CN115738353A - External circulation type low-temperature bionic honey concentration equipment - Google Patents

Abstract

The invention relates to the field of low-temperature bionic concentration of honey, and discloses external circulation type medium-honey low-temperature bionic concentration equipment, which comprises an intelligent terminal control sterile bin, a cooling air conditioner and a dehumidifier; the intelligent terminal control sterile bin is internally provided with a dehumidifier for cooling air and removing indoor moisture, the inner side wall of the rear end of the intelligent terminal control sterile bin is fixedly connected with a funnel groove, the left side wall of the intelligent terminal control sterile bin is provided with a waterfall spray head, the left end of the intelligent terminal control sterile bin is provided with a cyclic replacement shelf, the front end face of the cyclic replacement shelf is provided with a buffering descending mechanism, the cyclic replacement shelf is provided with an interface quick-connection mechanism and synchronously extrudes and explodes a fastening sleeve to explode a part, the hose which is sleeved on the outer surface of the inner inserting pipe is clamped and fixed on the outer surface of the inner inserting pipe in a closed mode, and the trouble that a person who comes and goes to pull the hose to fall in the using process is avoided that part of the hose is fixed through a flange.

Description

External circulation type low-temperature bionic concentration equipment for medium honey

Technical Field

The invention relates to the field of low-temperature bionic concentration of honey, in particular to external circulation type medium-honey low-temperature bionic concentration equipment.

Background

Honey is because concentration is not high after gathering, so easy fermentation becomes sour and is unfavorable for the transportation storage, for the convenience honey transportation storage, all can concentrate honey after gathering honey usually, carry out concentration through high temperature when concentrating honey and improve baume degree, this process is easy to take place to reduce to the beneficial enzyme activity in the honey, and then the original function of honey also greatly reduced, unable wind through the low temperature drying carries out the endless blowing of honey and carries out the cooling and get rid of the moisture in the honey and reach the glucose in the honey and produce the crystallization, and make honey concentration and baume degree improve with a plurality of crystalline phase interconnect, and the part is when carrying out concentration to honey, all store through the holding vessel, carry or the manual work is carried out the multiposition with the help of machinery when the holding vessel is full, working strength has been increaseed.

Disclosure of Invention

In order to solve the technical problem, an external circulation type low-temperature bionic honey concentration device is provided, the technical scheme solves the problems that honey provided in the background technology is not high in concentration after collection, so that fermentation is easy to change acid and is not beneficial to transportation and storage, honey is concentrated usually after collection, the baume degree is improved by concentrating the honey at high temperature usually when the honey is concentrated, the activity of beneficial enzymes in the honey is reduced easily in the process, the original functions of the honey are greatly reduced, the honey cannot be cooled by circularly blowing the honey through low-temperature drying wind, and partial moisture in the honey is removed to generate crystals, the glucose in the honey is concentrated and improved in baume degree by being connected with a plurality of crystal phases, and parts are stored through a storage tank when the honey is concentrated, and the working strength is increased by carrying the honey by means of machinery or manually moving the honey in multiple positions when the storage tank is full.

In order to achieve the purpose, the invention adopts the technical scheme that: an external circulation type low-temperature bionic honey concentration device comprises an intelligent terminal control sterile bin, a cooling air conditioner and a dehumidifier;

the intelligent terminal control sterile bin is internally provided with a dehumidifier for cooling air for reducing temperature and removing indoor moisture, the inner side wall of the rear end of the intelligent terminal control sterile bin is fixedly connected with a funnel groove, the left side wall of the intelligent terminal control sterile bin is provided with a waterfall spray head, the left end of the intelligent terminal control sterile bin is provided with a cyclic replacement storage rack, the front end surface of the cyclic replacement storage rack is provided with a buffering descending mechanism, the cyclic replacement storage rack is provided with an interface quick-connection mechanism, and the interface quick-connection mechanism is respectively connected with a vacuum pump, an air pump, the funnel groove and the waterfall spray head through hoses;

the circulation replacement supporter places board, ratchet, torsional spring pawl including link up spout, first pulley yoke, hoist, driving motor, notch layer board, rack plate, drive gear, first honey storage tank, second pulley yoke, spacing draw runner, oblique arc notch board, cross, link up spout rear end sliding connection has first pulley yoke, first pulley yoke middle-end surface cover is equipped with the hoist, first pulley yoke left end fixedly connected with driving motor, driving motor lower extreme sliding connection has the notch layer board, notch layer board right-hand member fixed connection is in circulation replacement supporter left side wall, notch layer board up end fixedly connected with rack plate, rack plate upper end meshing has drive gear, drive gear fixed connection is in first pulley yoke left end surface, the hoist lower extreme is perpendicular first honey storage tank of fixedly connected with and second honey storage tank respectively in proper order, the equal fixedly connected with second pulley yoke in first honey storage tank and second honey storage tank left end, the equal fixedly connected with second pulley yoke in second honey storage tank and second honey storage tank left end, the replacement supporter rotates the rack through the fixed surface of the bolt and connects in the replacement supporter right side of the oblique arc notch board the replacement supporter upper end and the replacement right side wall, the replacement rack plate rotates the replacement rack plate and has the rack plate and the rack plate inner surface and the replacement right side to rotate the rack plate.

