Lily processing is with quick driping device
Technical Field
The utility model relates to a drip dry device design technical field specifically is a lily processing is with quick drip dry device.
Background
The essential step in the processing process of the lily is draining, and the draining is to dry the washed lily, so that the preservation time of the lily is long, and a direct raw material can be provided for grinding lily powder.
The existing quick draining device for lily processing has low draining efficiency, and lily is not uniform during draining, so that the draining effect is poor, and the quality of lily is influenced.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to overcome current defect, provide a lily processing is with quick drain device, it is efficient to drain, and lily is even when draining, causes to drain effectually, does not influence the lily quality, can effectively solve the problem in the background art.
In order to achieve the above object, the utility model provides a following technical scheme: a quick draining device for lily processing comprises a protection box, a uniform feeding unit, an accelerated draining unit and a material protection assembly;
a protection box: a belt conveyor is arranged inside the upper end of the protection box, the right side of the protection box is positioned at the position of the belt conveyor and is fixedly connected with a discharging plate, the front side surface of the protection box is positioned at the lower side of the belt conveyor and is provided with a waste water port, the waste water port is fixedly connected with one end of a waste water outlet pipeline, the other end of the waste water outlet pipeline is connected with an external pipeline, the position of the upper side surface of the protection box, which is positioned at the middle part of the belt conveyor, is fixedly connected with an accelerated draining unit, a material protection component is arranged inside the lower side of the accelerated draining unit, and the input end of the belt conveyor is electrically connected with the output end of an external power supply through an external control switch group;
a uniform feeding unit: include L type backup pad, trapezoidal pay-off cover, motor, rotation post, chain, sprocket, support column and bracing piece, the terminal surface of the vertical direction of left side position fixed connection L type backup pad of the upper end surface of guard box, the pay-off mouth has been seted up to the horizontal direction of L type backup pad, the bottom of the trapezoidal pay-off cover of fixed connection in the pay-off mouth, trapezoidal pay-off cover corresponds with band conveyer's upper end surface, the one end of two equidistant bracing pieces of the lower side fixed surface connection of the horizontal direction of L type backup pad, the position between two bracing piece lower extremes rotates the joint support post, the rear end of support column extends to the outside of rear side bracing piece, the upper end surface of L type backup pad is located the position fixed connection motor on trapezoidal pay-off cover right side, the output shaft and the one end fixed connection who rotates the post of motor, the other end and the one end that the support column extended to the bracing piece outside are fixed connection sprocket respectively, and two sprockets pass through chain drive and connect, the input of motor is connected with external power source's output electricity through external control switch group.
The lily bulb drying device comprises a belt conveyor, a discharge plate, a waste water outflow pipeline, an acceleration draining unit, a motor, a rotating column, a support column and a support column, wherein the belt conveyor is used for conveying lily bulbs, water on the lily bulbs flows to the inside of the protection box from the belt conveyor, the discharge plate is used for draining the lily bulbs, the waste water outflow pipeline is used for draining the lily bulbs, the acceleration draining unit is used for accelerating the draining of the lily bulbs, the efficiency is improved, a material protection assembly is used for protecting the lily bulbs on the belt conveyor, the lily bulbs are prevented from falling off, an L-shaped support plate is used for fixing a trapezoidal feeding cover, the trapezoidal feeding cover is used for allowing the lily bulbs to flow into the device, the motor is started, the motor drives the rotating column to rotate, the rotating column drives the chain wheels to rotate, the two chain wheels drive the other chain wheel to rotate, the chain wheels drive the support column to rotate, the support column is used for evenly paving the lily bulbs, and the support column is used for fixing the support column to provide power for paving the lily bulbs.
Further, even pay-off unit still contains the tight pulley and dials even cover wheel, the tight pulley has been cup jointed to the position that lies in between two bracing pieces on the support column, a plurality of equidistant even cover wheels of dialling have been cup jointed on the tight pulley, dial even pole and the upper end surface of belt conveyer of pulling out of even cover wheel and correspond.
