CN208871967U - A kind of raisins dehydration device shaken based on dynamic rotation and power - Google Patents

Abstract

The utility model discloses a kind of raisins dehydration devices shaken based on dynamic rotation and power, are related to raisins processing technique field.The raisins dehydration device shaken based on dynamic rotation and power, including the first shell, the inner wall bottom of first shell is fixedly connected with driving device, and first bearing is fixedly connected with inside the upper surface of the first shell, and the inner wall of first bearing is fixedly connected with the surface of driving device.The raisins dehydration device shaken based on dynamic rotation and power, pushing block rotation, move up and down support frame, dehydration barrel vertical tremor is driven, is layered on the raisins in feeding bucket uniformly on feeding bucket inner wall, so that the raisins in effective solution dehydration device are in dehydration, it is packed together, the problem of centrifugal force that raisins far from bucket wall are subject to is lower, and the water of raisins adsorption is easy to cause not take off completely, and the raisins quality after making dehydration lowers.

Description

A kind of raisins dehydration device shaken based on dynamic rotation and power

Technical field

The utility model relates to raisins processing technique field, specially a kind of Portugal shaken based on dynamic rotation and power Grape do dehydration device.

Background technique

Raisins dehydration is the necessary links of raisins process, it determines the final quality of raisins finished product.Greatly Multi-pass crosses centrifugal force, and the water of raisins Adsorption on Surface is got rid of, currently, the raisins in dehydration device dehydration when, heap Together, the centrifugal force that the raisins far from bucket wall are subject to is lower for product, is easy to cause the water of raisins adsorption can not be complete It takes off, the raisins quality after making dehydration lowers.

If Chinese patent notification number is that CN207220114U discloses a kind of full-automatic raisins dehydration dryer, electricity is started Source begins to spin-drying operation, and raisins can be collected at vertical barrel side in inner cylinder centrifugal process, and water can enter along limbers Plenum chamber is directly flowed out from drainpipe, but when being dehydrated to more raisins, raisins under the influence of centrifugal force, heap For product on vertical barrel side, the centrifugal force being subject to far from vertical barrel is lower, can not thoroughly get rid of the water of raisins adsorption It is dry.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of raisins shaken based on dynamic rotation and power Dehydration device solves currently, raisins in dehydration device are packed together in dehydration, the raisins far from bucket wall by The centrifugal force arrived is lower, is easy to cause the water of raisins adsorption not take off completely, the grape dry product after making dehydration The problem of matter lowers.

(2) technical solution

In order to achieve the above object, the utility model is achieved by the following technical programs: one kind based on dynamic rotation and The raisins dehydration device of power vibration, including the first shell, the inner wall bottom of first shell are fixedly connected with driving dress It sets, is fixedly connected with first bearing inside the upper surface of first shell, the inner wall of the first bearing and driving device Surface is fixedly connected, and inside the two sides up and down of first shell and is located at left and right sides of driving device and is fixedly connected to the Two bearings, the inner wall of the second bearing are fixedly connected with first rotating shaft, the surface of the first rotating shaft and the table of driving device Face is fixedly connected to the first transmission device, and the upper surface of first shell is simultaneously fixedly connected between the first rotating shaft of left and right There is supporting leg, be fixedly connected with dust-collecting bucket at the top of the supporting leg, the is fixedly connected at left and right sides of the dust-collecting bucket The top of two shells, the first rotating shaft through second housing and extends to outside second housing, the top of the first rotating shaft It is fixedly connected with limited block, the inner wall surrounding of the dust-collecting bucket offers the first groove, and the inner wall of first groove is provided with First ball, the inner wall of the dust-collecting bucket are provided with dehydration device, and the surface of the dehydration device and the surface of the first ball are sliding Dynamic connection, the inner wall of the dehydration device are provided with feeding bucket, and the inner wall bottom of the feeding bucket offers fixing groove, described solid The surface of the inner wall and dehydration device of determining slot cooperates, and the left and right sides of the dust-collecting bucket is simultaneously opened positioned at the inside of second housing Equipped with sliding slot, the inner wall of the sliding slot is fixedly connected to slide bar in two sides up and down, and the surface of the slide bar is socketed with support frame, institute The inner wall for stating support frame offers the second groove, and the inner wall of second groove is provided with the second ball, second ball Surface and the surface of dehydration device are slidably connected, and the surface of the dehydration device is simultaneously fixedly connected positioned at the two sides up and down of support frame Restraining position ring block, the stop collar are slidably connected close to the side of support frame and the surface of support frame, the surface of the first rotating shaft And the inside for being located at second housing is fixedly connected with pushing block, the inner wall of the pushing block and the surface of support frame are slidably connected, The surface of the dehydration device is simultaneously fixedly connected with rotating device between upper lower bracing frame, and the surface of the first rotating shaft is simultaneously Be fixedly connected with the second transmission device between upper and lower pushing block, the inner wall of second transmission device and rotating device it is interior Wall socket, the inner wall top of the dust-collecting bucket are fixedly connected with humidity sensor, and the inner wall bottom of first shell is fixed to be connected It is connected to controller, the upper surface of first shell is simultaneously fixedly connected with water collector between the first rotating shaft of left and right, described The bottom of dust-collecting bucket is fixedly connected with outlet pipe, and the inner wall of the outlet pipe is fixedly connected with solenoid valve, the controller difference It is electrically connected with driving device, humidity sensor, water collector and solenoid valve.