Preferably, bolt fixedly connected with drive spring pole board is passed through to spacing frid upper end, drive spring pole board lower extreme surface sliding connection has the dislocation frid, dislocation frid one end surface fixedly connected with crooked gangbar, the equal fixedly connected with stay cord of crooked gangbar up end, stay cord one end surface has been supported to have supplementary gyro wheel, supplementary gyro wheel all rotates to be connected in circulation replacement supporter front and back both ends, stay cord one end winding fixedly connected with rolling roller, both ends about the rolling roller rotates to be connected in circulation replacement supporter.

Preferably, buffering descending mechanism includes power spring pole, spout magnet board, buffering magnet board, arc frid, lasso, elbow pole, flexible regulating plate, fixed surface is connected with the power spring pole on the circulation replacement supporter front end, power spring pole upper end surface sliding connection has the spout magnet board, power spring pole lower extreme surface fixed surface is connected with buffering magnet board, the articulated arc frid that has of spout magnet board rear end, arc frid lower extreme articulates there is the lasso, the pot head is equipped with the elbow pole in the lasso, elbow pole front end articulates there is flexible regulating plate, flexible regulating plate upper end surface sliding connection is in spout magnet board middle-end.

Preferably, the interface quick-connection mechanism comprises a threaded shell, an inner insertion pipe, a fried fastening sleeve, a homing spring, a first magnet, a second magnet and an internal thread rotating sleeve, wherein the threaded shell is fixedly connected to the left end and the right end of each of the first honey storage tank and the second honey storage tank, the inner insertion pipe is fixedly connected to the middle end inside the threaded shell, the fried fastening sleeve is sleeved on the outer surface of the inner insertion pipe, the homing spring is fixedly connected to the lower end of the fried fastening sleeve, the lower end of the homing spring is fixedly connected to the inner surface of the lower end of the threaded shell, the first magnet is sleeved on the outer surface of the upper end of the inner insertion pipe, the second magnet is fixedly connected to the inner surface of the lower end of the fried fastening sleeve, and the internal thread rotating sleeve is in threaded connection with the threaded shell.

Preferably, the inner surface of the internal thread rotating sleeve is provided with a convex groove for limiting the outer ring at the upper end of the fastening sleeve.

Preferably, the adjusting tooth socket is opened to drive spring lever plate left end internal surface, second pulley lever one end fixedly connected with tooth socket torsional spring cross bar, drive spring lever plate upper end sets up the extrusion pole that releases tooth socket torsional spring cross bar and shift out.

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

(1) When the hoses connected to the lower ends of the hoses on the vacuum pump and the hopper tank are connected to the first honey storage tank and the second honey storage tank respectively, the hoses can be connected to the first honey storage tank and the second honey storage tank respectively, and the phenomenon that the humidity of the aseptic honey storage tank is reduced by the aseptic cold air pump is avoided The situation that the quantity is limited is generated, and meanwhile, the situation that the honey stored in the funnel groove is crystallized and solidified due to the fact that the honey is stored in the funnel groove for a long time and the temperature of the inside of the intelligent terminal control sterile bin is reduced for a long time through a cooling air conditioner is avoided;

(2) After all the honey in the first honey storage tank is discharged, and then the honey in the second honey storage tank is sucked to be full from the hopper groove, when a second pulley lever arranged on the second honey storage tank slides upwards in a limiting sliding chute plate to the lower end of a driving spring lever plate at the upper end of the limiting sliding chute plate through a hoist, the second pulley lever drives a tooth socket arranged on a tooth socket torsion spring cross lever to be meshed on an adjusting tooth socket and drives the tooth socket torsion spring cross lever to rotate, a short lever vertically connected on the tooth socket torsion spring cross lever rotates and extrudes an arc notch arranged on a dislocation groove plate in the rotating process, the arc notch of the dislocation groove plate is extruded to deform so that the short lever vertically connected on the tooth socket torsion spring cross lever enters the arc notch of the dislocation groove plate, and then a short lever vertically connected on the tooth socket torsion spring cross lever is fixed on the dislocation groove plate, after the tooth socket torsion spring cross lever is connected with the dislocation groove plate, at the moment, the distance between the second honey storage tank and the first honey storage tank is shortened, then the driving motor is started to drive the first pulley rod to rotate, the first pulley rod drives the driving gear to rotate, the driving gear is meshed on the rack plate and limits the driving gear to move forwards through the rack plate, at the moment, the tooth socket torsion spring cross rod arranged on the second honey storage tank is fixedly connected with the staggered grooved plate, the first pulley rod and the driving gear are driven to rotate through the driving motor and move forwards on the rack plate, the lifting block pulls the first honey storage tank to move forwards, the second honey storage tank is kept at the original position until the first honey storage tank moves to the arc grooved plate, then the hanging rope connected to the lifting block is disconnected from the first honey storage tank, the self gravity of the first honey storage tank drives the arc grooved plate and the chute magnet plate to move downwards at the outer surface of the power spring rod, and the descending speed of the first honey storage tank is reduced through the spring arranged on the outer surface of the power spring rod When the first honey storage tank drives the chute magnet plate and the buffer magnet plate to descend to the lower end part of the power spring rod, the chute magnet plate and the buffer magnet plate are mutually repelled, so that the chute magnet plate and the buffer magnet plate are effectively driven by the first honey storage tank to descend and are not in direct gravity contact with the upper surface of the bottom end of the cyclic replacement shelf, the first honey storage tank is impacted, inclined and dropped, and the first honey storage tank is effectively protected;

