CN112675612A - Efficient comprehensive honey processing device and processing method - Google Patents

Abstract

The invention discloses a high-efficiency comprehensive honey processing device and a processing method, wherein a multi-step processing assembly is arranged at the top end of a fixed semicircular plate, heat-conducting support plates are uniformly distributed on the outer side of a rotating cylinder, a heat-conducting cylinder is sleeved on the outer side of a heat-insulating cylinder, a labor-saving feeding assembly is arranged at the top end of a side plate, a residual cleaning assembly is arranged at one side of a seal ring, a plurality of water feeding pipes are arranged on the side surface of an annular water pipe in a penetrating and welding manner, a collecting and processing assembly is arranged at one side of the fixed semicircular plate, and one end of the rotating cylinder is connected with a movable seal cover assembly. The normal use of the device is not influenced, and the operation is simple and convenient.

Description

Efficient comprehensive honey processing device and processing method

Technical Field

The invention relates to the technical field of honey processing, in particular to a device and a method for efficiently and comprehensively processing honey.

Background

The honey is a natural sweet substance which is obtained by fully brewing the nectar collected from flowers of flowering plants by bees in a honeycomb, has fragrant and strong smell, pure and sweet taste, rich nutrition and melting, is not beneficial to storage due to the fact that the natural honey contains impurities inside and has large water content and the like, and needs to be treated by the steps of melting, filtering, vacuum concentration, cooling, inspection, packaging and the like.

However, the processing process of the natural honey on the market at present needs a lot of devices, occupies a large space, needs to be transferred for many times in the processing process, is complex to operate, has a long flow, wastes time and labor, and has low processing efficiency.

Disclosure of Invention

The invention provides a high-efficiency comprehensive honey processing device and a processing method, which can effectively solve the problems of numerous devices, large occupied space, multiple transfer in the processing process, complex operation, long flow, time and labor waste and low processing efficiency in the processing process of natural honey in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the semi-circular plate fixing device comprises a bottom plate, wherein a side plate is installed at one end of the top surface of the bottom plate, a middle plate is welded in the middle of the side plate, and one end of the middle plate is welded in the middle of a fixed semi-circular plate;

the multi-step processing assembly comprises an installation pipe, a hydraulic rod, a rotating cylinder, a transmission motor, a sealing ring, a heat conduction supporting plate, balls, ventilation holes, a filter cylinder, a partition plate, a positioning frame, a supporting ring, a heat insulation cylinder, pressure reduction holes, a blocking strip, a heating resistance wire, a heat conduction cylinder, a connecting sleeve, a U-shaped pipe, a vacuum pump, a cold air pipe, a hot air pipe and a belt pulley;

the bottom end of the installation tube is hinged to one side of the top end of the fixed semicircular plate, the middle part of the bottom surface of the installation tube is hinged to the top end of the hydraulic rod, the bottom end of the hydraulic rod is hinged to the top surface of the middle plate, a rotating cylinder is movably installed inside the installation cylinder, a transmission motor is installed at the bottom end of the installation tube, a belt pulley is sleeved at the output shaft end of the transmission motor and connected to one end of the rotating cylinder through a belt, sealing rings are movably embedded at positions at two ends between the installation tube and the rotating cylinder, heat-conducting support plates are uniformly distributed on the outer side of the rotating cylinder, balls are uniformly and movably embedded at positions, close to the installation cylinder, of the heat-conducting support plates, ventilation holes are uniformly formed in the middle parts of the heat-;

the utility model discloses a heat-insulating section of thick bamboo, including cartridge filter, locating rack, heat-insulating section of thick bamboo bottom surface is located the relief vent both sides department and all installs the blend stop, heat-insulating section of thick bamboo outside evenly distributed has the heating resistor silk, heat-insulating section of thick bamboo outside has cup jointed heat-conducting tube, heat-insulating section of thick bamboo one end is connected with U type pipe through adapter sleeve, U type pipe top is through adapter sleeve connection vacuum pump end of breathing in, cold air pipe is installed to installation pipe top surface one end, the installation pipe.

Preferably, the input ends of the transmission motor, the heating resistance wire and the vacuum pump are electrically connected with the output end of an external power supply, and the outer sides of the transmission motor and the vacuum pump are respectively provided with a damping seat.

Preferably, the top end of the side plate is provided with a labor-saving feeding assembly, and the labor-saving feeding assembly comprises a middle sleeve, a support groove, a feeding pipe, a movable end pipe, a rotating material pipe, a drawing material pipe, an installation block, a connecting spring, a guide rod, a collecting hopper, an embedding opening, a coarse filter screen, an inclined plate, a sealing ring, a tooth groove, a reduction gear box and a feeding motor;

the middle sleeve is lapped on the top end of the side plate, a supporting groove is formed in the position, corresponding to the middle sleeve, of the top end of the side plate, a feeding pipe is fixedly mounted at one end of the middle sleeve, a movable end pipe is rotatably sleeved at one end, away from the feeding pipe, of the middle sleeve, tooth grooves are uniformly formed in the outer side, close to one end of the middle sleeve, of the movable end pipe, a reduction gear box is mounted at the top end of the middle sleeve, and a feeding motor is mounted at the top;

the utility model discloses a material pipe, including activity end union coupling, installation piece, connecting spring, swash plate edge, the movable end union coupling has the rotation material pipe, it cup joints in pull material pipe top to rotate the material pipe activity, the installation piece has all been welded to pull material pipe both sides bottom, installation piece top spot welding has connecting spring, connecting spring top spot welding is in rotating material pipe side bottom, the welding of installation piece top position in the inside department of connecting spring has the guide bar, pull material pipe bottom is connected with collects the fill, it has seted up the inserted mouth to collect fill top middle part, the internally mounted of inserted mouth bottom has coarse strainer, it has the swash plate to collect the inside department that is located the inserted.