Preferably, the driving device includes motor rack, driving motor and the second shaft, the bottom of the motor rack and the The inner wall bottom of one shell is fixedly connected, and the inner wall of the motor rack is fixedly connected with driving motor, the driving motor it is defeated Outlet is fixedly connected with the second shaft by shaft coupling, and the surface of second shaft is fixedly connected with the inner wall of first bearing, The surface of second shaft is fixedly connected with the inner wall of the first transmission device.

Preferably, first transmission device include the first turntable and the first transmission belt, the surface of the first rotating shaft with The surface of second shaft is fixedly connected with the inner wall of the first turntable, and the inner wall of the first turntable of left and right is socketed with the first transmission Band.

Preferably, the dehydration device includes dehydration barrel, link block, connecting rod, the first spring and hook, the dehydration barrel Surface of the surface respectively with the surface of the first ball and the second ball be slidably connected, the inner wall of the dehydration barrel and feeding bucket Surface cooperates, and the surface of the dehydration barrel is fixedly connected with the inner wall of the inner wall of stop collar and rotating device respectively, described The fixed surrounding of dehydration barrel surface crown is fixedly connected to link block, and the inner wall of the link block is hinged with connection by pin shaft Bar, the inner wall bottom of the connecting rod are fixedly connected with the first spring, hook, institute are fixedly connected at the top of first spring The inner wall on the surface and connecting rod of stating hook is slidably connected, and the surface of the hook and the inner wall of fixing groove cooperate.

Preferably, the rotating device includes support ring, the second turntable and guide rod, the inner wall of the support ring and dehydration The surface of bucket is fixedly connected, and the surface of the dehydration barrel simultaneously slidably connects the second turntable between upper and lower support ring, described Support ring is fixedly connected with guide rod, the inner wall sliding on the surface of the guide rod and the second turntable close to the side of the second turntable Connection, the inner wall of second turntable and the second transmission device are socketed.

Preferably, second transmission device includes third turntable and the second transmission belt, the inner wall of the third turntable with The surface of first rotating shaft is simultaneously fixedly connected between upper and lower pushing block, and the surface of the third turntable is socketed with the second transmission Band, the inner wall of second transmission belt and the inner wall of the second turntable are socketed.

Preferably, the water collector includes support plate, pressure sensor, first support bar, second spring, the second support The upper surface of bar, fixed frame, receipts water tank and catch bar, the bottom of the support plate and the first shell is simultaneously located at left and right first rotating shaft Between be fixedly connected, the upper surface of the support plate is fixedly connected with pressure sensor, the pressure sensor and controller electricity The upper surface of connection, the bottom of the first support bar and the first shell and the fixed company between first rotating shaft and support plate It connects, the inner wall bottom of the first support bar is fixedly connected with second spring, and is fixedly connected at the top of the second spring Two support rods, the surface of the second support bar and the inner wall of first support bar are slidably connected, the top of the second support bar It is fixedly connected with fixed frame, the inner wall of the fixed frame is provided with receipts water tank, and the bottom of the fixed frame is simultaneously located at pressure sensing Catch bar is fixedly connected with above device.

Preferably, the surface of support frame as described above is fixedly connected with water fender, side of the water fender far from dehydration device It is slidably connected with the inner wall of dust-collecting bucket.

(3) beneficial effect

The utility model provides a kind of raisins dehydration device shaken based on dynamic rotation and power.Having following has Beneficial effect:

(1), the raisins dehydration device that should be shaken based on dynamic rotation and power, is passed by setting driving device, first Dynamic device, rotating device and the second transmission device, open driving device, are cooperated, are made by the first turntable and the first turntable First rotating shaft rotation drives the rotation of the second turntable by the second transmission device, dehydration barrel is made to generate centrifugal force, and raisins surface is inhaled Attached water is thrown away, meanwhile, pushing block rotation moves up and down support frame, drives dehydration barrel vertical tremor, make the Portugal in feeding bucket Grape are dry uniformly is layered on feeding bucket inner wall, so that the raisins in effective solution dehydration device are deposited in when being dehydrated Together, the centrifugal force that the raisins far from bucket wall are subject to is lower, and the water of raisins adsorption is easy to cause not take off completely, The problem of raisins quality after making dehydration lowers.

(2), the raisins dehydration device that should be shaken based on dynamic rotation and power, passes through the first groove of setting and the first rolling Pearl, when dehydration device rotates, the first ball is rolling friction to the friction on dehydration device surface, make dehydration device surface abrasion compared with It is low, prevent the surface of dehydration device from directly contacting with the inner wall of dust-collecting bucket, make dehydration device surface and dust-collecting bucket inner wall it Between generate biggish force of sliding friction, keep dehydration device surface abrasion larger, cause dehydration device normal service life reduction.