The fixed pulley is used for fixing and dials even sleeve wheel, dials even sleeve wheel and rotates, evenly paves the lily on belt conveyer, comes to carry out even driping, improves the driping effect.
Further, the accelerated draining unit comprises supporting legs, a protective shell, fixed plates, heating plates, sliding rails, T-shaped sliding blocks, a fan supporting plate, blowing fans and a hot air outlet, the upper end surface of the protective box is located on four supporting legs of the rectangular distribution at the two sides of the belt conveyor, the bottom ends of the four supporting legs are fixedly connected with the upper end surface of the protective box, the four corners of the bottom end surface of the protective shell are fixedly connected with the top end of the four supporting legs, the two sides in the protective shell are fixedly connected with the sliding rails respectively, the T-shaped sliding blocks are respectively and slidably connected in the two sliding rails, the left side and the right side of the fan supporting plate are fixedly connected with one corresponding side of the two T-shaped sliding blocks, the two fans are arranged on the fan supporting plate at equal intervals, the fan blades of the two blowing fans respectively correspond to the blowing tracks on the belt conveyor, the left side and the right side of the fixed plate are fixedly connected with the lower side of the sliding rails in the protective shell, heating plate fixing holes are formed in the middle of the tracks of the fixed plates, the heating plate fixing holes are fixedly connected with the heating plates, the heating plates correspond to the upper ends of the tracks of the belt conveyor, the heating plates correspond to the upper ends of the belt conveyor, the heating plates correspond to the upper ends of the heating plates, the heating plates correspond to the upper ends of the heating plates of the belt conveyor, the heating plates correspond to the output ends of the heating plates of the belt conveyor, and the external power supply sets are electrically connected to the external control switch sets of the external output ends of the external control switch sets of the external control switch.
The supporting leg is used for supporting the protective housing, the protective housing is used for fixed plate, the fixed plate is used for fixed heating plate, the heating plate is used for heating the wind of blowing the fan, increase the efficiency of driping, the slide rail is used for driving the activity of T slider, T slider is used for the fixed air blower backup pad, the air blower backup pad is used for the fixed fan of blowing, the fan of blowing is used for driping the lily, through hot-blast, remove the moisture of lily, hot-blast outlet is used for letting hot-blast follow hot air outlet outflow, weather the lily, lily driping efficiency with higher speed.
Furthermore, the accelerated draining unit further comprises heat dissipation holes, an inspection door plate, a hinge and a handrail, the heat dissipation holes in the rectangular linear array are formed in the upper end surface of the protective shell, the heat dissipation holes correspond to the blowing fans, an inspection opening is formed in the front side of the protective shell, one side of the inspection opening is movably connected with the inspection door plate through the hinge, and the front side surface of the inspection door plate is fixedly connected with the handrail.
The louvre is used for dispelling the heat that the fan of blowing produced, increases device stability, and the inspection door plant is used for the inspection protective housing to fix, protects inner structure, and the hinge drives the inspection door plant activity, lets the inspection door plant fix on the protective housing, and the handrail is used for conveniently examining the door plant activity, comes to inspect inner structure.
Further, the material protection subassembly includes flexible post, anterior backup pad, fixed cover, baffle and cushion, fixed cover has been cup jointed respectively to both sides around the last pivot of belt conveyer, the corresponding one side of one side difference fixed connection baffle of supporting leg on both sides is the one side that corresponds around, the one end of two equidistant flexible posts of inboard fixed connection of the vertical direction of L type backup pad has cup jointed buffer spring on two flexible posts respectively, the left side surface of the anterior backup pad of other end fixed connection of two flexible posts, one side difference fixed connection cushion that anterior backup pad and two baffles correspond each other, anterior backup pad and two baffles correspond with the left side of belt conveyer and front and back both sides respectively.