(3) When the chute magnet plate descends to the bottom end along the power spring rod, the chute magnet plate drives the telescopic adjusting plate to contact the oblique arc groove plate and push the telescopic adjusting plate to slide upwards at a notch formed in the chute magnet plate and drive the front end of the elbow rod to rotate, the rear end drives the ferrule to rotate, the front end of the elbow rod is in butt contact with the bottom surface of the arc groove plate, the elbow rod gradually slides out from the rear end along the ferrule when being in the same horizontal straight state with the arc groove plate, the arc groove plate rotates on the chute magnet plate and has the same inclination angle with the oblique arc groove plate, the first honey storage tank rolls out from the arc groove plate, a connecting ring arranged in the middle of the first honey storage tank is clamped on a groove arranged on the oblique arc groove plate, the first honey storage tank rolls to the rear end of the oblique arc groove plate to be the original position of the second honey storage tank in a self-running mode through the oblique arc groove plate, the honey storage tank effectively moves to the working position, and the honey storage tank is prevented from being manually replaced by a hoist or a manual single honey storage tank for multiple times, and the honey storage tank is continuously carried out for multiple times, and the honey storage tank concentration and the honey storage tank is carried out continuously;

(4) The first pulley lever drives the rolling roller to rotate in the process that the driving motor drives the first pulley lever and the driving gear to rotate and move forwards on the rack plate, the pull rope is rolled, the bending linkage rod is pulled along the outer surface of the auxiliary roller in the rolling process to drive the dislocation groove plate to slide upwards on the outer surface of the spring rod arranged on the driving spring rod plate, the second pulley lever and the second honey storage tank are driven to move upwards synchronously through the tooth-socket torsional spring cross rod connected on the dislocation groove plate, the cross placing plate is pushed to rotate in the process that the second honey storage tank moves upwards, one end of the cross placing plate is supported on the lower surface of the second honey storage tank, and after the second honey storage tank is lapped on the cross placing plate, and support the tooth of the ratchet of fixed connection on the board is placed to the cross through the pawl, make the cross place the unable reverse rotation of board, and then make second store up honey jar place on the board is placed to the cross effectively, avoided the hoist to hang the second store up honey jar always and took place to shake the time and draw the flexible pipe, make the hose circumstances of droing take place, drive tooth's socket torsional spring cross bar and second pulley pole at the dislocation frid, when second store up honey jar and remove to drive spring rod board upper end, the quarter butt of tooth's socket torsional spring cross bar front end joint on the dislocation frid is released by the extrusion pole that is equipped with on the drive spring rod board, and the torsional spring that is equipped with through tooth's socket torsional spring cross bar drives rotatory to vertical state.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

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

FIG. 3 is a schematic bottom perspective view of the present invention;

FIG. 4 is a schematic view of an internal cross-sectional three-dimensional structure of an intelligent terminal control sterile bin of the present invention;

FIG. 5 is a schematic view of a front-view three-dimensional structure inside an intelligent terminal control sterile cabin of the invention;

FIG. 6 is an enlarged view of a portion A of FIG. 2;

FIG. 7 is a schematic perspective view of a second pulley lever and a limiting chute plate according to the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of a bending linkage rod and a pull rope according to the present invention;

FIG. 9 is a partial enlarged view of portion B of FIG. 8;

FIG. 10 is a schematic perspective view of the first pulley lever and hoist of the present invention

FIG. 11 is a schematic view of a novel three-dimensional structure of the arc-shaped slot plate and the ferrule of the present invention

FIG. 12 is a schematic perspective view of the interface quick-connect mechanism of the present invention

FIG. 13 is a schematic view of a disassembled three-dimensional structure of the interface quick-connect mechanism of the present invention

Fig. 14 is a schematic plan sectional structural view of the interface quick-connect mechanism of the present invention.

