CN114916471A - Rotatory pendulous device of honey processing usefulness - Google Patents

Abstract

The invention discloses a rotary swing device for honey processing, and relates to the technical field of honey processing. The invention comprises a conveying assembly, a vibrating assembly, a shell assembly, a collecting assembly, a heating assembly and a centrifugal assembly. When filter equipment used in current honey processing, there was great problem to the filtration of honey with getting rid of, the honey viscosity was too big, and the honey after the filtration bonds easily at filter screen and the unable effective discharge of box inner wall, has reduced the efficiency of honey processing, simultaneously to the unable effective filtration of the higher honey of viscosity, the higher parcel impurity of honey viscosity, the unable effective filtration of filter screen. According to the invention, the wax on the honey box is dropped off through the vibration device, the honey in the honey box is thrown out through centrifugation, and the honey is heated through the heating rod, so that the problem of honey bonding caused by over cold honey is solved, and the honey is convenient to collect.

Description

Rotatory pendulous device of honey processing usefulness

Technical Field

The invention relates to the technical field of honey processing, in particular to a rotary swinging device for honey processing.

Background

Honey is a natural sweet substance obtained by honey collected from flowers of flowering plants by bees and fully brewed in a honeycomb. The bee product has fragrant and rich scent and pure sweet taste, and has flower honey or secretion with water content of 75% collected from the flower of the plant and stored in the second stomach. The honey is harvested manually, but generally needs mechanical harvesting due to the reasons of slow harvesting time, short harvesting time and the like.

The utility model discloses a utility model with publication number CN214071244U discloses a rotation type honey blanking collection system, in the use, does not have the device to filter equipment and convenient collection honey to all need the manual work to operate it in the use.

When current filter equipment for honey processing used, there was great problem to the filtration of honey with getting rid of, the honey viscosity was too big, and the honey after the filtration bonds easily and can't effectively discharge at filter screen and box inner wall, has reduced the efficiency of honey processing, simultaneously to the unable effective filtration of the higher honey of viscosity, the higher parcel impurity of honey viscosity, the unable effective filtration of filter screen. Present honey's collection is mostly scraped the material through the manual work, scrapes the honey on the honeycomb panel down, and this kind of mode still can persist partial honey to last honey scraping unclean, on the honeycomb panel, if do not adopt other measures to carry out secondary collection, amasss and lacked the waste that leads to output honey easily.

Disclosure of Invention

In order to solve the above problems, the present invention provides the following technical solutions: a rotary swinging device for honey processing comprises a shell assembly, wherein the shell assembly further comprises an upper shell, a middle shell and a lower shell, the upper shell is fixedly arranged on a conveying support on a conveying assembly, the upper shell is also rotatably connected with a centrifugal assembly, the centrifugal assembly is rotatably connected with the middle shell and the lower shell, the centrifugal assembly is also fixedly connected with a heating assembly, the lower shell is fixedly provided with a collecting assembly, the conveying assembly comprises a honey plate, and a friction groove is formed in the honey plate;

the centrifugal component comprises an upper centrifugal ring, a lower centrifugal ring is fixedly connected onto the upper centrifugal ring through a vertical rod, a sliding support frame is fixedly connected onto the lower centrifugal ring, a sliding block is connected onto the sliding support frame in a sliding manner, a first rotating shaft is rotatably connected onto the sliding block, the first rotating shaft is rotatably mounted on a lower pressing plate, the lower pressing plate is rotatably mounted on a lower pressing platform through a shaft, one end of a second spring is fixedly connected onto the lower pressing platform, the other end of the second spring is fixedly connected onto a rotating main ring, a rotating main ring groove and a rotating main shaft hole are formed in the rotating main ring, a rod on the lower pressing platform penetrates through the rotating main shaft hole in the rotating main ring and is fixedly connected onto one surface of the centrifugal gear, one end of a connecting ring is fixedly connected onto the other surface of the centrifugal gear through a rod, the other end of the connecting ring is fixedly connected onto a first gear shaft, and the first gear shaft is slidably connected onto a base support, the first gear shaft is connected with a first gear in a rotating mode, the first gear is connected with an output gear in a rotating mode, the output gear is fixedly connected to an output shaft of an output motor, the centrifugal gear is further connected to a lower main shaft in a sliding mode, and a rotating main ring is fixedly connected to the lower main shaft.