The telescopic column is used for buffering the front supporting plate, the front supporting plate prevents lily from falling from the left end of the belt conveyor, the fixing sleeve is used for fixing the baffle, the baffle is used for preventing lily from falling from the two sides of the belt conveyor, so that lily is protected, and the cushion pad is used for protecting lily and preventing lily from being damaged by the device.
Further, still include loose axle and rubber and plastic heated board, the position that the left and right sides of protective housing was located between two front and back supporting legs passes through loose axle and a plurality of equidistant heated board swing joint.
The rubber and plastic heat preservation board adopts aluminium foil gum heat preservation heat insulating board to keep warm between belt conveyer and the protective housing, increases the driping efficiency, and the loose axle is used for letting the rubber and plastic heat preservation board activity, lets the lily can follow the rubber and plastic heat preservation board and get into the protective housing lower extreme, drips.
Compared with the prior art, the beneficial effects of the utility model are that:
1. this lily processing is with quick drain device has following benefit: the lily bulb drying device is characterized in that an accelerated draining unit is arranged and used for supporting a protective shell through supporting legs, the protective shell is used for fixing a fixing plate, the fixing plate is used for fixing a heating sheet, the heating sheet is used for heating air blown by a blowing fan to increase draining efficiency, a sliding rail is used for driving a T sliding block to move, the T sliding block is used for fixing a fan supporting plate, the fan supporting plate is used for fixing the blowing fan, the blowing fan is used for draining lily bulbs, moisture of the lily bulbs is removed through hot air, the hot air outlet is used for enabling hot air to flow out of the hot air outlet to blow the lily bulbs, heat dissipation holes are used for dissipating heat generated by the blowing fan to increase stability of the device, an inspection door plate is used for inspecting the protective shell to fix to protect an internal structure, a hinge is used for driving the inspection door plate to move and is fixed on the protective shell, and handrails are used for facilitating movement of the inspection door plate to accelerate draining of the lily bulbs;
2. this lily processing is with quick drain device has following benefit: the lily bulb protection device is provided with a material protection assembly, the material protection assembly is used for buffering a front supporting plate through a telescopic column, the front supporting plate is used for preventing lily bulbs from falling from the left end of a belt conveyor, a fixed sleeve is used for fixing a baffle plate, the baffle plate is used for preventing the lily bulbs from falling from two sides of the belt conveyor so as to protect the lily bulbs, and a buffer pad is used for protecting the lily bulbs and preventing the lily bulbs from being damaged by the device so as to protect the lily bulbs;
3. this lily processing is with quick drain device has following benefit: the draining efficiency is high, the lily is uniform during draining, the draining effect is good, and the quality of the lily is not influenced.
Drawings
FIG. 1 is a front view of the present invention;
FIG. 2 is a schematic view of the back side of the present invention in a partial sectional view;
FIG. 3 is a schematic view of a partial enlarged structure at B in FIG. 2 according to the present invention;
fig. 4 is a schematic side view of the present invention.