The reference numbers in the figures are: 1. the intelligent terminal controls the sterile bin; 2. cooling the air conditioner; 3. a dehumidifier; 4. a funnel groove; 5. a waterfall spray head;

6. the shelf is replaced circularly; 601. a through chute; 602. a first pulley lever; 603. hoisting a hoist; 604. a drive motor; 605. a notch supporting plate; 606. a rack plate; 607. a drive gear; 608. a first honey storage tank; 609. a second honey storage tank; 610. a second pulley lever; 611. a limiting chute plate; 612. a bevel groove plate; 613. a cross placing plate; 614. a ratchet wheel; 615. a pawl; 616. a drive spring rod plate; 617. a staggered grooved plate; 618. bending the linkage rod; 619. pulling a rope; 620. an auxiliary roller; 621. a rolling roller; 622. adjusting the tooth socket;

7. a buffer descending mechanism; 701. a power spring rod; 702. a chute magnet plate; 703. a buffer magnet plate; 704. an arc groove plate; 705. a ferrule; 706. a elbow rod; 707. a telescopic adjusting plate;

8. an interface quick-connection mechanism; 801. a threaded outer shell; 802. inserting a tube; 803. the fastening sleeve is fried; 804. a homing spring; 805. a first magnet; 806. a second magnet; 807. rotating a sleeve with internal threads; 9. a hose; 10. an air pump; 101. a vacuum pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 3 and fig. 6 to 10, an external circulation type low-temperature bionic honey concentration device comprises an intelligent terminal controlled sterile bin 1, a cooling air conditioner 2 and a dehumidifier 3;

a cooling air conditioner 2 for reducing the temperature and a dehumidifier 3 for removing indoor moisture are arranged in the intelligent terminal control sterile bin 1, the inner side wall of the rear end of the intelligent terminal control sterile bin 1 is fixedly connected with a funnel groove 4, the left side wall of the intelligent terminal control sterile bin 1 is provided with a waterfall spray head 5, the left end of the intelligent terminal control sterile bin 1 is provided with a cyclic replacement shelf 6, the front end surface of the cyclic replacement shelf 6 is provided with a buffer descending mechanism 7, the cyclic replacement shelf 6 is provided with an interface quick-connection mechanism 8, and the interface quick-connection mechanism 8 is respectively connected with a vacuum pump 101, an air pump 10, the funnel groove 4 and the waterfall spray head 5 through hoses 9;

the cyclic replacement shelf 6 comprises a through chute 601, a first pulley lever 602, a hoist 603, a driving motor 604, a notch supporting plate 605, a rack plate 606, a driving gear 607, a first honey storage tank 608, a second honey storage tank 609, a second pulley lever 610, a limiting chute plate 611, an oblique arc notch plate 612, a cross placing plate 613, a ratchet 614 and a torsion spring pawl 615, wherein the rear end of the through chute 601 is connected with the first pulley lever 602 in a sliding way, the outer surface of the middle end of the first pulley lever 602 is sleeved with the hoist 603, the left end of the first pulley lever 602 is fixedly connected with the driving motor 604, the lower end of the driving motor 604 is connected with the notch supporting plate 605 in a sliding way, the right end of the notch supporting plate 605 is fixedly connected with the left side wall of the cyclic replacement shelf 6, the rack plate 606 is fixedly connected with the upper end face of the notch supporting plate 605, the driving gear 607 is engaged with the shelf 606, the driving gear 607 is fixedly connected with the outer surface of the left end of the first pulley lever 602, the lower end of the hoist 603 is respectively and fixedly connected with a first honey storage tank 608 and a second honey storage tank 609 in sequence, the left ends of the first honey storage tank 608 and the second honey storage tank 609 are fixedly connected with a second pulley rod 610, the outer surface of the second pulley rod 610 is connected with a limiting sliding chute plate 611 in a sliding mode, the lower end of the limiting sliding chute plate 611 is fixedly connected with the upper surface of the lower end of the cyclic replacement shelf 6, the right side wall of the limiting sliding chute plate 611 is fixedly connected with an oblique arc notch plate 612 through bolts, the right end of the oblique arc notch plate 612 is fixedly connected with the inner surface of the right side of the cyclic replacement shelf 6 through bolts, the inner surface of the upper end of the cyclic replacement shelf 6 is rotatably connected with a cross placing plate 613, the front end and the rear end of the cross placing plate 613 are fixedly connected with ratchet wheels 614, the outer surface of the upper end of the ratchet wheels 614 is abutted against a torsion spring pawl 615, and the torsion spring pawl 615 is rotatably connected with the inner surface of one end of the cyclic replacement shelf 6.