Preferably, the input end of the feeding motor is electrically connected with the output end of the external power supply, the bottom end of the supporting groove is provided with a clamping groove, the bottom end of the middle sleeve is welded with a clamping block corresponding to the clamping groove, and the filter cartridge is sleeved at one end of the feeding pipe.

Preferably, a residual cleaning assembly is arranged at one side of the seal ring, and comprises a water supply pipe, an annular water pipe, a water receiving pipe, a water storage box, a water supply hole, a seal membrane ring, a water discharge hole, a fork rod and an end ring;

the water supply pipe is evenly run through and installed in the middle part of the seal ring, and is a plurality of the water supply pipe is all run through welded installation in annular water pipe side, annular water pipe one side is connected with the water receiving pipe, baffle one end is close to water supply pipe department and installs the water storage box, the water storage box corresponds water supply pipe position department and has seted up the water supply hole, the inside bonding in water supply hole has sealed membrane ring, the water storage box is close to cartridge filter outside department and has seted up the wash port, and is adjacent link to each other through the fork arm between the water storage box bottom, and is a plurality of the.

Preferably, the middle part of the fork rod is provided with a slit, the slit is matched with the outer side of the partition plate, and the length of the fork rod is equal to that of the partition plate.

Preferably, a collecting and processing assembly is mounted on one side of the fixed semicircular plate and comprises a movable semicircular plate, a base, a hollow heating plate, a melting resistance wire, a rotating rod, a stirring sheet, a quadrangular rod, a stirring sleeve, a stirring motor, a middle pipe, a cooling water tank, a water inlet pipe, a water discharge pipe, a water pump, a main water tank, a rubber pipe and a top cover;

the movable semicircular plate is hinged to one end of the fixed semicircular plate, a base is movably arranged in the fixed semicircular plate, a hollow heating plate is arranged at the bottom end of the base, melting resistance wires are uniformly distributed on the bottom surface of the hollow heating plate, a rotating rod is rotatably arranged in the middle of the base, stirring blades are uniformly distributed on the outer side of the rotating rod, a quadrangular rod is arranged on one side of the rotating rod, a stirring sleeve is rotatably arranged at the position, corresponding to the quadrangular rod, of the fixed semicircular plate in a penetrating manner, one end of the stirring sleeve is connected to one end of a stirring motor, a middle pipe is connected to the top end of the base through threads, a cooling water tank is arranged on the outer side of the middle pipe, a water inlet pipe is connected to the bottom end of the side surface of the cooling water, the drain pipe is connected with the top end of the main water tank through a pipeline, the rubber pipe is installed at the top end of the middle pipe, and the top cover is installed at the top end of the rubber pipe.

Preferably, the stirring sleeve is internally matched with the quadrangular rod, and the input ends of the melting resistance wire, the stirring motor and the connecting water pump are electrically connected with the output end of the external power supply.

Preferably, one end of the rotating cylinder is connected with a movable sealing cover assembly, and the movable sealing cover assembly comprises a sealing cover pipe, a filter cylinder cover, a movable cover, an observation window, an inspection opening, a supporting plate, a sampling box, a layering plate and a positioning groove;

the utility model discloses a heat insulation pipe, including a filter cartridge, a closing cap pipe, a layer board top surface slidable mounting has a sampling box, the inside evenly distributed of sampling box has the layering board, the closing cap pipe corresponds locating rack middle part position department and has seted up the constant head tank, the closing cap pipe runs through to be installed in filter cartridge lid one end, filter cartridge lid top and bottom all articulate have the movable cover, are located the movable cover middle part of closing cap pipe below is inlayed and is had the observation window, is located the inspection mouth has been seted up at the movable cover middle part of closing cap pipe top, the layer board is installed.

Preferably, the number of the positioning grooves is three, and the positioning grooves are matched with the end parts of the positioning frames.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use;

1. the multi-step processing assembly is arranged, after honey is sent into the rotating filter cylinder, the honey is filtered under the action of centrifugal force, the honey is heated through the heating resistance wire while being filtered, so that the temperature in the middle of the filter cylinder is higher, water is heated and evaporated, the air pressure in the filter cylinder is reduced by matching the vacuum pump with the pressure reducing hole, moist air in the filter cylinder is extracted through the pressure reducing hole, the barrier strips prevent the honey from being sucked into the pressure reducing hole, the air pressure is reduced while the water is discharged, part of heat is brought away, the excessive temperature in the filter cylinder is prevented, the evaporation of the water is accelerated in the environment of simulating pressure reduction concentration, the evaporation effect of the filter cylinder is improved, cold air is sent into the cold air pipe, the temperature of the rotating cylinder is reduced, the honey crystal close to the rotating cylinder is convenient to collect subsequently, the filtering, the, greatly improving the treatment efficiency.