Preferably, the rotating main ring is further fixedly connected with one end of a centrifugal middle rod, the other end of the centrifugal middle rod is fixedly connected to the upper main shaft, the centrifugal middle rod is further connected to the sliding connection ring in a sliding manner, the upper main shaft is fixedly connected with a centrifugal outer rod, the centrifugal outer rod is fixedly connected with a centrifugal limiting rod, and a sliding groove is formed in the centrifugal limiting rod.

Preferably, conveying component still includes conveyor motor, and conveyor motor fixed mounting is on the transfer gantry, and the last fixedly connected with of conveyor motor carries the axle, carries the epaxial rotation of epaxial to be connected with the conveyer belt, and the conveyer belt promotes the one end of the pole on the honey board and removes along with the conveyer belt, and the other end sliding connection of the pole on the honey board is on carrying the sliding shaft, and the second crossbearer is carried to last fixed connection of conveyor gantry, carries fixedly connected with on the second crossbearer to carry and erects the frame, carries to erect and be equipped with the groove on the frame.

Preferably, the vibration component further comprises a left pushing mechanism, a right pushing frame and a lower pushing mechanism, the left pushing mechanism is fixedly connected to the upper shell, the upper shell is also fixedly connected with the collecting frame, the right pushing frame is fixedly connected to the collecting frame, the left pushing mechanism further comprises a pushing frame, a left pushing electric cylinder and a left pushing plate, the left pushing mechanism is fixedly connected to the upper shell through the pushing frame, one end of the left pushing electric cylinder is fixedly connected to the pushing frame, the other end of the left pushing electric cylinder is fixedly connected to the left pushing plate, the pushing frame is also fixedly connected with the left pushing frame, the right pushing frame comprises a right pushing electric cylinder, the right pushing electric cylinder is fixedly connected to the collecting frame, a right rotating motor is fixedly connected to the right pushing electric cylinder, a right rotating shaft is rotatably connected to the right rotating motor, a right gear is fixedly connected to the right rotating shaft, a right belt is rotatably connected to the right rotating shaft, the lower pushing mechanism and the right pushing frame are of a similar structure, the lower pushing mechanism is also provided with a right rotating motor, a right belt, a right rotating shaft and a right gear, and the lower pushing mechanism is fixedly connected to the output gear vibrating component.

Preferably, the heating assembly comprises a first rotary gear ring, the first rotary gear ring is rotatably connected to a first gear, the first rotary gear ring is further rotatably connected with a heating gear, the heating gear is connected with a heating main shaft only in a sliding mode, the heating main shaft is fixedly connected with a sliding block, the heating main shaft is further fixedly connected with a heating half-gear, the heating gear is further fixedly connected with a heating swing mechanism and one end of a support frame, the other end of the support frame is fixedly connected to a base support, the base support is further fixedly connected with one end of a first spring, the other end of the first spring is fixedly connected with a lower support platform, the lower support platform is fixedly connected to the upper support platform, the lower rotary main ring is further rotatably connected with a lower leakage ring, the lower leakage ring is fixedly connected with one end of the support frame, and the other end of the support frame is fixedly mounted on a second rotary gear ring.

Preferably, the collecting assembly comprises a collecting pipe, one end of the collecting pipe is fixedly connected to the lower shell, and the other end of the collecting pipe is fixedly connected to the collecting box.

Preferably, the inferior valve includes the gathering ring, is equipped with the gathering pore on the gathering ring, and the gathering ring still is equipped with the inferior valve hole, and the inferior valve rotates to be connected on rotatory home ring, and the inside face of inferior valve is the slope, is close to one side end of gathering pore, keeps away from one side height of gathering pore, and the honey of being convenient for flows into the gathering pore.