In the figure: 1 protective box, 2 belt conveyors, 3 even feeding units, 31L-shaped supporting plates, 32 trapezoidal feeding covers, 33 motors, 34 rotating columns, 35 chains, 36 chain wheels, 37 supporting columns, 38 supporting rods, 39 fixed wheels, 310 uniform-stirring sleeve wheels, 4 accelerated draining units, 41 supporting legs, 42 protective housings, 43 fixed plates, 44 heating plates, 45 sliding rails, 46T sliders, 47 fan supporting plates, 48 blowing fans, 49 heat dissipation holes, 410 hot air outlets, 411 inspection door plates, 412 hinges, 413 handrails, 5 material protection components, 51 telescopic columns, 52 front supporting plates, 53 fixed sleeves, 54 baffles, 55 cushions, 6 discharging plates, 7 movable shafts, 8 rubber and plastic heat insulation plates and 9 waste water outlet pipelines.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, the present embodiment provides a technical solution: a quick draining device for lily processing comprises a protection box 1, a uniform feeding unit 3, an accelerated draining unit 4 and a material protection component 5;
protection box 1: a belt conveyor 2 is arranged inside the upper end of the protection box 1, a discharge plate 6 is fixedly connected to the right side of the protection box 1 at the position of the belt conveyor 2, a waste water port is formed in the front side surface of the protection box 1 at the position of the lower side of the belt conveyor 2, one end of a waste water outflow pipeline 9 is fixedly connected in the waste water port, the other end of the waste water outflow pipeline 9 is connected with an external pipeline, an accelerated draining unit 4 is fixedly connected to the position of the upper side surface of the protection box 1 at the middle of the belt conveyor 2, a material protection component 5 is arranged inside the lower side of the accelerated draining unit 4, and the input end of the belt conveyor 2 is electrically connected with the output end of an external power supply through an external control switch group;
uniform feeding unit 3: the automatic feeding device comprises an L-shaped supporting plate 31, a trapezoid feeding cover 32, a motor 33, a rotating column 34, a chain 35, a chain wheel 36, a supporting column 37 and a supporting rod 38, wherein the left side of the upper end surface of a protection box 1 is fixedly connected with the end surface of the L-shaped supporting plate 31 in the vertical direction, a feeding port is formed in the L-shaped supporting plate 31 in the horizontal direction, the bottom end of the trapezoid feeding cover 32 is fixedly connected in the feeding port, the trapezoid feeding cover 32 corresponds to the upper end surface of a belt conveyor 2, the lower side surface of the L-shaped supporting plate 31 in the horizontal direction is fixedly connected with one ends of two equally-spaced supporting rods 38, the supporting column 37 is rotatably connected between the lower ends of the two supporting rods 38, the rear end of the supporting column 37 extends to the outer side of the rear side supporting rod 38, the position of the upper end surface of the L-shaped supporting plate 31 on the right side of the trapezoid feeding cover 32 is fixedly connected with the motor 33, the output shaft of the motor 33 is fixedly connected with one end of the rotating column 34, the other end of the rotating column 34 and one end of the supporting column 37 extending to the outer side of the supporting rod 38 are respectively and fixedly connected with the chain wheel 36, the two chain wheels 36 are in a transmission connection, the input end of the motor 33 is electrically connected with the output end of an external power supply through the external control switch set.
The lily bulb drying device comprises a protection box 1, a belt conveyor 2, a discharge plate 6, a waste water outflow pipeline 9, an accelerated draining unit 4, a material protection assembly 5, an L-shaped support plate 31, a trapezoid feeding cover 32, an electric motor 33 and a rotating column 34, wherein the protection box 1 is used for protecting the whole lily bulb, the belt conveyor 2 is used for conveying lily bulbs to enable water on the lily bulbs to flow into the protection box 1 from the belt conveyor 2, the waste water outflow pipeline 9 is used for discharging the water drained from the lily bulbs, the accelerated draining unit 4 is used for accelerating the draining of the lily bulbs and improving efficiency, the material protection assembly 5 is used for protecting the lily bulbs on the belt conveyor 2 and preventing the lily bulbs from falling off, the L-shaped support plate 31 is used for fixing the trapezoid feeding cover 32, the trapezoid feeding cover 32 is used for enabling the external lily bulbs to flow into the device, the electric motor 33 drives the rotating column 34 to rotate, the rotating column 34 drives the chain wheels 36 to rotate, the two chain wheels 36 are driven by a chain 35 to drive the other chain wheel 36 to rotate, the support column 37 to uniformly lay the lily bulbs, the support columns 37, and the support columns 38 are used for fixing the support columns 37 to lay the lily bulbs so as to provide power for laying.
The uniform feeding unit 3 further comprises a fixed wheel 39 and a uniform pulling sleeve wheel 310, the fixed wheel 39 is sleeved on the supporting column 37 between the two supporting rods 38, the fixed wheel 39 is sleeved with a plurality of uniformly spaced uniform pulling sleeve wheels 310, and the uniform pulling rods of the uniform pulling sleeve wheels 310 correspond to the upper end surface of the belt conveyor 2.