2. Be provided with laborsaving pay-off subassembly, put into natural honey and collect inside fighting, the pull material pipe gliding under the action of gravity this moment, the position is lower, easily put into, after the filtration of coarse filter screen, it rotates the material pipe, this in-process, because of the change of pull material pipe position, the pull material pipe withdrawal rotates the material intraduct, can avoid the problem that the material pipe overlength of pull leads to striking indoor ceiling, natural honey is poured into in the pay-off pipe, the swash plate prevents honey to be poured, collect after rotating the round and fight and get back to the normal position, can continue to put into, it is low to put into the position, the pay-off is convenient.

3. Be provided with and remain the clearance subassembly, can be after processing is accomplished, send into the clear water through annular water pipe, stimulate the end links afterwards and scrub cartridge filter and rotation section of thick bamboo inner wall, clear up the device inside, prevent to influence next use, and should remain the clearance subassembly can direct mount and not influence the device normal use in the device is inside, removes the problem of repeated installation dismantlement from, easy operation is convenient, and the cleaning efficiency is high.

4. Be provided with and collect the processing component, honey after processing component processing through multistep gets into the jar internal of base and well pipe combination, the rotation stirring through the dwang, stir the honey of semi-crystalline, cooperation coolant tank's cooling makes honey crystallize once more, conveniently deposit and carry, rubber tube expandable deformation, prevent that the gaseous well pipe of destroying of jar internal portion honey fermentation production, four arris poles break away from the agitator sleeve can directly be transported, reach the processing position after, through melting resistance wire heating hollow heating plate, melt honey once more and can conveniently pour out, it is simple convenient to deposit.

5. Be provided with movable closing cap subassembly, movable closing cap subassembly does not rotate along with the rotation of rotating a section of thick bamboo in the course of working, seals and rotates a section of thick bamboo, prevents that honey from spilling, and learns the thickness that crystal honey deposits up through the observation window in the course of working, and rethread promotes the sampling box, holds a small amount of honey between the layering board, can inspect after taking out to whether detect honey reaches the standard, and judge whether to process once more, it is convenient to inspect.

To sum up, laborsaving pay-off subassembly is sent into the raw materials among the processing subassembly of multistep, all carry out laborsaving simple operation in pay-off and course of working, two sets of parts are mutually supported, save time by a wide margin, the machining efficiency is improved, separate through the activity closing cap subassembly between the processing subassembly of multistep and the collection processing subassembly, processing while examining, whether be fit for collecting the transport with the definite determination, it installs directly inside the processing subassembly of multistep to remain the clearance subassembly, do not influence the device normal use, remove the problem of repeated installation dismantlement from, easy operation is convenient, the cleaning efficiency is high.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the mounting structure of the rotary cylinder of the present invention;

FIG. 3 is a schematic view of the positioning frame of the present invention;

FIG. 4 is a schematic view of the labor-saving feed assembly of the present invention;

FIG. 5 is a schematic view of the swash plate mounting structure of the present invention;

FIG. 6 is a schematic structural view of the residual cleaning assembly of the present invention;

FIG. 7 is a schematic view of the mounting structure of the water storage box of the present invention;

FIG. 8 is a schematic view of the mounting structure of the tube in the present invention;

FIG. 9 is a schematic view of the mounting structure of the travel bar of the present invention;

FIG. 10 is a schematic structural view of the removable closure assembly of the present invention;

reference numbers in the figures: 1. a base plate; 2. a side plate; 3. a middle plate; 4. fixing the semicircular plate;

5. multi-step processing the assembly; 501. installing a pipe; 502. a hydraulic lever; 503. a rotating cylinder; 504. a drive motor; 505. sealing a ring; 506. a heat conducting support plate; 507. a ball bearing; 508. a vent hole; 509. a filter cartridge; 510. a partition plate; 511. a positioning frame; 512. a support ring; 513. a heat insulating cylinder; 514. a pressure relief vent; 515. blocking strips; 516. heating resistance wires; 517. a heat conducting tube; 518. connecting a sleeve; 519. a U-shaped pipe; 520. a vacuum pump; 521. a cold air pipe; 522. a hot air pipe; 523. a belt pulley;

6. a labor-saving feeding assembly; 601. a middle sleeve; 602. a support groove; 603. a feed pipe; 604. a movable end tube; 605. rotating the material pipe; 606. drawing the material pipe; 607. mounting blocks; 608. a connecting spring; 609. a guide bar; 610. a collecting hopper; 611. embedding an inlet; 612. coarse screening; 613. a sloping plate; 614. a seal ring; 615. a tooth socket; 616. a reduction gear box; 617. a feeding motor;

7. a residue cleaning assembly; 701. a water supply pipe; 702. an annular water pipe; 703. a water receiving pipe; 704. a water storage box; 705. a water supply hole; 706. sealing the membrane ring; 707. a drain hole; 708. a fork lever; 709. an end ring;

8. a collection processing assembly; 801. a movable semicircular plate; 802. a base; 803. a hollow heating plate; 804. melting the resistance wire; 805. rotating the rod; 806. a stirring sheet; 807. a quadrangular rod; 808. stirring the sleeve; 809. a stirring motor; 810. a middle tube; 811. a cooling water tank; 812. a water inlet pipe; 813. a drain pipe; 814. a water pump; 815. a main water tank; 816. a rubber tube; 817. a top cover;