Preferably, still fixedly connected with head rod on the first rotatory ring gear, fixedly connected with heating ring board on the head rod, fixedly connected with heating rod on the heating ring board rotates on the heating rod and is connected with the stirring board, and the heating rod still rotates to be connected on rotatory owner's annular.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a rotary swinging device for honey processing, which has the following beneficial effects: (1) according to the invention, the heating rod is used for heating the honey, so that the problem of honey bonding caused by over-cold honey is solved, and the honey is convenient to collect; (2) the invention automatically removes the wax on the honey box through the vibration component.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic diagram of the centrifuge assembly of the present invention.

FIG. 3 is a schematic diagram of a related structure of the pressing platform of the present invention.

Fig. 4 is a schematic diagram of the related structure of the centrifugal gear of the invention.

FIG. 5 is a schematic view of the structure of the centrifugal middle rod of the present invention.

FIG. 6 is a schematic view of the structure of the conveying assembly of the present invention.

FIG. 7 is a schematic view of the location of the vibration assembly according to the present invention.

FIG. 8 is a schematic view of the left pushing mechanism of the vibrating assembly of the present invention.

Fig. 9 is a schematic structural view of a heating assembly according to the present invention.

FIG. 10 is a schematic view of a heating swing assembly according to the present invention.

Fig. 11 is a schematic view of a heating gear according to the present invention.

FIG. 12 is a schematic view of a collection assembly according to the present invention.

Fig. 13 is a structural schematic view of the lower case of the present invention.

FIG. 14 is a schematic view of a heating rod according to the present invention.

FIG. 15 is a schematic view of the right pushing frame according to the present invention.

FIG. 16 is a schematic view of a lower driving mechanism according to the present invention.

In the figure: 1-a delivery assembly; 2-a vibration assembly; 3-a housing assembly; 4-a collection assembly; 5-a heating assembly; 6-a centrifugal assembly; 101-a conveying motor; 102-a delivery shaft; 103-a conveyor belt; 104-a delivery stent; 105-a conveyor bar; 106-conveying sliding shaft; 107-conveying vertical frames; 108-transport second cross frame; 201-left push mechanism; 2011-left push electric cylinder; 2012-left pusher plate; 2013-left push frame; 2014-collecting rack; 2015-a pusher rack; 202-right pushing frame; 2021-right rotating electrical machine; 2022-right belt; 2023-right rotation axis; 2024-right gear; 2025-right pushing electric cylinder; 203-lower pushing mechanism; 301-upper shell; 302-middle shell; 303-a lower shell; 3031-lower shell aperture; 3032-a collection well; 3033-a collecting ring; 401-a collection tube; 402-a collection bin; 501-a first rotating ring gear; 502-heating gear; 503-heating the spindle; 504-heating half teeth; 505-a second rotating ring gear; 506-a slide block; 507-a heating swing mechanism; 5071-upper fixing rod; 5072-rotating shaft; 5073-lower pole; 5074-upper bump; 508-a threaded ring; 509-upper support platform; 510-a lower abutment platform; 511-a first spring; 512-thread groove; 513-a gear support ring; 5131-gear support; 514-a support frame; 515-upper leakage ring; 516-lower drain ring; 517-first connecting rod; 518-heating ring plate; 519-a heating rod; 520-stirring plate; 601-an output motor; 602-output gear; 603-a first gear; 604-a first gear shaft; 605-a connecting ring; 606-a centrifugal gear; 607-rotating the main ring; 608-rotating the main ring groove; 609-rotating the spindle hole; 610-a second spring; 611-a push down platform; 612-a lower press plate; 613-first rotation axis; 614-support shaft; 615-a slider; 616-a sliding spring; 617-sliding support frame; 618-supporting the swash block; 619-a third spring; 620-sliding connection rings; 621-lower centrifugal ring; 622-upper centrifugal ring; 623-a fourth spring; 624-centrifugal intermediate bar; 625-lower main shaft; 626-centrifuge outer rod; 627-centrifugal spacing rod; 628-friction groove; 629-Honey plates; 630-upper spindle.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1-16, the present invention provides a technical solution: the utility model provides a rotatory pendulous device of honey processing usefulness, including housing assembly 3, housing assembly 3 still includes epitheca 301, mesochite 302 and inferior valve 303, epitheca 301 fixed mounting is on the delivery support 104 on delivery unit 1, it is connected with centrifugal component 6 still to rotate on the epitheca 301, it is connected with mesochite 302 and inferior valve 303 to rotate on the centrifugal component 6, it is connected with heating element 5 still to go back fixedly connected with on the centrifugal component 6, fixed mounting has collection subassembly 4 on the inferior valve 303, delivery unit 1 includes honey board 629, be equipped with friction groove 628 on the honey board 629.