The fixed wheel 39 is used for fixing the uniform sleeve wheel 310, and the uniform sleeve wheel 310 rotates to uniformly lay the lilies on the belt conveyor 2 for uniform draining, so that the draining effect is improved.
The accelerated draining unit 4 comprises supporting legs 41, a protective shell 42, a fixing plate 43, a heating plate 44, a sliding rail 45, T sliders 46, a fan supporting plate 47, a blowing fan 48, a hot air outlet 410, four supporting legs 41 of a position rectangle subsection at two sides of the belt conveyor 2 on the upper end surface of the protective box 1, the bottom ends of the four supporting legs 41 are fixedly connected with the upper end surface of the protective box 1, four corners of the bottom end surface of the protective shell 42 are fixedly connected with the top ends of the four supporting legs 41, sliding rails 45 are respectively and fixedly connected with two sides in the protective shell 42, T sliders 46 are respectively and slidably connected in the two sliding rails 45, the left side and the right side of the fan supporting plate 47 are fixedly connected with one side corresponding to the two T sliders 46, two blowing fans 48 at equal intervals are arranged on the fan supporting plate 47, fan blades of the two blowing fans 48 respectively correspond to the crawler on the belt conveyor 2, the left side and the right side of the fixing plate 43 are respectively and positioned at the lower side of the sliding rails 45 in the protective shell 42, a heating plate fixing hole is formed in the middle of the fixing plate 43, the heating plate 44 is fixedly connected with the heating plate 44, the heating plate 44 is formed in a heating plate fixing hole, the heating plate output end of the rectangular fan supporting plate 410, and an external hot air outlet of the rectangular fan supporting plate 410 is electrically connected with the hot air outlet of the hot air conveyor 2.
The support legs 41 are used for supporting the protective shell 42, the protective shell 42 is used for fixing the fixing plate 43, the fixing plate 43 is used for fixing the heating sheet 44, the heating sheet 44 is used for heating air blown by the air blowing fan 48 to increase draining efficiency, the sliding rails 45 are used for driving the T sliding blocks 46 to move, the T sliding blocks 46 are used for fixing the fan supporting plate 47, the fan supporting plate 47 is used for fixing the air blowing fan 48, the air blowing fan 48 is used for draining the lilies, moisture of the lilies is removed through hot air, and the hot air outlet 410 is used for enabling the hot air to flow out of the hot air outlet 410 to blow the lilies for drying, so that the lily draining efficiency is accelerated.
The accelerated draining unit 4 further comprises heat dissipation holes 49, an inspection door plate 411, a hinge 412 and a handrail 413, the heat dissipation holes 49 in a rectangular linear array are formed in the upper end surface of the protective shell 42, the heat dissipation holes 49 correspond to the air blowing fan 48, an inspection opening is formed in the front side of the protective shell 42, one side of the inspection opening is movably connected with the inspection door plate 411 through the hinge 412, and the front side surface of the inspection door plate 411 is fixedly connected with the handrail 413.
Louvre 49 is used for dispelling the heat that fan 48 produced blowing, increases device stability, and inspection door plant 411 is used for examining protective housing 42 and fixes, protects inner structure, and hinge 412 drives the activity of inspection door plant 411, lets inspection door plant 411 fix on protective housing 42, and handrail 413 is used for conveniently examining door plant 411 activity, comes to inspect internal mechanism.
Material protection subassembly 5 includes flexible post 51, anterior backup pad 52, fixed cover 53, baffle 54 and buffer pad 55, fixed cover 53 has been cup jointed respectively to both sides around the last pivot of belt conveyer 2, the corresponding one side of one side difference fixed connection baffle 54 of supporting leg 41 on both sides is the one side that corresponds around, the one end of two equidistant flexible posts 51 of inboard fixed connection of the vertical direction of L type backup pad 31, buffer spring has been cup jointed respectively on two flexible posts 51, the left surface of the anterior backup pad 52 of other end fixed connection of two flexible posts 51, one side difference fixed connection buffer pad 55 that anterior backup pad 52 and two baffles 54 correspond each other, anterior backup pad 52 and two baffles 54 correspond with the left side and the front and back both sides of belt conveyer 2 respectively.