Spacing spout plate 611 upper end is through bolt fixedly connected with drive spring pole board 616, drive spring pole board 616 lower extreme surface sliding connection has dislocation spout plate 617, dislocation spout plate 617 one end surface fixedly connected with crooked gangbar 618, the equal fixedly connected with stay cord 619 of crooked gangbar 618 up end, stay cord 619 one end surface butt has auxiliary roller 620, auxiliary roller 620 all rotates to be connected in circulation replacement supporter 6 front and back both ends, stay cord 619 one end winding fixedly connected with rolling roller 621, rolling roller 621 rotates to be connected in circulation replacement supporter 6 left and right sides both ends, be convenient for drive through above-mentioned structure and move soon to the first honey storage tank 608 or the second honey storage tank 609 of upper end and remove to the cross and place the board 613 upper surface.

Adjustment tooth socket 622 has been seted up to drive spring rod board 616 left end internal surface, second pulley lever 610 one end fixedly connected with tooth socket torsional spring cross bar 623, drive spring rod board 616 upper end sets up the extrusion pole that releases tooth socket torsional spring cross bar 623 and shifted out, can be with tooth socket torsional spring cross bar 623 intermeshing through adjusting tooth socket 622, be convenient for drive tooth socket torsional spring cross bar 623 and rotate ninety degrees at tooth socket torsional spring cross bar 623 ascending in-process of moving, and then with the quarter butt joint of tooth socket torsional spring cross bar 623 front end setting in dislocation frid 617, dislocation frid 617 is that the plastics material can take place deformation opening when receiving the quarter butt extrusion and expand and make its quarter butt get into after the deformation end and resume the former sample and then can make the quarter butt transiently fix in dislocation frid 617.

Example two

Referring to fig. 1 and 11 to 14, the buffering descending mechanism 7 includes a power spring rod 701, a chute magnet plate 702, a buffering magnet plate 703, an arc chute plate 704, a ferrule 705, an elbow rod 706, and a telescopic adjusting plate 707, the power spring rod 701 is fixedly connected to the upper surface of the front end of the supporter 6 for recycling replacement, the chute magnet plate 702 is slidably connected to the outer surface of the upper end of the power spring rod 701, the buffering magnet plate 703 is fixedly connected to the outer surface of the lower end of the power spring rod 701, the arc chute plate 704 is hinged to the rear end of the chute magnet plate 702, the ferrule 705 is hinged to the lower end of the arc chute plate 704, the elbow rod 706 is sleeved to the middle end of the elbow rod 706, the telescopic adjusting plate 707 is hinged to the front end of the elbow rod 706, and the outer surface of the upper end of the telescopic adjusting plate 707 is slidably connected to the middle end of the chute magnet plate 702.

The interface quick-connection mechanism 8 comprises a threaded shell 801, an inner insertion pipe 802, a fried fastening sleeve 803, a homing spring 804, a first magnet 805, a second magnet 806 and an inner thread rotating sleeve 807, the left end and the right end of a first honey storage tank 608 and a second honey storage tank 609 are fixedly connected with the threaded shell 801, the inner insertion pipe 802 is fixedly connected with the middle end inside the threaded shell 801, the fried fastening sleeve 803 is sleeved on the outer surface of the inner insertion pipe 802, the homing spring 804 is fixedly connected with the lower end of the fried fastening sleeve 803, the lower end of the homing spring 804 is fixedly connected with the inner surface of the lower end of the threaded shell 801, the first magnet 805 is sleeved on the outer surface of the upper end of the inner insertion pipe 802, the second magnet 806 is fixedly connected with the inner surface of the lower end of the fried fastening sleeve 803, the inner thread rotating sleeve 807 is connected with the threaded shell 801 in a threaded manner, and the hose 9 can be effectively and quickly disassembled and installed through the steps, and the operation steps are shortened.

The inner surface of the internal thread rotating sleeve 807 is provided with a convex groove for limiting the outer ring of the upper end of the fastening sleeve 803.

The general operating principle according to the above-described embodiments 1 to 2 is as follows:

in the using process, the hose 9 connected with one end of the waterfall nozzle 5 is inserted and sleeved on the outer surface of the inner inserting pipe 802 connected with the first honey storage tank 608, and is synchronously pushed towards the direction of the first honey storage tank 608, then the internal thread rotating sleeve 807 is rotated to spirally move towards the direction of the first honey storage tank 608 at the threaded shell 801, the burst fastening sleeve 803 is driven to move towards the inside of the threaded shell 801 through the notch arranged on the inner surface of the internal thread rotating sleeve 807, and the burst part of the burst fastening sleeve 803 is synchronously extruded to be closed in the middle to clamp and fix the hose 9 sleeved on the outer surface of the inner inserting pipe 802, so that the condition that the hose 9 is pulled by coming and going personnel to fall in the using process is avoided, and the trouble that part of the hose 9 is fixed through a flange is avoided;