9. a removable cover assembly; 901. capping the tube; 902. a filter cartridge cover; 903. a movable cover; 904. an observation window; 905. an inspection opening; 906. a support plate; 907. a sampling box; 908. a laminate; 909. and (6) positioning a groove.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-10, the invention provides a technical scheme of a honey efficient comprehensive processing device, which comprises a bottom plate 1, wherein a side plate 2 is installed at one end of the top surface of the bottom plate 1, a middle plate 3 is welded at the middle part of the side plate 2, and one end of the middle plate 3 is welded at the middle part of a fixed semicircular plate 4;

the top end of the fixed semicircular plate 4 is provided with a multi-step processing assembly 5, and the multi-step processing assembly 5 comprises a mounting pipe 501, a hydraulic rod 502, a rotating cylinder 503, a transmission motor 504, a sealing ring 505, a heat-conducting support plate 506, a ball 507, a vent hole 508, a filter cylinder 509, a partition plate 510, a positioning frame 511, a support ring 512, a heat-insulating cylinder 513, a pressure reducing hole 514, a baffle strip 515, a heating resistance wire 516, a heat-conducting cylinder 517, a connecting sleeve 518, a U-shaped pipe 519, a vacuum pump 520, a cold air pipe 521, a hot air pipe 522 and a;

the bottom end of the installation tube 501 is hinged and installed on one side of the top end of the fixed semicircular plate 4, the middle part of the bottom surface of the installation tube 501 is hinged and installed on the top end of the hydraulic rod 502, the bottom end of the hydraulic rod 502 is hinged and installed on the top surface of the middle plate 3, the rotating cylinder 503 is movably installed inside the installation tube 501, the transmission motor 504 is installed at the bottom end of the installation tube 501, the input ends of the transmission motor 504, the heating resistance wire 516 and the vacuum pump 520 are electrically connected with the output end of an external power supply, the outer sides of the transmission motor 504 and the vacuum pump 520 are respectively provided with a shock absorption seat, the transmission motor 504 and the vacuum pump 520 are conveniently installed, so that the transmission motor 504 and the vacuum pump 520 can normally play a role, the output end of the transmission motor 504 is sleeved with the belt pulley 523, the belt pulley 523 is connected with one end of the rotating cylinder 503 through a belt, the middle part of the heat-conducting support plate 506 is uniformly provided with vent holes 508, the inside of the rotating cylinder 503 is provided with a filter cylinder 509, and partition plates 510 are uniformly distributed between the outer side of the filter cylinder 509 and the inner wall of the rotating cylinder 503;

inside movable mounting of cartridge filter 509 has locating rack 511, support ring 512 has all been welded at locating rack 511 both ends, locating rack 511 middle part fixed mounting has thermal-insulated section of thick bamboo 513, pressure-reducing hole 514 has evenly been seted up to thermal-insulated section of thick bamboo 513 bottom, barrier strip 515 is all installed to thermal-insulated section of thick bamboo 513 bottom position in pressure-reducing hole 514 both sides department, evenly distributed has heating resistor silk 516 in the thermal-insulated section of thick bamboo 513 outside, thermal-conductive section of thick bamboo 517 has been cup jointed to thermal-insulated section of thick bamboo 513 outside, thermal-insulated section of thick bamboo 513 one end is connected with U type pipe 519 through adapter sleeve 518, the vacuum pump 520 induction end is connected through adapter sleeve 518 on U type pipe 519 top, cold air.

The labor-saving feeding component 6 is mounted at the top end of the side plate 2, and the labor-saving feeding component 6 comprises a middle sleeve 601, a supporting groove 602, a feeding pipe 603, a movable end pipe 604, a rotating pipe 605, a drawing pipe 606, a mounting block 607, a connecting spring 608, a guide rod 609, a collecting hopper 610, an embedding opening 611, a coarse filter screen 612, an inclined plate 613, a sealing ring 614, a tooth socket 615, a reduction gear box 616 and a feeding motor 617;

the middle sleeve 601 is lapped on the top end of the side plate 2, a supporting groove 602 is formed in the position, corresponding to the middle sleeve 601, of the top end of the side plate 2, a feeding pipe 603 is fixedly installed at one end of the middle sleeve 601, a movable end pipe 604 is rotatably sleeved at one end, far away from the feeding pipe 603, of the middle sleeve 601, tooth grooves 615 are uniformly formed in the outer side, close to one end of the middle sleeve 601, of the movable end pipe 604, a reduction gear box 616 is installed at the top end of the middle sleeve 601, a feeding motor 617 is installed at the top end of the reduction gear box 616, the input end of the feeding motor 617 is electrically connected with the output end of an external power supply, a clamping groove is formed in the bottom end of the supporting groove;

the bottom end of the movable end pipe 604 is provided with a rotary material pipe 605 in a penetrating and welding mode, the rotary material pipe 605 is movably sleeved at the top end of the drawing material pipe 606, the bottom ends of two sides of the drawing material pipe 606 are respectively welded with a mounting block 607, the top end of the mounting block 607 is spot-welded with a connecting spring 608, the top end of the connecting spring 608 is spot-welded at the bottom end of the side face of the rotary material pipe 605, the top end of the mounting block 607 is located inside the connecting spring 608 and is welded with a guide rod 609, the bottom end of the drawing material pipe 606 is connected with a collecting hopper 610, the middle part of the top end of the collecting hopper 610 is provided with an embedding port 611, the bottom end of the embedding port 611 is.