The centrifugal assembly 6 comprises an upper centrifugal ring 622, a lower centrifugal ring 621 is fixedly connected to the upper centrifugal ring 622 through a vertical rod, a sliding support frame 617 is fixedly connected to the lower centrifugal ring 621, a sliding block 615 is slidably connected to the sliding support frame 617, a first rotating shaft 613 is rotatably connected to the sliding block 615, one end of a sliding spring 616 is also fixedly connected to the sliding block 615, the other end of the sliding spring 616 is fixedly connected to the sliding support frame 617, the first rotating shaft 613 is rotatably mounted on the lower press plate 612, a support shaft 614 is fixedly connected to one end of the lower press plate 612, which is close to the sliding support frame 617, a groove is formed in the central axis of the lower press plate 612, a support inclined block 618 is fixedly connected to the groove, two grooves are formed in one end of the lower press plate 612, which is close to the lower press platform 611, an inclined block is fixedly connected to the other end of a third spring 619, which is fixedly connected to one end of the groove, which is close to one end of the lower press platform 611, is connected to the inclined block in an initial state, when the two inclined blocks are squeezed, the inclined blocks on the third spring 619 will move away from the pressing platform 611, the pressing plate 612 is rotatably mounted on the pressing platform 611 through a shaft, one end of the second spring 610 is fixedly connected to the pressing platform 611, the other end of the second spring 610 is fixedly connected to the main rotating ring 607, the main rotating ring 607 is provided with a main rotating ring groove 608 and a main rotating shaft hole 609, a rod of the pressing platform 611 passes through the main rotating shaft hole 609 of the main rotating ring 607 and is fixedly connected to one side of the centrifugal gear 606, the other side of the centrifugal gear 606 is fixedly connected to one end of the connecting ring 605 through a rod, the other end of the connecting ring 605 is fixedly connected to the first gear shaft 604, the first gear shaft 604 is slidably connected to the base bracket, the first gear shaft 604 is rotatably connected to the first gear 603, the first gear 603 is rotatably connected to the output gear 602, the output gear 602 is fixedly connected to the output shaft of the output motor 601, the centrifugal gear 606 is also slidably connected to a lower spindle 625, and a rotating main ring 607 is fixedly connected to the lower spindle 625.

The output motor 601 provides power, when the lower pressing plate 612 is stressed, one end of the lower pressing plate 612 close to the lower pressing platform 611 moves downwards, one end of the lower pressing plate 612 close to the sliding support frame 617 moves in the sliding support frame 617 through the sliding block 615, the lower pressing plate 612 drives the lower pressing platform 611 to move downwards, the lower pressing platform 611 drives the centrifugal gear 606 to move downwards, the centrifugal gear 606 drives the connecting ring 605 to move downwards, the connecting ring 605 drives the first gear 603 to separate from the output gear 602, the centrifugal gear 606 is meshed with the output gear 602, so that the output gear 602 drives the centrifugal gear 606 to rotate, the centrifugal gear 606 drives the lower pressing platform 611 and the rotating main ring 607 to rotate through the rod, and the lower pressing platform 611 drives the lower pressing plate 612 to rotate.