when the hose 9 on the vacuum pump 101 and the air pump 10 and the hose 9 connected with the lower end of the funnel tank 4 are required to be connected to the first honey storage tank 608 and the second honey storage tank 609 respectively, the hose 9 can be connected to the first honey storage tank 608 and the second honey storage tank 609 through the steps, after the hose 9 is connected to the waterfall nozzle 5, the funnel tank 4, the first honey storage tank 608 and the second honey storage tank 609 respectively, the air pump 10 connected to the first honey storage tank 608 is opened to spray the stored honey from the waterfall nozzle 5 to form a plurality of vertically downward waterfalls, the cooling air conditioner 2 blows dry cold air to the vertically downward waterfall honey to thicken the honey, and when the cold air is blown to the honey, the dehumidifier 3 is opened simultaneously to discharge the moisture in the intelligent terminal control sterile bin 1 outwards, so that the situation that the moisture in the intelligent terminal control sterile bin 1 is large and the honey is damaged and deteriorated is avoided;

the honey falling through the waterfall nozzle 5 directly falls into the funnel tank 4 for centralized collection, and is connected with the vacuum pump 101 through the second honey storage tank 609 to suck the honey stored in the funnel tank 4 into the second honey storage tank 609 through the connected hose 9 for collection, so that the condition that the storage capacity of the funnel tank 4 is limited is effectively avoided, and meanwhile, the condition that the honey stored in the funnel tank 4 for a long time is cooled in the intelligent terminal control sterile bin 1 through the cooling air conditioner 2, so that the honey stored in the funnel tank 4 is crystallized and solidified is avoided;

after all honey in the first honey storage tank 608 is discharged, and at the moment, honey in the second honey storage tank 609 is sucked into the funnel groove 4 to be full, when the second pulley lever 610 arranged on the second honey storage tank 609 slides upwards in the limiting sliding groove plate 611 to the lower end of the spring lever plate 616 at the upper end of the limiting sliding groove plate 611 through the hoist 603, the second pulley lever 610 drives the tooth socket arranged on the tooth socket torsion spring cross lever 623 to be meshed with the adjusting tooth socket 622 and drives the tooth socket torsion spring cross lever 623 to rotate, during the rotation process, the short lever vertically connected on the tooth socket torsion spring cross lever 623 rotates and presses the arc notch arranged on the dislocation groove plate 617, and presses the arc notch of the dislocation groove plate 617 to deform, so that the short lever vertically connected on the tooth socket torsion spring cross lever 623 enters the arc notch of the dislocation groove plate 617, and further the short lever vertically connected on the tooth socket torsion spring cross lever 623 is fixed on the dislocation groove plate 617, after the gullet torsion spring cross bar 623 is connected with the dislocated grooved plate 617, the distance between the second honey storage tank 609 and the first honey storage tank 608 at the moment is shortened, then the driving motor 604 is started to drive the first pulley bar 602 to rotate, the first pulley bar 602 drives the driving gear 607 to rotate, the driving gear 607 is meshed on the rack plate 606 and limits the driving gear 607 to move forwards through the rack plate 606, the gullet torsion spring cross bar 623 arranged on the second honey storage tank 609 is fixedly connected with the dislocated grooved plate 617 at the moment, the first pulley bar 602 and the driving gear 607 are driven to rotate through the driving motor 604 and move forwards on the rack plate 606, the hoist 603 pulls the first honey storage tank 608 to move forwards, the second honey storage tank 609 is kept at the original position until the first honey storage tank 608 moves to the arc grooved plate 704, then the hanging rope connected with the hoist 603 is disconnected from the first honey storage tank 608, the gravity of the first honey storage tank 608 drives the arc groove plate 704 and the chute magnet plate 702 to move downwards on the outer surface of the power spring rod 701, the descending speed of the first honey storage tank 608 is reduced through the springs arranged on the outer surface of the power spring rod 701, the first honey storage tank 608 is slowly descended, when the first honey storage tank 608 drives the chute magnet plate 702 and the buffer magnet plate 703 to descend to the lower end portion of the power spring rod 701, the chute magnet plate 702 and the buffer magnet plate 703 are mutually repelled, the first honey storage tank 608 effectively drives the chute magnet plate 702 and the buffer magnet plate 703 to descend to be in contact with the upper surface of the bottom end of the cyclic replacement shelf 6 without direct gravity, the first honey storage tank 608 is collided and inclined to fall, and the first honey storage tank 608 is effectively protected;

when the chute magnet plate 702 descends to the bottom end along the power spring rod 701, the chute magnet plate 702 drives the telescopic adjusting plate 707 to contact the oblique arc notch plate 612, the telescopic adjusting plate 707 is pushed to slide upwards at a notch formed in the chute magnet plate 702, the front end of the elbow rod 706 is driven to rotate, the rear end of the elbow rod 706 drives the ferrule 705 to rotate, the front end of the elbow rod 706 is in abutting contact with the bottom surface of the arc notch plate 704, the elbow rod 706 gradually and transversely and straightly stays with the arc notch plate 704, the elbow rod 706 slides and extends out to the rear end along the ferrule 705, the arc notch plate 704 rotates on the chute magnet plate 702 and has the same inclination angle with the oblique arc notch plate 612, the first honey storage tank 608 rolls out of the arc notch plate 704, the connecting ring arranged in the middle of the first honey storage tank 608 is clamped on a groove formed in the oblique arc notch plate 612, the first honey storage tank 608 rolls to the rear end of the oblique arc notch plate 612 to reach a second honey storage tank 609, and the original honey storage tank 609 can be effectively carried out for replacing manually, and the honey bottle gourds are effectively carried out for multiple times, and the first honey storage tank can be quickly carried out for replacing operation, and the honey bottle gourd for multiple times, so that the honey storage tank can be quickly carried out for replacing operation;