A residual cleaning assembly 7 is arranged at one side of the seal ring 505, and the residual cleaning assembly 7 comprises a water supply pipe 701, an annular water pipe 702, a water receiving pipe 703, a water storage box 704, a water supply hole 705, a seal membrane ring 706, a water drainage hole 707, a fork rod 708 and an end ring 709;

the water feeding pipes 701 uniformly penetrate and are installed in the middle of the sealing ring 505, the water feeding pipes 701 penetrate and are installed on the side face of the annular water pipe 702 in a welding mode, a water receiving pipe 703 is connected to one side of the annular water pipe 702, a water storage box 704 is installed at one end of the partition plate 510 close to the water feeding pipe 701, a water feeding hole 705 is formed in the position, corresponding to the water feeding pipe 701, of the water storage box 704, a sealing film ring 706 is bonded inside the water feeding hole 705, a water discharging hole 707 is formed in the position, close to the outer side of the filter cylinder 509, of the water storage box 704, the bottom ends of the adjacent water storage boxes are connected through a fork rod 708, a fine seam is formed in the middle of the fork rod 708, the fine seam fits the outer side of the partition plate 510, the.

A collection processing assembly 8 is arranged on one side of the fixed semicircular plate 4, and the collection processing assembly 8 comprises a movable semicircular plate 801, a base 802, a hollow heating plate 803, a melting resistance wire 804, a rotating rod 805, a stirring sheet 806, a quadrangular rod 807, a stirring sleeve 808, a stirring motor 809, a middle pipe 810, a cooling water tank 811, a water inlet pipe 812, a water outlet pipe 813, a water pump 814, a main water tank 815, a rubber pipe 816 and a top cover 817;

the movable semicircular plate 801 is hinged to one end of the fixed semicircular plate 4, a base 802 is movably arranged in the fixed semicircular plate 4, a hollow heating plate 803 is arranged at the bottom end of the base 802, melting resistance wires 804 are uniformly distributed on the bottom surface of the hollow heating plate 803, a rotating rod 805 is rotatably arranged in the middle of the base 802, stirring blades 806 are uniformly distributed on the outer side of the rotating rod 805, a quadrangular rod 807 is arranged on one side of the rotating rod 805, a stirring sleeve 808 is rotatably arranged at the position, corresponding to the quadrangular rod 807, of the fixed semicircular plate 4 in a penetrating manner, one end of the stirring sleeve 808 is connected to one end of a stirring motor 809, the quadrangular rod 807 is matched in the stirring sleeve 808, the melting resistance wires 804, the stirring motor 809 and the input end of a connecting water pump 814 are electrically connected with the external power supply output end, the stirring sleeve 808 can conveniently detach and detach the, the bottom end of the side face of the cooling water tank 811 runs through the fixed semicircular plate 4 and is connected with a water inlet pipe 812, the top end of the side face of the cooling water tank 811 runs through the fixed semicircular plate 4 and is connected with a water outlet pipe 813, one end of the water outlet pipe 813 is connected with a water pump 814, the water pump 814 is installed on the top end of the water tank 815, the water outlet pipe 813 is connected with the top end of the water tank 815 through a pipeline, the rubber pipe 816 is installed on the top end of.

One end of the rotary cylinder 503 is connected with a movable cover assembly 9, and the movable cover assembly 9 comprises a cover tube 901, a filter cylinder cover 902, a movable cover 903, an observation window 904, an inspection opening 905, a supporting plate 906, a sampling box 907, a layering plate 908 and a positioning groove 909;

the sealing tube 901 is sleeved at one end of the heat insulation cylinder 513, the number of the positioning grooves 909 is three, the positioning grooves 909 are matched with the end part of the positioning frame 511, the sealing tube 901 is conveniently installed at the end part of the positioning frame 511, the sealing tube 901 is installed in the middle of the filter cylinder cover 902 in a penetrating manner, the top end and the bottom end of the filter cylinder cover 902 are both hinged with a movable cover 903, an observation window 904 is embedded in the middle of the movable cover 903 below the sealing tube 901, an inspection opening 905 is formed in the middle of the movable cover 903 above the sealing tube 901, a supporting plate 906 is installed at the top end of the inspection opening 905, a sampling box 907 is installed on the top surface of the supporting plate 906 in a sliding manner, layered plates 908 are uniformly distributed inside the sampling box 907.

The working principle and the using process of the invention are as follows: natural honey is put into a collecting hopper 610, at the moment, a drawing material pipe 606 slides downwards under the action of gravity, a connecting spring 608 extends, the position is lower, the honey is easy to put in, a coarse filter 612 is put into an embedding opening 611, large sundries are removed after being filtered by the coarse filter 612, a feeding motor 617 is started, the rotating material pipe 605 is driven to rotate through the speed reduction of a reduction gear box 616, in the process, because the position of the drawing material pipe 606 is changed, the drawing material pipe 606 retracts into the rotating material pipe 605 under the action of gravity and the connecting spring 608, the problem that the drawing material pipe 606 is too long to impact an indoor ceiling is avoided, the natural honey is poured into a middle sleeve 601 and then enters a feeding pipe 603, at the moment, the edge of an inclined plate 613 supports the inner wall of the collecting hopper 610, the inclined plate 613 prevents the honey from being poured out, the collecting hopper 610 returns to the original position after rotating for one circle, the natural honey can, honey is labor-saving to carry, labor-saving to put in and convenient to feed;