One end of an eccentric middle rod 624 is fixedly connected to the rotary main ring 607, the other end of the eccentric middle rod 624 is fixedly connected to the upper main shaft 630, the eccentric middle rod 624 is slidably connected to the sliding connection ring 620, an eccentric outer rod 626 is fixedly connected to the upper main shaft 630, an eccentric limiting rod 627 is fixedly connected to the eccentric outer rod 626, and a sliding groove is formed in the eccentric limiting rod 627. When the upper honey plate 629 falls down and falls into the chute on the centrifugal limiting rod 627, the rod at one end of the honey plate 629 close to the centrifugal outer rod 626 extrudes the inclined block on the third spring 619 and the inclined block on the lower pressing plate 612, and after the inclined block on the third spring 619 moves, the rod on the honey plate 629 simultaneously falls into the chute on the central axis of the lower pressing plate 612, so that the lower pressing plate 612 is further extruded downwards.

Conveying element 1 still includes conveyor motor 101, conveyor motor 101 fixed mounting is on conveying support 104, fixedly connected with carries axle 102 on the conveyor motor 101, carry axle 102 still to rotate and install on carrying crossbearer 105, 102 carry and rotate on the axle 102 and be connected with conveyer belt 103, the one end that conveyer belt 103 promoted the pole on the honey board 629 removes along with conveyer belt 103, the other end sliding connection of the pole on the honey board 629 is on carrying smooth axle 106, fixedly connected with carries second crossbearer 108 on the conveying support 104, carry fixedly connected with on the second crossbearer 108 and carry axle 102, be equipped with the groove on carrying axle 102. The movement of the rods on the honey plates 629 is limited, and an inclined opening is arranged at one end of the groove of the conveying shaft 102 close to the conveying sliding shaft 106, so that the rods on the honey plates 629 can conveniently enter the sliding groove.

The vibration component 2 further comprises a left pushing mechanism 201, a right pushing frame 202 and a lower pushing mechanism 203, the left pushing mechanism 201 is fixedly connected to the upper shell 301, the upper shell 301 is also fixedly connected with a collecting frame 2014, the right pushing frame 202 is fixedly connected to the collecting frame 2014, the left pushing mechanism 201 further comprises a pushing frame 2015, a left pushing electric cylinder 2011 and a left pushing plate 2012, the left pushing mechanism 201 is fixedly connected to the upper shell 301 through the pushing frame 2015, one end of the left pushing electric cylinder 2011 is fixedly connected to the pushing frame 2015, the other end of the left pushing electric cylinder 2011 is fixedly connected to the left pushing plate 2012, the pushing frame 2015 is also fixedly connected to the left pushing frame 2013, the right pushing frame 202 comprises a right pushing electric cylinder 2025, the right pushing electric cylinder 2025 is fixedly connected to the collecting frame 2014, the right pushing electric cylinder 2025 is fixedly connected to a right rotating motor 2021, the right rotating motor 2021 is rotatably connected to a right rotating shaft 2023, and the right rotating shaft 2024 is fixedly connected to the right rotating shaft 2023, the right rotating shaft 2023 is rotatably connected with a right belt 2022, the lower pushing mechanism 203 and the right pushing frame 202 are similar in structure, the lower pushing mechanism 203 is also provided with a right rotating motor 2021, the right belt 2022, the right rotating shaft 2023 and a right gear 2024, and the lower pushing mechanism 203 is fixedly connected with the upper centrifugal ring 622. Lower pushing mechanism 203 is equipped with the multiunit, it just restricts the pole to be equipped with the multiunit on the upper centrifugal ring 622 and to correspond with lower pushing mechanism 203 position, be equipped with the groove on the pole, be equipped with the groove on the left pushing plate 2012, left side promotes frame 2013 in the inslot on left pushing plate 2012, left side promotes frame 2013 and plays the effect of the moving direction of restriction left pushing plate 2012, left side pushing mechanism 201 is equipped with two sets ofly, in operation, honey board 629 of top falls the back, promote left pushing plate 2012 through left side promotion electric cylinder 2011 promotion, left pushing plate 2012 promotes honey board 629, reciprocating motion, thereby shake the wax on honey board 629 off, fall to the inslot on the collection frame 2014 on both sides, flow along the groove.