when the driving motor 604 drives the first pulley lever 602 and the driving gear 607 to rotate and move forward on the rack plate 606, the first pulley lever 602 drives the rolling roller 621 to rotate, the pull rope 619 is rolled, the bending linkage rod 618 is pulled along the outer surface of the auxiliary roller 620 to drive the staggered grooved plate 617 to slide upward on the outer surface of the spring lever arranged on the driving spring lever plate 616 in the rolling process, the toothed groove torsion spring cross rod 623 connected to the staggered grooved plate 617 drives the second pulley lever 610 and the second honey storage tank 609 to move upward synchronously, the cross placing plate 613 is pushed to rotate in the upward movement process of the second honey storage tank 609, one end of the cross placing plate 613 is supported on the lower surface of the second honey storage tank 609, after the second honey storage tank 609 is lapped on the cross placing plate 613, the ratchet pawl 615 abuts against the teeth of the toothed groove fixed on the cross placing plate 613, the ratchet 614 is enabled to rotate reversely, the second honey storage tank 609 is effectively placed on the cross placing plate 609, the second honey storage tank 603 is prevented from being hung on the second honey storage tank 603 and drives the spring bar torsion spring 623 to drive the staggered grooved plate 623, the spring bar torsion spring 623 and the cross placing plate 623 drives the spring 610 to move, and the cross placing plate 623 to drive the honey storage tank 610 to drive the staggered grooved plate 623 to fall off when the spring bar 610, and the spring bar 610 is hung on the honey storage tank.

The hose 9 dismounting process: in the process that the hose 9 needs to be replaced, the internal thread rotating sleeve 807 is manually rotated to be far away from the first honey storage tank 608, the burst fastening sleeve is driven to move out of the 803 threaded shell 801 through a notch formed in the inner surface of the internal thread rotating sleeve 807, the burst fastening sleeve 803 which is closed in the middle is unfolded outwards at the moment, the clamped hose 9 is clamped and is effectively and quickly ended, after the burst fastening sleeve 803 is in contact clamping and fixing, the hose 9 is manually pulled out through manpower, in the pulling-out process, the first magnet 805 drives the first magnet 805 to move along the direction of the outer surface of the inner inserting tube 802 far away from the first honey storage tank 608 through repulsive force generated between the second magnets 806, and then honey attached to the outer surface of the inner inserting tube 802 is scraped outwards and pushed out, crystallization and solidification on the outer surface of the inner inserting tube 802 for a long time and multiple times are avoided, and meanwhile, the situation that insects are attracted to the inner inserting tube 802 on the outer surface of the inner inserting tube 802 and enter the inner inserting tube 802 for a long time is avoided.

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

Claims (6)

1. An external circulation type low-temperature bionic honey concentration device comprises an intelligent terminal control sterile bin (1), a cooling air conditioner (2) and a dehumidifier (3);

be provided with cooling air conditioner (2) that are used for lowering the temperature and dehumidifier (3) of getting rid of indoor moisture in intelligent terminal control aseptic storehouse (1), its characterized in that: the intelligent terminal control sterile bin is characterized in that a funnel groove (4) is fixedly connected to the inner side wall of the rear end of the intelligent terminal control sterile bin (1), a waterfall spray head (5) is installed on the left side wall of the intelligent terminal control sterile bin (1), a cyclic replacement storage rack (6) is arranged at the left end of the intelligent terminal control sterile bin (1), a buffering descending mechanism (7) is arranged on the front end face of the cyclic replacement storage rack (6), an interface quick-connection mechanism (8) is arranged on the cyclic replacement storage rack (6), and the interface quick-connection mechanism (8) is respectively connected with a vacuum pump (101), an air pump (10), the funnel groove (4) and the waterfall spray head (5) through a hose (9);