the transmission motor 504 drives the rotating cylinder 503 to rotate through the belt pulley 523 and the belt, in the process, the ball 507 at the edge of the heat conducting support plate 506 contacts the inner wall of the installation pipe 501 to roll, the rotating cylinder 503 and the filter cylinder 509 synchronously rotate, after natural honey is sent into the rotating filter cylinder 509, the natural honey is filtered under the action of centrifugal force, the heat conducting cylinder 517 is positioned at the axis position of the filter cylinder 509 and is not easily contaminated by the honey, because the bottom end of the U-shaped pipe 519 is embedded into the heat insulating cylinder 513, the heat conducting cylinder 517 cannot rotate along with the rotation of the filter cylinder 509, the heat insulating cylinder 513 is made of ceramic fiber, the heat conducting cylinder 517 is heated by the heating resistance wire 516, the temperature is raised, moisture is heated and evaporated, the vacuum pump 520 is started at the same time, moist air in the filter cylinder 509 is extracted through the pressure reducing hole 514, the barrier strip 515 prevents the honey from being sucked into the, under the environment of simulating reduced pressure concentration, the evaporation of water is accelerated, the honey is thrown out after being filtered by the filter cylinder 509 and is adhered to the inner wall of the rotary cylinder 503, cold air is sent into the cold air pipe 521 to reduce the temperature of the outer side of the rotary cylinder 503, the rotary cylinder 503 is in the condition that the temperature of the outer side is low and the temperature of the center is high, so that the honey close to the rotary cylinder 503 is crystallized, when the thickness of the crystals of honey reaches a position close to the filter cartridge 509, the hot air pipe 522 is fed with hot air, so that a small amount of honey on the inner walls of the partition 510 and the rotary cylinder 503 is melted, the hydraulic rod 502 is started, the installation pipe 501 is jacked up, the installation pipe 501 is inclined, the movable cover 903 is opened, the inner part is crystallized, the melted honey solid on the outer side is poured into the collection processing assembly 8, the subsequent collection, filtration, pressure reduction concentration and crystallization can be conveniently carried out simultaneously, the use of equipment is reduced, the occupied space of the equipment is small, and the processing efficiency is greatly improved;

the movable sealing cover assembly 9 does not rotate along with the rotation of the rotating cylinder 503 in the processing process, the rotating cylinder 503 is sealed by the two movable cover 903 combination bodies to prevent honey from leaking, the thickness of the crystallized honey accumulated in the processing process is known through the observation window 904, the sampling box 907 is pushed to slide along the support plate 906, the layered plate 908 is embedded into the honey to collect a small amount of honey, and the honey can be inspected after being taken out to detect whether the honey reaches the standard and judge whether the processing is carried out again, so that the inspection is convenient;

promote base 802 to get into fixed semicircle board 4 in, four arriss pole 807 aim at stirring sleeve 808 and join, it is internal that honey after multistep processing subassembly 5 handles gets into the jar of base 802 and well pipe 810 combination, start agitator motor 809, through the rotation stirring of dwang 805, with the inside crystallization, the solid honey of the honey that the outside melts stirs and smashes, reduce the space between the crystallized honey, water pump 814 draws the inside water of total water tank 815 and gets into cooling water tank 811 cooling well pipe 810, the cooling of cooperation cooling water tank 811 makes honey crystallize once more and be fixed state, conveniently deposit and carry, installation top cap 817 is sealed, rubber tube 816 is inflatable deformation, prevent that the gaseous destruction well pipe 810 that the internal honey fermentation of jar produced, take off base 802, four arriss pole 807 breaks away from stirring sleeve 808 and can directly transport, reach the processing position, heat hollow heating plate 803 through melting resistance wire 804, the honey is melted again, so that the honey can be poured out conveniently, and the honey can be stored simply and conveniently;

after the processing is accomplished, water pipe 703 is connected to water receiving pipe, send into inside clear water to water storage box 704 through annular water pipe 702, pulling end ring 709 afterwards, fork arm 708 and water storage box 704 slide along the cartridge filter 509 outside and the baffle 510 outside, the pulling in-process, water pipe 701 breaks away from water supply hole 705, sealed membrane ring 706 reconversion, seal water supply hole 705, this moment, the inside water of water storage box 704 can slowly soak cartridge filter 509 and baffle 510 and a rotation section of thick bamboo 503 inner wall through wash port 707, and water pipe 701 is still continuously spraying water, clear up inside the device, rotate rotation section of thick bamboo 503 in the clearance process, improve the clearance effect, prevent to influence next use, and this remain clearance subassembly 7 can directly install inside the device and do not influence the device normal use, remove the problem of repeated installation dismantlement from, and operate is simple and convenient, the cleaning efficiency is high.