The heating component 5 comprises a first rotary gear ring 501, the first rotary gear ring 501 is rotatably connected to a first gear 603, the first rotary gear ring 501 is further rotatably connected with a heating gear 502, the heating gear 502 is slidably connected with only a heating spindle 503, the heating spindle 503 is fixedly connected with a sliding block 506, the heating spindle 503 is further fixedly connected with a heating half-gear 504, the heating gear 502 is further fixedly connected with a heating swing mechanism 507, the heating gear 502 is further slidably connected with a gear support ring 513, the gear support ring 513 is fixedly arranged at one end of a gear support frame 5131, the other end of the gear support frame 5131 is fixedly connected to a base support, the base support is fixedly connected with one end of a first spring 511, the other end of the first spring 511 is fixedly connected with a lower support platform 510, the lower support platform 510 is fixedly connected with an upper support platform 509, and the rotary main ring 607 is fixedly connected with a lower leakage ring 516, the rotating main ring 607 is further rotatably connected with an upper leakage ring 515, one end of a support bracket 514 is fixedly installed on the lower leakage ring 516, and the other end of the support bracket 514 is fixedly installed on the second rotating toothed ring 505.

The heating swing mechanism 507 includes an upper fixing rod 5071, the upper fixing rod 5071 is fixedly connected to the heating gear 502, the upper fixing rod 5071 is fixedly connected to a rotating shaft 5072, the rotating shaft 5072 is rotatably connected to one end of a lower rod 5073, the other end of the lower rod 5073 is in contact with an upper abutting platform 509, the upper fixing rod 5071 is provided with an upper convex block 5074, when the heating gear 502 rotates clockwise, the contact surface of the upper convex block 5074 and the lower rod 5073 is attached to each other, so that the lower rod 5073 is always kept in a vertical state, in this state, the lower rod 5073 is in contact with the upper abutting platform 509 and presses the upper abutting platform 509 downwards, the upper abutting platform 509 is provided with a slant block, when the heating gear 502 rotates clockwise, the lower rod 5073 is blocked, when the heating gear 502 rotates counterclockwise, the lower rod 5073 directly slides over the slant block, so that the first spring 511 is in a compressed state, and when the heating gear 502 rotates, the heating gear 502 drives the heating main shaft 503 to rotate through the slider 506, the thread on the heating main shaft 503 is engaged with the threaded ring 508, moving downwards, the heating half-tooth 504 on the heating main shaft 503 rotates while moving downwards, after moving downwards for a certain distance, the heating half-tooth is meshed with the second rotating toothed ring 505 to drive the second rotating toothed ring 505 to rotate, the second rotating toothed ring 505 drives the upper leakage ring 515 to rotate for ten degrees through the heating half-tooth 504, so that the hole on the upper leakage ring 515 is aligned with the hole on the lower leakage ring 516, therefore, the honey on the lower leakage ring 516 can flow down from the two holes, after the heating swing mechanism 507 is meshed with the second rotating toothed ring 505 to rotate, the heating half-tooth 504 continues to move downwards, a thread groove 512 is arranged above the thread on the heating main shaft 503, when the thread on the heating main shaft 503 is rotated, the heating main shaft 503 directly falls down and falls onto the lower supporting platform 510, when the heating gear 502 rotates anticlockwise, the first spring 511 is not pressed downwards, the first spring 511 gives a force to the lower supporting platform 510 to push the heating main shaft 503 upwards, so that the thread on the heating main shaft 503 is engaged with the thread ring 508 again, and the heating main shaft 503 can move spirally upward, the heating half-tooth 504 rotates the second rotary tooth ring 505 again, so that the upper leakage ring 515 is separated from the hole of the lower leakage ring 516 and is not aligned, and the honey is not left.