the circulation replacement shelf (6) comprises a through sliding groove (601), a first pulley rod (602), a hanging gourd (603), a driving motor (604), a notch supporting plate (605), a rack plate (606), a driving gear (607), a first honey storage tank (608), a second honey storage tank (609), a second pulley rod (610), a limiting sliding groove plate (611), an oblique arc notch plate (612), a cross placing plate (613), a ratchet wheel (614) and a torsion spring pawl (615), wherein the rear end of the through sliding groove (601) is connected with the first pulley rod (602) in a sliding manner, the hanging gourd (603) is sleeved on the outer surface of the middle end of the first pulley rod (602), the driving motor (604) is fixedly connected with the left end of the driving motor (604) in a sliding manner, the notch supporting plate (605) is fixedly connected with the left side wall of the circulation replacement shelf (6), the upper end face of the notch supporting plate (605) is fixedly connected with the hanging gourd (606), the upper end of the rack plate (606) is meshed with the rack plate (607), the driving gear (602) is fixedly connected with the left end of the first pulley rod (602), and the second honey storage tank (603) is fixedly connected with the rack plate (607), first honey storage tank (608) and second honey storage tank (609) the equal fixedly connected with second pulley lever (610) in left end, second pulley lever (610) surface sliding connection has spacing spout board (611), spacing spout board (611) lower extreme fixed connection is in cyclic replacement supporter (6) lower extreme upper surface, bolt fixedly connected with oblique arc notch board (612) are passed through to spacing spout board (611) right side wall, oblique arc notch board (612) right-hand member passes through bolt fixed connection in cyclic replacement supporter (6) right side internal surface, cyclic replacement supporter (6) upper end internal surface rotates and is connected with the cross and places board (613), board (613) is placed to the cross both ends fixedly connected with ratchet (614) around both ends fixedly connected with ratchet (614), ratchet (614) upper end external surface has been supported and has been connected torsional spring pawl (615), torsional spring pawl (615) rotate and connect in cyclic replacement supporter (6) one end internal surface.

2. The external circulation type medium-honey low-temperature bionic concentrating device as claimed in claim 1, is characterized in that: spacing spout board (611) upper end is through bolt fixedly connected with drive spring pole board (616), drive spring pole board (616) lower extreme surface sliding connection has dislocation frid (617), dislocation frid (617) one end surface fixedly connected with crooked gangbar (618), the equal fixedly connected with stay cord (619) of crooked gangbar (618) up end, stay cord (619) one end surface has been to having connect auxiliary roller (620), auxiliary roller (620) all rotate to be connected in circulation replacement supporter (6) front and back both ends, stay cord (619) one end winding fixedly connected with rolling roller (621), rolling roller (621) rotate to be connected in circulation replacement supporter (6) both ends about.

3. The external circulation type medium-honey low-temperature bionic concentrating device as claimed in claim 1, is characterized in that: buffering descending mechanism (7) are including power spring pole (701), spout magnet board (702), buffering magnet board (703), arc slotted plate (704), lasso (705), elbow pole (706), flexible regulating plate (707), circulation replacement supporter (6) front end upper surface fixed connection has power spring pole (701), power spring pole (701) upper end surface sliding connection has spout magnet board (702), power spring pole (701) lower extreme surface fixed connection has buffering magnet board (703), spout magnet board (702) rear end articulates there is arc slotted plate (704), arc slotted plate (704) lower extreme articulates there is lasso (705), lasso (705) middle-end cover is equipped with elbow pole (706), elbow pole (706) front end articulates there is flexible regulating plate (707), flexible regulating plate (707) upper end surface sliding connection is in spout magnet board (702) middle-end.

4. The external circulation type medium-honey low-temperature bionic concentrating device as claimed in claim 1, is characterized in that: the interface quick-connection mechanism (8) comprises a threaded outer shell (801), an inner insert tube (802), a fried open fastening sleeve (803), a homing spring (804), a first magnet (805), a second magnet (806) and an internal thread rotating sleeve (807), wherein the left end and the right end of the first honey storage tank (608) and the second honey storage tank (609) are fixedly connected with the threaded outer shell (801), the inner insert tube (802) is fixedly connected with the inner middle end inside the threaded outer shell (801), the outer surface of the inner insert tube (802) is sleeved with the fried open fastening sleeve (803), the lower end of the fried open fastening sleeve (803) is fixedly connected with the homing spring (804), the lower end of the homing spring (804) is fixedly connected to the inner surface of the lower end of the threaded outer shell (801), the outer surface of the inner insert tube (802) is sleeved with the first magnet (805), the inner surface of the lower end of the fried open fastening sleeve (803) is fixedly connected with the second magnet (806), and the threaded outer shell (801) is in threaded connection with the internal thread rotating sleeve (807).

5. The external circulation type medium-honey low-temperature bionic concentrating device as claimed in claim 4, wherein: the inner surface of the internal thread rotating sleeve (807) is provided with a convex groove for limiting the outer ring at the upper end of the burst fastening sleeve (803).

6. The external circulation type low-temperature bionic concentration equipment for honey as claimed in claim 2, characterized in that: adjusting tooth sockets (622) are formed in the inner surface of the left end of the driving spring rod plate (616), one end of the second pulley rod (610) is fixedly connected with a tooth socket torsion spring cross rod (623), and an extrusion rod which pushes out the tooth socket torsion spring cross rod (623) to move out is arranged at the upper end of the driving spring rod plate (616).

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