(3), the raisins dehydration device that should be shaken based on dynamic rotation and power, passes through the second groove of setting and the second rolling Pearl, when dehydration device rotates, the second ball is rolling friction to the friction on dehydration device surface, make dehydration device surface abrasion compared with It is low, prevent the surface of dehydration device from directly contacting with the inner wall of support frame, make dehydration device surface and support frame inner wall it Between generate biggish force of sliding friction, keep dehydration device surface abrasion larger, cause dehydration device normal service life reduction.

(4), raisins dehydration device that should be shaken based on dynamic rotation and power passes through setting link block, connecting rod, the The feeding bucket for filling raisins is put into inside dehydration barrel by one spring, hook, feeding bucket and fixing groove, then is inserted a hook into solid To determine inside slot, the first spring pulls hook, and it is fixed on hook inside fixing groove, feeding bucket is fixed together with dehydration barrel, Make feeding bucket that dehydration barrel be followed to rotate together, after the completion of dehydration, pulls hook, hook is exited inside fixing groove, feeding bucket is made It separates with dehydration barrel, feeding bucket is mounted and dismounted convenient for operating personnel, meanwhile, by the way that feeding bucket is arranged, being convenient for will Raisins take out.

(5), the raisins dehydration device that should be shaken based on dynamic rotation and power, passes through setting humidity sensor and control Device, in dehydration, in dust-collecting bucket, when humidity is reduced to designated position, dehydration is completed, and humidity sensor detects this letter Number, driving device is controlled by controller and is closed, is prevented after the dehydration is completed, driving device fails to close in time, leads to electric energy Waste.

(6), raisins dehydration device that should be shaken based on dynamic rotation and power, by being arranged water collector, when dehydration The waste water of generation, is discharged by outlet pipe, and into receiving inside water tank, the elastic force of second spring is equal to the downward pressure of second support bar Power, after waste water enters receipts water tank inside, the downward pressure of second support bar increases, and moves down catch bar, when catch bar is pressed When dynamic pressure force snesor, is received inside water tank at this time and fill with waste water, signal is passed to controller by pressure sensor, passes through controller It controls solenoid valve to close, is draining outlet pipe not, after preventing the waste water in receipts water tank to fill with, outlet pipe continues to drain, and causes The waste water received in water tank overflows, and is not easy to be collected waste water.

(7), the raisins dehydration device that should be shaken based on dynamic rotation and power prevents from being dehydrated by the way that water fender is arranged When the waste water that generates entered inside second housing by sliding slot, lead to second housing inner body surface moisture, be easy to cause zero Part gets rusty, and makes the reduction of part normal service life.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is enlarged drawing at A in the utility model Fig. 1；

Fig. 3 is enlarged drawing at B in the utility model Fig. 1；

Fig. 4 is enlarged drawing at C in the utility model Fig. 1；

Fig. 5 is enlarged drawing at D in the utility model Fig. 1；

Fig. 6 is the cross-sectional view of the utility model dust-collecting bucket.

In figure: 1 first shell, 2 driving devices, 201 motor racks, 202 driving motors, 203 second shafts, 3 first bearings, 4 second bearings, 5 first rotating shafts, 6 first transmission devices, 601 first turntables, 602 first transmission belts, 7 supporting legs, 8 dust-collecting buckets, 9 Second housing, 10 limited blocks, 11 first grooves, 12 first balls, 13 dehydration devices, 1301 dehydration barrels, 1302 link blocks, 1303 Connecting rod, 1,304 first springs, 1305 hooks, 14 feeding buckets, 15 fixing grooves, 16 sliding slots, 17 slide bars, 18 support frames, 19 second Groove, 20 second balls, 21 stop collars, 22 pushing blocks, 23 rotating devices, 2301 support rings, 2,302 second turntables, 2303 guiding Water dress is received in bar, 24 second transmission devices, 2401 third turntables, 2,402 second transmission belts, 25 humidity sensors, 26 controllers, 27 It sets, 2701 support plates, 2702 pressure sensors, 2703 first support bars, 2704 second springs, 2705 second support bars, 2706 Water tank, 2708 catch bars, 28 outlet pipes, 29 solenoid valves, 30 water fenders are received in fixed frame, 2707.

Specific embodiment

Following embodiment material therefor, method and instrument are this field conventional material without specified otherwise, method and Instrument, those of ordinary skill in the art can be obtained by commercial channel.

The utility model in following description, it should be noted that term " center ", " longitudinal direction ", " transverse direction ", "upper", The orientation or positional relationship of the instructions such as "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outside" and " endways " is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot understand For limitations of the present invention.

The utility model in following description, it should be noted that unless otherwise expressly provided with limit, term " peace Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be and be directly connected to, can also be indirectly connected with by intermediary, can be the connection of two components interiors.It is right For those skilled in the art, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

In addition, the utility model in following description, unless otherwise indicated, " multiple ", " multiple groups ", the meaning of " more " It is two or more.