The telescopic column 51 is used for buffering a front supporting plate 52, the front supporting plate 52 is used for preventing the lilies from falling from the left end of the belt conveyor 2, the fixing sleeve 53 is used for fixing a baffle plate 54, the baffle plate 54 is used for preventing the lilies from falling from the two sides of the belt conveyor 2 so as to protect the lilies, and the cushion pad 55 is used for protecting the lilies and preventing the lilies from being damaged by the device.
Still include loose axle 7 and rubber and plastic heated board 8, the position that the left and right sides of protective housing 42 was located between two front and back supporting legs 41 passes through loose axle 7 and a plurality of equidistant heated board 8 swing joint.
Rubber and plastic heated board 8 adopts aluminium foil gum heat preservation heat insulating board, keeps warm between belt conveyer 2 and protective housing 42, increases the efficiency of driping, and loose axle 7 is used for letting rubber and plastic heated board 8 activity, lets the lily can follow rubber and plastic heated board 8 and get into protective housing 42 lower extreme, drips.
The utility model provides a pair of lily processing is with quick drain device's theory of operation as follows: firstly, the L-shaped support plate 31 is used for fixing the trapezoid feeding cover 32, the trapezoid feeding cover 32 is used for allowing external lilies to flow into the device, the motor 33 is started, the motor 33 drives the rotating column 34 to rotate, the rotating column 34 drives the chain wheels 36 to rotate, the two chain wheels 36 drive the other chain wheel 36 to rotate through the chain 35, the chain wheels 36 drive the supporting columns 37 to rotate, the supporting columns 37 are used for uniformly paving the lilies, the supporting rods 38 are used for fixing the supporting columns 37, the fixing wheels 39 are used for fixing the uniform sleeve stirring wheels 310, the uniform sleeve stirring wheels 310 rotate to uniformly pave the lilies on the belt conveyor 2 for uniform draining, so that the lilies are uniformly paved on the belt conveyor 2 and conveyed to the lower side of the protective shell 42 through the belt conveyor 2, the protective shell 41 is used for supporting the protective shell 42 through the supporting legs, 42 is used for fixing the fixing plate 43, and the fixing plate 43 is used for fixing the heating sheet 44, the heating sheet 44 is used for heating the wind blown by the blowing fan 48 to increase the draining efficiency, the slide rail 45 is used for driving the T-shaped slider 46 to move, the T-shaped slider 46 is used for fixing the fan supporting plate 47, the fan supporting plate 47 is used for fixing the blowing fan 48, the blowing fan 48 is used for draining the lilies, the moisture of the lilies is removed through hot wind, the hot wind outlet 410 is used for enabling the hot wind to flow out from the hot wind outlet 410 to dry the lilies, the heat dissipation hole 49 is used for dissipating the heat generated by the blowing fan 48 to increase the stability of the device, the inspection door panel 411 is used for inspecting the protection shell 42 to fix the internal structure, the hinge 412 is used for driving the inspection door panel 411 to move, the inspection door panel 411 is fixed on the protection shell 42, the handrail 413 is used for facilitating the movement of the inspection door panel 411 to accelerate the draining of the lilies, and then the drained lilies are collected through the discharge plate 6, and (4) draining is completed.
It should be noted that the core chip of the external control switch set disclosed in the above embodiments is a PLC single chip, the rubber-plastic heat-insulating board 8 is an aluminum foil-backed heat-insulating board, the motor 33 is a servo motor, and the external control switch set controls the operation of the motor 33, the heating plate 44 and the blowing fan 48 by a method commonly used in the prior art.
The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.