To sum up, laborsaving pay-off subassembly 6 is sent into the raw materials in the processing subassembly 5 of multistep, all carry out laborsaving simple operation in pay-off and course of working, two sets of parts are mutually supported, save time by a wide margin, the machining efficiency is improved, separate through activity closing cap subassembly 9 between the processing subassembly 5 of multistep and the collection processing subassembly 8, processing while examining, whether be fit for collecting the transport with the definite decision, it installs inside the processing subassembly 5 of multistep directly to remain clearance subassembly 7, do not influence the device normal use, remove the problem of repeated installation dismantlement from, easy operation is convenient, the cleaning efficiency is high, the device easy operation is convenient.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a processingequipment is synthesized to honey high efficiency, includes bottom plate (1), its characterized in that: a side plate (2) is mounted at one end of the top surface of the bottom plate (1), a middle plate (3) is welded in the middle of the side plate (2), and one end of the middle plate (3) is welded in the middle of the fixed semicircular plate (4);

the multi-step machining assembly (5) is mounted at the top end of the fixed semicircular plate (4), and the multi-step machining assembly (5) comprises a mounting pipe (501), a hydraulic rod (502), a rotating cylinder (503), a transmission motor (504), a seal ring (505), a heat-conducting support plate (506), a ball (507), a vent hole (508), a filter cylinder (509), a partition plate (510), a positioning frame (511), a support ring (512), a heat-insulating cylinder (513), a pressure-reducing hole (514), a baffle strip (515), a heating resistance wire (516), a heat-conducting cylinder (517), a connecting sleeve (518), a U-shaped pipe (519), a vacuum pump (520), a cold air pipe (521), a hot air pipe (522) and a belt pulley;

the bottom end of the installation pipe (501) is hinged to one side of the top end of the fixed semicircular plate (4), the middle part of the bottom surface of the installation pipe (501) is hinged to the top end of the hydraulic rod (502), the bottom end of the hydraulic rod (502) is hinged to the top surface of the middle plate (3), a rotating cylinder (503) is movably installed inside the installation cylinder (501), a transmission motor (504) is installed at the bottom end of the installation pipe (501), a belt pulley (523) is sleeved at the output shaft end of the transmission motor (504), the belt pulley (523) is connected to one end of the rotating cylinder (503) through a belt, sealing rings (505) are movably embedded at positions of two ends between the installation pipe (501) and the rotating cylinder (503), heat-conducting support plates (506) are uniformly distributed on the outer side of the rotating cylinder (503), and balls (507) are movably embedded at positions of the heat-, the middle part of the heat-conducting support plate (506) is uniformly provided with vent holes (508), a filter cylinder (509) is arranged in the rotating cylinder (503), and partition plates (510) are uniformly distributed between the outer side of the filter cylinder (509) and the inner wall of the rotating cylinder (503);

a positioning frame (511) is movably arranged in the filter cylinder (509), two ends of the positioning frame (511) are welded with support rings (512), a heat insulation cylinder (513) is fixedly arranged in the middle of the positioning frame (511), pressure reducing holes (514) are uniformly formed in the bottom end of the heat insulation cylinder (513), barrier strips (515) are respectively arranged on the bottom surface of the heat insulation cylinder (513) at the two sides of the pressure reducing hole (514), heating resistance wires (516) are uniformly distributed on the outer side of the heat insulation cylinder (513), a heat conduction cylinder (517) is sleeved on the outer side of the heat insulation cylinder (513), one end of the heat insulation cylinder (513) is connected with a U-shaped pipe (519) through a connecting sleeve (518), the top end of the U-shaped pipe (519) is connected with the suction end of a vacuum pump (520) through a connecting sleeve (518), cold air pipe (521) are installed to installation pipe (501) top surface one end, installation pipe (501) top surface is close to cold air pipe (521) department and installs hot air pipe (522).

2. The efficient comprehensive honey processing device as claimed in claim 1, wherein the input ends of the transmission motor (504), the heating resistance wire (516) and the vacuum pump (520) are electrically connected with the output end of an external power supply, and the outer sides of the transmission motor (504) and the vacuum pump (520) are respectively provided with a damping seat.

3. The efficient comprehensive honey processing device according to claim 1, wherein a labor-saving feeding assembly (6) is mounted at the top end of the side plate (2), and the labor-saving feeding assembly (6) comprises a middle sleeve (601), a supporting groove (602), a feeding pipe (603), a movable end pipe (604), a rotating material pipe (605), a drawing material pipe (606), a mounting block (607), a connecting spring (608), a guide rod (609), a collecting hopper (610), an embedding port (611), a coarse filter screen (612), an inclined plate (613), a sealing ring (614), a tooth socket (615), a reduction gear box (616) and a feeding motor (617);

the middle sleeve (601) is lapped on the top end of the side plate (2), a supporting groove (602) is formed in the top end of the side plate (2) corresponding to the middle sleeve (601), a feeding pipe (603) is fixedly installed at one end of the middle sleeve (601), a movable end pipe (604) is rotatably sleeved at one end, away from the feeding pipe (603), of the middle sleeve (601), tooth grooves (615) are uniformly formed in the outer side of one end, close to the middle sleeve (601), of the movable end pipe (604), a reduction gear box (616) is installed at the top end of the middle sleeve (601), and a feeding motor (617) is installed at the top end of the reduction gear box (616);

the bottom end of the movable end pipe (604) is provided with a rotating material pipe (605) in a penetrating and welding mode, the rotating material pipe (605) is movably sleeved at the top end of the drawing material pipe (606), the bottom ends of two sides of the drawing material pipe (606) are respectively welded with an installation block (607), the top end of the installation block (607) is spot welded with a connecting spring (608), the top end of the connecting spring (608) is welded on the bottom end of the side surface of the rotating material pipe (605), a guide rod (609) is welded at the position, located inside the connecting spring (608), of the top end of the mounting block (607), the bottom end of the drawing material pipe (606) is connected with a collecting hopper (610), the middle part of the top end of the collecting hopper (610) is provided with an embedding opening (611), inlay mouth (611) bottom internally mounted has coarse screen (612), collect fill (610) inside be located and inlay mouth (611) below department and install swash plate (613) through the spring hinge, swash plate (613) edge evenly bonds and has sealing washer (614).