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-6 is please referred to, the utility model provides a kind of technical solution: a kind of Portugal shaken based on dynamic rotation and power Grape do dehydration device 13, including the first shell 1, and the inner wall bottom of the first shell 1 is fixedly connected with driving device 2, the first shell 1 Upper surface inside be fixedly connected with first bearing 3, the inner wall of first bearing 3 is fixedly connected with the surface of driving device 2, first It is fixedly connected to second bearing 4 inside the two sides up and down of shell 1 and positioned at the left and right sides of driving device 2, second bearing 4 Inner wall is fixedly connected with first rotating shaft 5, and the surface of first rotating shaft 5 and the surface of driving device 2 are fixedly connected to the first transmission Device 6, the upper surface of the first shell 1 are simultaneously fixedly connected with supporting leg 7, the top of supporting leg 7 between left and right first rotating shaft 5 Be fixedly connected with dust-collecting bucket 8, dust-collecting bucket 8 at left and right sides of be fixedly connected to second housing 9, pass through setting second housing 9, will Part inside second housing 9 is kept apart with external environment, prevents the dust in air to be adsorbed on piece surface, part is caused to exist When rotation, increase the abrasion of piece surface, make the reduction of part normal service life, second housing 9 is run through at the top of first rotating shaft 5 And extend to outside second housing 9, the top of first rotating shaft 5 is fixedly connected with limited block 10, and limited block 10 plays first rotating shaft 5 To supporting role, the inner wall surrounding of dust-collecting bucket 8 offers the first groove 11, and the inner wall of the first groove 11 is provided with the first ball 12, the inner wall of dust-collecting bucket 8 is provided with dehydration device 13, and the surface of dehydration device 13 and the surface of the first ball 12 are slidably connected, By the first groove 11 of setting and the first ball 12, when dehydration device 13 rotates, the first ball 12 is to 13 surface of dehydration device Friction is rolling friction, keeps 13 surface abrasion of dehydration device lower, prevents the surface of dehydration device 13 and the inner wall of dust-collecting bucket 8 straight Contact, makes to generate biggish force of sliding friction between the surface of dehydration device 13 and the inner wall of dust-collecting bucket 8, makes dehydration device 13 Surface abrasion is larger, leads to the reduction of 13 normal service life of dehydration device, and the inner wall of dehydration device 13 is provided with feeding bucket 14, leads to Cross setting feeding bucket 14, convenient for taking out raisins, the inner wall bottom of feeding bucket 14 offers fixing groove 15, fixing groove 15 it is interior The surface of wall and dehydration device 13 cooperates, and the left and right sides of dust-collecting bucket 8 simultaneously offers sliding slot positioned at the inside of second housing 9 16, the inner wall of sliding slot 16 is fixedly connected to slide bar 17 in two sides up and down, and the surface of slide bar 17 is socketed with support frame 18, and slide bar 17 is right Support frame 18 plays support and guiding role, and the surface of support frame 18 is fixedly connected with water fender 30, and water fender 30 is far from dehydration The side of device 13 and the inner wall of dust-collecting bucket 8 are slidably connected, and by the way that water fender 30 is arranged, prevent the waste water generated when dehydration from passing through Sliding slot 16 enters inside second housing 9, leads to 9 inner body surface moisture of second housing, is easy to cause part to get rusty, makes part Normal service life reduces, and the inner wall of support frame 18 offers the second groove 19, and the inner wall of the second groove 19 is provided with the second rolling Pearl 20, the surface of the second ball 20 and the surface of dehydration device 13 are slidably connected, and pass through the second groove 19 of setting and the second ball 20, when dehydration device 13 rotates, the second ball 20 is rolling friction to the friction on 13 surface of dehydration device, makes 13 table of dehydration device Surface wear is lower, prevents the surface of dehydration device 13 from directly contacting with the inner wall of support frame 18, make the surface of dehydration device 13 with Biggish force of sliding friction is generated between the inner wall of support frame 18, is kept 13 surface abrasion of dehydration device larger, is led to dehydration device 13 normal service lifes reduce, and the surface of dehydration device 13 is simultaneously fixedly connected with restraining position ring block positioned at the two sides up and down of support frame 18 21, by be arranged stop collar 21, dehydration device 13 and support frame 18 are fixed together, stop collar 21 close to support frame 18 one Side and the surface of support frame 18 are slidably connected, and the surface of first rotating shaft 5 is simultaneously fixedly connected with promotion positioned at the inside of second housing 9 The surface of block 22, the inner wall and support frame 18 of pushing block 22 is slidably connected, and the surface of dehydration device 13 is simultaneously located at upper lower bracing frame Rotating device 23 is fixedly connected between 18, the surface of first rotating shaft 5 is simultaneously fixedly connected between upper and lower pushing block 22 Two transmission devices 24, the inner wall of the second transmission device 24 and the inner wall of rotating device 23 are socketed, fixed at the top of the inner wall of dust-collecting bucket 8 It is connected with humidity sensor 25, the inner wall bottom of the first shell 1 is fixedly connected with controller 26, and the upper surface of the first shell 1 is simultaneously Water collector 27 is fixedly connected between left and right first rotating shaft 5, the bottom of dust-collecting bucket 8 is fixedly connected with outlet pipe 28, out The inner wall of water pipe 28 is fixedly connected with solenoid valve 29, controller 26 respectively with driving device 2, humidity sensor 25, water collector 27 and solenoid valve 29 be electrically connected, by setting humidity sensor 25 and controller 26, in dehydration, in dust-collecting bucket 8, humidity When being reduced to designated position, dehydration is completed, and humidity sensor 25 detects this signal, controls driving device 2 by controller 26 It closes, prevents after the dehydration is completed, driving device 2 fails to close in time, leads to the waste of electric energy.

