected to the lower sides of the two third connecting plates (223) respectively; the lower sides of the two front spring columns (224) are fixedly connected with a first heating plate (225); the lower sides of the two rear spring columns (224) are also fixedly connected with a first heating plate (225); a second heating plate (229) is connected between the two first heating plates (225); the two first heating plates (225) and the second heating plate (229) are respectively connected with the second supporting plate (215) in a sliding way; the opposite back sides of the two first heating plates (225) are fixedly connected with a cylinder (226) respectively; two cylinders (226) are respectively contacted with adjacent touch components; a second discharge pipe (227) is arranged on the rearmost sliding chute (2151); a special-shaped plate (228) is fixedly connected to the right part of the upper side of the second supporting plate (215), and the special-shaped plate (228) is arranged in a step shape;

the scattering assembly comprises a first L-shaped plate (201), a power motor (202), a first bevel gear (203), a first connecting plate (204), a first supporting plate (205), a stirring rod (206) and a second bevel gear (207); a first L-shaped plate (201) is fixedly connected to the rear part of the upper side of the underframe (1); the upper side surface of the first L-shaped plate (201) is fixedly connected with a power motor (202); the front part of the upper side of the first L-shaped plate (201) is fixedly connected with a first bevel gear (203), and the first bevel gear (203) is positioned on the lower side of the power motor (202); an output shaft of the power motor (202) penetrates through the first L-shaped plate (201) and the first bevel gear (203); an output shaft of the power motor (202) is fixedly connected with a first connecting plate (204); a first supporting plate (205) is fixedly connected to the upper part of the front side of the first L-shaped plate (201); the front part of the first supporting plate (205) is rotationally connected with a stirring rod (206); the upper part of the stirring rod (206) is rotationally connected with the first connecting plate (204); the upper part of the stirring rod (206) is fixedly connected with a second bevel gear (207); the second bevel gear (207) is positioned above the first connecting plate (204); the second bevel gear (207) is meshed with the first bevel gear (203); the touch assembly comprises a second connecting plate (219), a connecting frame (220), a touch plate (221) and a first baffle (222); a second connecting plate (219) is fixedly connected to the upper side of the second supporting plate (215); a second connecting plate (219) is positioned in front of the moving assembly; a trapezoidal through groove is formed in the upper part of the second connecting plate (219); the second connecting plate (219) is in contact with the adjacent cylinder (226); two connecting frames (220) are fixedly connected to the front side of the second connecting plate (219); a touch plate (221) is fixedly connected between the rear sides of the two connecting frames (220), and both sides of the touch plate (221) are provided with inclined planes; the touch plate (221) is positioned on the inner side of the trapezoidal through groove of the second connecting plate (219);

the right part of the touch plate (221) is rotatably connected with a first baffle (222).

2. The pet food reprocessing apparatus having the adhesion prevention function according to claim 1, wherein the first sieve tray (208) and the second sieve tray (209) are both obliquely arranged, and through holes on the first sieve tray (208) are larger than through holes on the second sieve tray (209).

3. The pet food reprocessing apparatus having the adhesion prevention function according to claim 1, further comprising a collection system; the lower side of the barrel (2) is connected with a collecting system; the collecting system comprises a hopper (301), a third discharging pipe (302), a collecting box (303) and a partition plate (304); the lower side of the barrel (2) is fixedly connected with a hopper (301); the lower part of the hopper (301) is communicated with a third discharge pipe (302); a collecting box (303) is arranged at the rear lower part of the barrel (2); the collecting box (303) is communicated with the right end of the third discharging pipe (302); the middle part of the collecting box (303) is fixedly connected with a clapboard (304).

4. The pet food reprocessing apparatus having the adhesion prevention function according to claim 3, further comprising a processing system; the middle part of the outer ring surface of the round barrel (2) is connected with a processing system; the processing system comprises a blanking assembly, a fourth L-shaped plate (406), a baking box (407) and a collision assembly; a blanking assembly is arranged at the right part of the barrel (2), the blanking assembly is used for discharging grease and feed, and the upper part of the right side of the chassis (1) is connected with a fourth L-shaped plate (406); the fourth L-shaped plate (406) is positioned behind the barrel (2); the right side surface of the fourth L-shaped plate (406) is fixedly connected with a baking box (407); the front side of the baking box (407) is connected with the blanking component; the rear part of the lower side of the baking box (407) is provided with a collision component, and the collision component is used for enabling the grease feed to collide and break.

5. The pet feed reprocessing equipment with the adhesion prevention function according to claim 4, wherein the blanking assembly comprises a third L-shaped plate (401), an electric push rod (402), a second baffle plate (403), a third bearing plate (404) and a fourth discharging pipe (405); the upper part of the outer ring surface of the barrel (2) is fixedly connected with a third L-shaped plate (401); the right part of the third L-shaped plate (401) is fixedly connected with an electric push rod (402); the telescopic part of the electric push rod (402) is fixedly connected with a second baffle (403); the second baffle (403) is connected with the barrel (2) in a sliding way; the middle part of the outer ring surface of the barrel (2) is fixedly connected with a third bearing plate (404); the third bearing plate (404) is positioned below the electric push rod (402); a fourth discharging pipe (405) is communicated with the lower side of the third bearing plate (404); the rear end of the fourth discharge pipe (405) is communicated with the baking box (407).

6. The pet food reprocessing apparatus having the adhesion prevention function according to claim 4, wherein the collision assembly comprises a fifth L-shaped plate (408), a third support plate (409), a first blanking plate (410), a second blanking plate (411), a guide plate (412), a third baffle plate (413) and a screen (414); two fifth L-shaped plates (408) which are symmetrically arranged in front and back are arranged behind the transfer assembly; the collecting box (303) is positioned between the two fifth L-shaped plates (408); the upper side surfaces of the two fifth L-shaped plates (408) are respectively and fixedly connected with a third supporting plate (409); a first blanking plate (410) is fixedly connected to the upper side of a front third supporting plate (409); the second discharge pipe (227) is communicated with the first blanking plate (410); a second blanking plate (411) is fixedly connected to the upper side of a third supporting plate (409) at the rear; the second blanking plate (411) is communicated with the baking box (407); two opposite sides of the fifth L-shaped plates (408) are fixedly connected with a guide plate (412) respectively; the front guide plate (412) is fixedly connected with the first blanking plate (410); the rear guide plate (412) is fixedly connected with the second blanking plate (411); a third baffle (413) is fixedly connected to the right sides of the two guide plates (412); a screen (414) is fixedly connected between the two guide plates (412); the left parts of the lower sides of the two guide plates (412) are fixedly connected with the partition plate (304).

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