4. The efficient comprehensive honey processing device as claimed in claim 3, wherein an input end of the feeding motor (617) is electrically connected with an output end of an external power supply, a clamping groove is formed in the bottom end of the support groove (602), a clamping block is welded to the bottom end of the middle sleeve (601) corresponding to the clamping groove, and the filter cylinder (509) is sleeved at one end of the feeding pipe (603).

5. The efficient comprehensive honey processing device according to claim 1, wherein a residual cleaning assembly (7) is installed at one side of the sealing ring (505), and the residual cleaning assembly (7) comprises a water supply pipe (701), an annular water pipe (702), a water receiving pipe (703), a water storage box (704), a water supply hole (705), a sealing membrane ring (706), a water discharge hole (707), a fork rod (708) and an end ring (709);

the water supply pipe (701) is uniformly installed in the middle of a seal ring (505) in a penetrating mode, the water supply pipe (701) is installed on the side face of an annular water pipe (702) in a penetrating mode in a welding mode, a water receiving pipe (703) is connected to one side of the annular water pipe (702), a water storage box (704) is installed at the position, close to the water supply pipe (701), of one end of a partition plate (510), a water supply hole (705) is formed in the position, corresponding to the water supply pipe (701), of the water storage box (704), a sealing membrane ring (706) is bonded inside the water supply hole (705), a water discharging hole (707) is formed in the position, close to the outer side of a filter cylinder (509), of the water storage box (704) is adjacent to the bottom end of the water storage box (704.

6. A high-efficiency comprehensive honey processing device as claimed in claim 5, wherein a slit is formed in the middle of the fork rod (708), the slit fits the outer side of the partition plate (510), and the length of the fork rod (708) is equal to that of the partition plate (510).

7. The efficient comprehensive honey processing device according to claim 1, wherein a collection processing component (8) is installed on one side of the fixed semicircular plate (4), and the collection processing component (8) comprises a movable semicircular plate (801), a base (802), a hollow heating plate (803), a melting resistance wire (804), a rotating rod (805), a stirring sheet (806), a quadrangular rod (807), a stirring sleeve (808), a stirring motor (809), a middle pipe (810), a cooling water tank (811), a water inlet pipe (812), a water outlet pipe (813), a water pump (814), a main water tank (815), a rubber pipe (816) and a top cover (817);

the movable semicircular plate (801) is hinged to one end of the fixed semicircular plate (4), a base (802) is movably mounted inside the fixed semicircular plate (4), a hollow heating plate (803) is mounted at the bottom end of the base (802), a melting resistance wire (804) is uniformly distributed on the bottom surface of the hollow heating plate (803), a rotating rod (805) is rotatably mounted in the middle of the base (802), stirring blades (806) are uniformly distributed on the outer side of the rotating rod (805), a quadrangular rod (807) is mounted on one side of the rotating rod (805), a stirring sleeve (808) is rotatably mounted at the position, corresponding to the quadrangular rod (807), of the fixed semicircular plate (4) in a penetrating mode, one end of the stirring sleeve (808) is connected to one end of a stirring motor (809), a middle pipe (810) is connected to the top end of the base (802) through threads, and, the utility model discloses a cooling water supply system, including cooling water tank (811), cooling water tank (811) side bottom run through fixed semicircle board (4) and be connected with inlet tube (812), cooling water tank (811) side top run through fixed semicircle board (4) and be connected with drain pipe (813), water pump (814) is connected to drain pipe (813) one end, install in header tank (815) top water pump (814), drain pipe (813) are connected through pipeline and header tank (815) top, rubber tube (816) are installed on well pipe (810) top, top cap (817) are installed on rubber tube (816) top.

8. The efficient comprehensive honey processing device as claimed in claim 7, wherein the stirring sleeve (808) is internally fitted with a quadrangular rod (807), and the input ends of the melting resistance wire (804), the stirring motor (809) and the connecting water pump (814) are electrically connected with the output end of an external power supply.

9. A high-efficiency comprehensive honey processing device according to claim 1, wherein one end of the rotary cylinder (503) is connected with a movable cover component (9), and the movable cover component (9) comprises a cover tube (901), a filter cylinder cover (902), a movable cover (903), an observation window (904), an inspection opening (905), a supporting plate (906), a sampling box (907), a layered plate (908) and a positioning groove (909);

the heat insulation device is characterized in that the sealing cover pipe (901) is sleeved at one end of the heat insulation cylinder (513), the sealing cover pipe (901) is installed in the middle of the filter cylinder cover (902) in a penetrating mode, movable covers (903) are hinged to the top end and the bottom end of the filter cylinder cover (902), an observation window (904) is embedded in the middle of each movable cover (903) located below the sealing cover pipe (901), an inspection opening (905) is formed in the middle of each movable cover (903) located above the sealing cover pipe (901), a supporting plate (906) is installed at the top end of each inspection opening (905), a sampling box (907) is installed on the top surface of each supporting plate (906) in a sliding mode, layered plates (908) are evenly distributed inside the sampling box (907), and a positioning groove (909) is formed in the middle position, corresponding to

The number of the positioning grooves (909) is three, and the positioning grooves (909) are matched with the end part of the positioning frame (511).

10. A method of honey processing characterised in that honey is processed using a processing apparatus as claimed in any one of claims 1 to 9.

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