Driving device 2 includes motor rack 201, driving motor 202 and the second shaft 203, the bottom of motor rack 201 and first The inner wall bottom of shell 1 is fixedly connected, and the inner wall of motor rack 201 is fixedly connected with driving motor 202, driving motor 202 it is defeated Outlet is fixedly connected with the second shaft 203, the surface of the second shaft 203 and the fixed company of the inner wall of first bearing 3 by shaft coupling It connects, the surface of the second shaft 203 is fixedly connected with the inner wall of the first transmission device 6.

First transmission device 6 includes the first turntable 601 and the first transmission belt 602, the surface of first rotating shaft 5 and the second shaft 203 surface is fixedly connected with the inner wall of the first turntable 601, and the inner wall of the first turntable 601 of left and right is socketed with the first biography Dynamic band 602, opens driving device 2, is cooperated by the first turntable 601 and the first turntable 601, rotates first rotating shaft 5.

Dehydration device 13 includes dehydration barrel 1301, link block 1302, connecting rod 1303, the first spring 1304 and hook 1304, surface of the surface of dehydration barrel 1301 respectively with the surface of the first ball 12 and the second ball 20 is slidably connected, dehydration barrel The surface of 1301 inner wall and feeding bucket 14 cooperates, the surface of dehydration barrel 1301 respectively with the inner wall of stop collar 21 and rotation The inner wall of device 23 is fixedly connected, and the fixed surrounding of 1301 surface crown of dehydration barrel is fixedly connected to link block 1302, link block 1302 inner wall is hinged with connecting rod 1303 by pin shaft, and the inner wall bottom of connecting rod 1303 is fixedly connected with the first spring 1304, the top of the first spring 1304 is fixedly connected with hook 1304, and the elastic force of the first spring 1304 is greater than the weight of hook 1304 Power, links up with 1304 surface and the inner wall of connecting rod 1303 is slidably connected, and links up with 1304 surface and the inner wall phase of fixing groove 15 Mutually cooperation passes through setting link block 1302, connecting rod 1303, the first spring 1304, hook 1304, feeding bucket 14 and fixing groove 15, the feeding bucket 14 for filling raisins is put into inside dehydration barrel 1301, then hook 1304 is inserted into inside fixing groove 15, first Spring 1304 pulls hook 1304, is fixed on hook 1304 inside fixing groove 15, and feeding bucket 14 and dehydration barrel 1301 is fixed Together, make feeding bucket 14 that dehydration barrel 1301 be followed to rotate together, after the completion of dehydration, pull hook 1304, hook 1304 is moved back Out inside fixing groove 15, separate feeding bucket 14 with dehydration barrel 1301, convenient for operating personnel to feeding bucket 14 carry out installation and Disassembly.

Rotating device 23 include support ring 2301, the second turntable 2302 and guide rod 2303, the inner wall of support ring 2301 with The surface of dehydration barrel 1301 is fixedly connected, and the surface of dehydration barrel 1301 simultaneously slidably connects between upper and lower support ring 2301 Two turntables 2302, support rod play position-limiting action to the second turntable 2302, and support ring 2301 is close to the side of the second turntable 2302 It is fixedly connected with guide rod 2303, the surface of guide rod 2303 and the inner wall of the second turntable 2302 are slidably connected, guide rod 2303 Guiding and supporting role are played to the second turntable 2302, the inner wall of the second turntable 2302 and the second transmission device 24 are socketed.

Second transmission device 24 includes third turntable 2401 and the second transmission belt 2402, the inner wall of third turntable 2401 and the The surface of one shaft 5 is simultaneously fixedly connected between upper and lower pushing block 22, and the surface of third turntable 2401 is socketed with the second transmission The inner wall of band 2402, the inner wall of the second transmission belt 2402 and the second turntable 2302 is socketed, and drives the by the second transmission device 24 The rotation of two turntables 2302.

Water collector 27 include support plate 2701, pressure sensor 2702, first support bar 2703, second spring 2704, Second support bar 2705, receives water tank 2707 and catch bar 2708, the bottom of support plate 2701 and the first shell 1 at fixed frame 2706 Upper surface and be fixedly connected between left and right first rotating shaft 5, the upper surface of support plate 2701 is fixedly connected with pressure sensing Device 2702, pressure sensor 2702 are electrically connected with controller 26, the upper surface of the bottom of first support bar 2703 and the first shell 1 And be fixedly connected between first rotating shaft 5 and support plate 2701, the inner wall bottom of first support bar 2703 is fixedly connected with Two springs 2704, the top of second spring 2704 are fixedly connected with second support bar 2705, the surface of second support bar 2705 with The inner wall of first support bar 2703 is slidably connected, and the top of second support bar 2705 is fixedly connected with fixed frame 2706, fixed frame 2706 inner wall, which is provided with, receives water tank 2707, and the bottom of fixed frame 2706 is simultaneously fixedly connected positioned at the top of pressure sensor 2702 There is catch bar 2708, by the way that water collector 27 is arranged, the waste water that when dehydration generates is discharged by outlet pipe 28, into receiving water tank Inside 2707, the elastic force of second spring 2704, which is equal to, receives the downward pressure of second support bar 2705 when water tank 2707 is not filled with water, gives up Water enters receive 2707 inside of water tank after, the downward pressure of second support bar 2705 increases, and moves down catch bar 2708, when pushing away It when lever 2708 presses pressure sensor 2702, is received inside water tank 2707 at this time and fills with waste water, pressure sensor 2702 is by signal Controller 26 is passed to, solenoid valve 29 is controlled by controller 26 and is closed, is draining outlet pipe 28 not, prevents from receiving water tank 2707 After interior waste water fills with, outlet pipe 28 continues to drain, and leads to receive the waste water in water tank 2707 and overflows, is not easy to receive waste water Collection.

When this is worked based on the raisins dehydration device 13 that dynamic rotation and power shake, the feeding bucket of raisins will be filled 14 are put into inside dehydration barrel 1301, then hook 1304 is inserted into inside fixing groove 15, and the first spring 1304 pulls hook 1304, makes Hook 1304 is fixed on inside fixing groove 15, and feeding bucket 14 and dehydration barrel 1301 are fixed together, follow feeding bucket 14 de- Bucket 1301 rotates together, and opens driving device 2, is cooperated by the first turntable 601 and the first turntable 601, makes first turn Axis 5 rotates, and drives the rotation of the second turntable 2302 by the second transmission device 24, dehydration barrel 1301 is made to generate centrifugal force, raisins The water of adsorption is thrown away, meanwhile, pushing block 22 rotates, and moves up and down support frame 18,1301 vertical tremor of dehydration barrel is driven, It is layered on the raisins in feeding bucket 14 uniformly on 14 inner wall of feeding bucket, the waste water taken off is discharged by outlet pipe 28, into Enter to receive inside water tank 2707, the elastic force of second spring 2704 is equal to the downward pressure of second support bar 2705, and waste water enters receipts water Behind 2707 inside of case, the downward pressure of second support bar 2705 increases, and moves down catch bar 2708, when catch bar 2708 is pressed When dynamic pressure force snesor 2702, is received inside water tank 2707 at this time and fill with waste water, signal is passed to control by pressure sensor 2702 Device 26 controls solenoid valve 29 by controller 26 and closes, draining outlet pipe 28 not, will receive 2707 waste water of water tank and cleans out It goes, after the completion of cleaning, opens solenoid valve 29, make the water inside dust-collecting bucket 8 continue to discharge into inside receipts water tank 2707, when dust-collecting bucket 8 Interior, when humidity is reduced to designated position, dehydration is completed, and humidity sensor 25 detects this signal, is controlled and is driven by controller 26 Dynamic device 2 is closed, and pulls hook 1304, hook 1304 is exited inside fixing groove 15, divides feeding bucket 14 with dehydration barrel 1301 It leaves, the raisins after 14 internal anhydro of feeding bucket is taken out.

In conclusion the raisins dehydration device 13 that should be shaken based on dynamic rotation and power, by the way that driving device is arranged 2, the first transmission device 6, rotating device 23 and the second transmission device 24 open driving device 2, pass through the first turntable 601 and the One turntable 601 cooperates, and rotates first rotating shaft 5, drives the rotation of the second turntable 2302 by the second transmission device 24, makes to take off Bucket 1301 generates centrifugal force, and the water of raisins adsorption is thrown away, meanwhile, pushing block 22 rotates, and makes to move down on support frame 18 It is dynamic, 1301 vertical tremor of dehydration barrel is driven, is layered on the raisins in feeding bucket 14 uniformly on 14 inner wall of feeding bucket, to have The raisins of effect solved in dehydration device 13 are packed together in dehydration, the centrifugation that the raisins far from bucket wall are subject to Power is lower, and the water of raisins adsorption is easy to cause not take off completely, what the raisins quality after making dehydration lowered Problem.

Meanwhile by the first groove 11 of setting and the first ball 12, when dehydration device 13 rotates, the dehydration of the first 12 pairs of ball The friction on 13 surface of device is rolling friction, keeps 13 surface abrasion of dehydration device lower, prevents surface and the collection of dehydration device 13 The inner wall of bucket 8 directly contacts, and makes to generate biggish sliding friction between the surface of dehydration device 13 and the inner wall of dust-collecting bucket 8 Power keeps 13 surface abrasion of dehydration device larger, leads to the reduction of 13 normal service life of dehydration device.

Meanwhile by the second groove 19 of setting and the second ball 20, when dehydration device 13 rotates, the dehydration of the second 20 pairs of ball The friction on 13 surface of device is rolling friction, keeps 13 surface abrasion of dehydration device lower, prevents surface and the branch of dehydration device 13 The inner wall of support 18 directly contacts, and makes to generate biggish sliding friction between the surface of dehydration device 13 and the inner wall of support frame 18 Power keeps 13 surface abrasion of dehydration device larger, leads to the reduction of 13 normal service life of dehydration device.

Meanwhile by setting link block 1302, connecting rod 1303, the first spring 1304, hook 1304, feeding bucket 14 and consolidating Determine slot 15, the feeding bucket 14 for filling raisins be put into inside dehydration barrel 1301, then hook 1304 is inserted into inside fixing groove 15, First spring 1304 pulls hook 1304, is fixed on hook 1304 inside fixing groove 15, by feeding bucket 14 and dehydration barrel 1301 It is fixed together, makes feeding bucket 14 that dehydration barrel 1301 be followed to rotate together, after the completion of dehydration, pull hook 1304, will link up with 1304 exit inside fixing groove 15, separate feeding bucket 14 with dehydration barrel 1301, carry out convenient for operating personnel to feeding bucket 14 Installation and removal, meanwhile, by the way that feeding bucket 14 is arranged, convenient for raisins are taken out.

Meanwhile by setting humidity sensor 25 and controller 26, in dehydration, in dust-collecting bucket 8, humidity is reduced to When designated position, dehydration is completed, and humidity sensor 25 detects this signal, is controlled driving device 2 by controller 26 and is closed, prevents Only after the dehydration is completed, driving device 2 fails to close in time, leads to the waste of electric energy.

Meanwhile by the way that water collector 27 is arranged, the waste water that when dehydration generates is discharged by outlet pipe 28, into receiving water tank Inside 2707, the elastic force of second spring 2704 is equal to the downward pressure of second support bar 2705, and waste water, which enters, to be received in water tank 2707 Behind portion, the downward pressure of second support bar 2705 increases, and moves down catch bar 2708, when catch bar 2708 is passed by dynamic pressure When sensor 2702, is received inside water tank 2707 at this time and fill with waste water, signal is passed to controller 26, passed through by pressure sensor 2702 Controller 26 controls solenoid valve 29 and closes, and is draining outlet pipe 28 not, after preventing the waste water in receipts water tank 2707 to fill with, water outlet Pipe 28 continues to drain, and leads to receive the waste water in water tank 2707 and overflows, is not easy to be collected waste water.

Meanwhile by the way that water fender 30 is arranged, prevent the waste water generated when dehydration from entering in second housing 9 by sliding slot 16 Portion leads to 9 inner body surface moisture of second housing, part is easy to cause to get rusty, and makes the reduction of part normal service life

The electric elements occurred in this article are electrically connected with extraneous main controller and 220V alternating current, and main controller can be meter Calculation machine etc. plays the conventionally known equipment of control.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (8)

1. a kind of raisins dehydration device shaken based on dynamic rotation and power, including the first shell (1), it is characterised in that: The inner wall bottom of first shell (1) is fixedly connected with driving device (2), solid inside the upper surface of first shell (1) Surely it being connected with first bearing (3), the inner wall of the first bearing (3) is fixedly connected with the surface of driving device (2), and described first It is fixedly connected to second bearing (4) inside the two sides up and down of shell (1) and at left and right sides of driving device (2), it is described The inner wall of second bearing (4) is fixedly connected with first rotating shaft (5), the surface of the first rotating shaft (5) and the table of driving device (2) Face is fixedly connected to the first transmission device (6), the upper surface of first shell (1) and be located at left and right first rotating shaft (5) it Between be fixedly connected with supporting leg (7), be fixedly connected with dust-collecting bucket (8) at the top of the supporting leg (7), the dust-collecting bucket (8) The left and right sides is fixedly connected to second housing (9), and the top of the first rotating shaft (5) through second housing (9) and extends to Second housing (9) is external, is fixedly connected with limited block (10) at the top of the first rotating shaft (5), the inner wall of the dust-collecting bucket (8) Surrounding offers the first groove (11), and the inner wall of first groove (11) is provided with the first ball (12), the dust-collecting bucket (8) Inner wall be provided with dehydration device (13), the surface of the dehydration device (13) and the surface of the first ball (12) are slidably connected, The inner wall of the dehydration device (13) is provided with feeding bucket (14), and the inner wall bottom of the feeding bucket (14) offers fixing groove (15), the surface of the inner wall of the fixing groove (15) and dehydration device (13) cooperates, the left and right sides of the dust-collecting bucket (8) And the inside for being located at second housing (9) offers sliding slot (16), the inner wall of the sliding slot (16) is fixedly connected to two sides up and down The surface of slide bar (17), the slide bar (17) is socketed with support frame (18), and it is recessed that the inner wall of support frame as described above (18) offers second The inner wall of slot (19), second groove (19) is provided with the second ball (20), the surface of second ball (20) and dehydration The surface of device (13) is slidably connected, the fixed company in the surface of the dehydration device (13) and the two sides up and down for being located at support frame (18) It being connected to stop collar (21), the stop collar (21) is slidably connected close to the side of support frame (18) and the surface of support frame (18), The surface of the first rotating shaft (5) is simultaneously fixedly connected with pushing block (22), the pushing block positioned at the inside of second housing (9) (22) inner wall and the surface of support frame (18) are slidably connected, and the surface of the dehydration device (13) is simultaneously located at upper lower bracing frame (18) it is fixedly connected between rotating device (23), the surface of the first rotating shaft (5) and between upper and lower pushing block (22) It is fixedly connected with the second transmission device (24), the inner wall of second transmission device (24) and the inner wall sleeve of rotating device (23) It connects, is fixedly connected with humidity sensor (25) at the top of the inner wall of the dust-collecting bucket (8), the inner wall bottom of first shell (1) It is fixedly connected with controller (26), the upper surface of first shell (1) is simultaneously fixedly connected between left and right first rotating shaft (5) Have water collector (27), the bottom of the dust-collecting bucket (8) is fixedly connected with outlet pipe (28), and the inner wall of the outlet pipe (28) is solid Surely be connected with solenoid valve (29), the controller (26) respectively with driving device (2), humidity sensor (25), water collector (27) it is electrically connected with solenoid valve (29).

2. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: the driving device (2) includes motor rack (201), driving motor (202) and the second shaft (203), the motor rack (201) bottom is fixedly connected with the inner wall bottom of the first shell (1), and the inner wall of the motor rack (201) is fixedly connected with drive Dynamic motor (202), the output end of the driving motor (202) are fixedly connected with the second shaft (203) by shaft coupling, and described the The surface of two shafts (203) is fixedly connected with the inner wall of first bearing (3), and the surface of second shaft (203) is passed with first The inner wall of dynamic device (6) is fixedly connected.

3. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: first transmission device (6) includes the first turntable (601) and the first transmission belt (602), the table of the first rotating shaft (5) Face is fixedly connected with the inner wall of the first turntable (601) with the surface of the second shaft (203), and left and right the first turntable (601) Inner wall is socketed with the first transmission belt (602).

4. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: the dehydration device (13) includes dehydration barrel (1301), link block (1302), connecting rod (1303), the first spring (1304) With hook (1305), the surface of the dehydration barrel (1301) table with the surface of the first ball (12) and the second ball (20) respectively Face is slidably connected, and the inner wall of the dehydration barrel (1301) and the surface of feeding bucket (14) cooperate, the dehydration barrel (1301) Surface be fixedly connected respectively with the inner wall of the inner wall of stop collar (21) and rotating device (23), dehydration barrel (1301) surface The fixed surrounding in top is fixedly connected to link block (1302), and the inner wall of the link block (1302) is hinged with connection by pin shaft The inner wall bottom of bar (1303), the connecting rod (1303) is fixedly connected with the first spring (1304), first spring (1304) it is fixedly connected at the top of hook (1305), the surface of the hook (1305) and the inner wall of connecting rod (1303) slide Connection, the surface of the hook (1305) and the inner wall of fixing groove (15) cooperate.

5. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: the rotating device (23) includes support ring (2301), the second turntable (2302) and guide rod (2303), the support ring (2301) inner wall is fixedly connected with the surface of dehydration barrel (1301), and the surface of the dehydration barrel (1301) is simultaneously located at support up and down It is slidably connected between ring (2301) the second turntable (2302), side of the support ring (2301) close to the second turntable (2302) It being fixedly connected with guide rod (2303), the surface of the guide rod (2303) and the inner wall of the second turntable (2302) are slidably connected, The inner wall and the second transmission device (24) of second turntable (2302) are socketed.

6. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: second transmission device (24) includes third turntable (2401) and the second transmission belt (2402), the third turntable (2401) inner wall is fixedly connected with the surface of first rotating shaft (5) and between upper and lower pushing block (22), the third turntable (2401) surface is socketed with the second transmission belt (2402), the inner wall and the second turntable (2302) of second transmission belt (2402) Inner wall socket.

7. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: the water collector (27) includes support plate (2701), pressure sensor (2702), first support bar (2703), the second bullet Spring (2704), fixed frame (2706), receives water tank (2707) and catch bar (2708), the support plate at second support bar (2705) (2701) bottom is fixedly connected with the upper surface of the first shell (1) and between left and right first rotating shaft (5), the support plate (2701) upper surface is fixedly connected with pressure sensor (2702), the pressure sensor (2702) and controller (26) electricity Connection, the bottom of the first support bar (2703) and the upper surface of the first shell (1) are simultaneously located at first rotating shaft (5) and support plate (2701) it is fixedly connected between, the inner wall bottom of the first support bar (2703) is fixedly connected with second spring (2704), institute State and be fixedly connected at the top of second spring (2704) second support bar (2705), the surface of the second support bar (2705) with The inner wall of first support bar (2703) is slidably connected, and is fixedly connected with fixed frame at the top of the second support bar (2705) (2706), the inner wall of the fixed frame (2706), which is provided with, receives water tank (2707), and the bottom of the fixed frame (2706) is simultaneously located at Catch bar (2708) are fixedly connected with above pressure sensor (2702).

8. a kind of raisins dehydration device shaken based on dynamic rotation and power according to claim 1, feature are existed In: the surface of support frame as described above (18) is fixedly connected with water fender (30), and the water fender (30) is far from dehydration device (13) The inner wall of side and dust-collecting bucket (8) is slidably connected.