The collecting assembly 4 comprises a collecting pipe 401, one end of the collecting pipe 401 is fixedly connected to the lower casing 303, and the other end of the collecting pipe 401 is fixedly connected to the collecting box 402.

The lower shell 303 includes a collection ring 3033, the collection ring 3033 is provided with a collection hole 3032, the collection ring 3033 is further provided with a lower shell hole 3031, and the lower shell 303 is rotatably connected to the rotating main ring 607. The inner surface of the lower case 303 is inclined to be close to a bottom of the collecting hole 3032 and to be higher at a side far from the collecting hole 3032, so that the honey flows into the collecting hole 3032. The support bracket 514 passes through the lower housing hole 3031.

Still fixedly connected with head rod 517 on the first rotatory ring gear 501, fixedly connected with heating ring plate 518 on head rod 517, fixedly connected with heating rod 519 on the heating ring plate 518, rotate on the heating rod 519 and be connected with stirring board 520, heating rod 519 still rotates to be connected on rotatory owner's annular 608.

The first rotary toothed ring 501 drives the heating rod 519 on the heating ring plate 518 to rotate around the rotary main ring groove 608 through the first connecting rod 517, heats the honey, prevents the honey from solidifying, and simultaneously stirs the honey by using the stirring plate 520.

The invention discloses a rotary swing device for honey processing, which has the following working principle: when the honey plate 629 is pushed by the conveying belt 103 to fall down, the honey plate 629 enters the conveying vertical frame 107 and then falls into a groove between the two collecting frames 2014, the honey plate 629 is repeatedly pushed by the left pushing plate 2012 and the right pushing electric cylinder 2025 to be separated from wax on the honey plate 629 and enters the groove deleted by the collecting frames 2014, then the honey plate 629 is moved downwards by the right gear 2024 and enters the inside of the upper shell 301, the honey plate 629 falls onto the lower pressing plate 612, the lower pressing plate 612 is forced to move downwards, the support inclined block 618 is attached to the honey plate 629 in the downward movement process, meanwhile, the honey plate 629 is abutted by the sliding block 615, finally, the centrifugal gear 606 is engaged with the output gear 602, the output motor 601 is started, the honey plate 629 is driven to rotate, honey on the honey plate 629 is thrown by centrifugation, after the honey is thrown out, the honey plate 629 becomes light, the lower pressing plate 612 and the centrifugal gear 606 move upwards by the elasticity of the fourth spring 623 and the second spring 610, the centrifugal gear 606 is not meshed with the output gear 602 any more, the honey plate 629 stops rotating, then the first gear 603 returns to be meshed with the output gear 602, the first gear 603 drives the heating gear 502 to rotate through the first rotary toothed ring 501, so that the heating rod 519 rotates around the main rotary ring groove 608, after the heating rod 519 rotates about two weeks, the holes on the lower leakage ring 516 and the upper leakage ring 515 are aligned, honey flows downwards and is collected into the collection box 402 through the collection pipe 401, the honey plate 629 rotates upwards through the lower pushing mechanism 203 after being centrifuged, after the right pushing frame 202 contacts the honey plate 629, the honey plate 629 is pushed upwards together with the lower pushing mechanism 203, and after the honey plate 629 completely leaves the upper shell 301, the honey plate 629 is manually taken away.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (8)

1. The utility model provides a rotatory pendulous device of honey processing usefulness which characterized in that: the honey-honey composite conveyor comprises a shell component (3), wherein the shell component (3) further comprises an upper shell (301), a middle shell (302) and a lower shell (303), the upper shell (301) is fixedly arranged on a conveying support (104) on the conveying component (1), the upper shell (301) is also rotatably connected with a centrifugal component (6), the centrifugal component (6) is rotatably connected with the middle shell (302) and the lower shell (303), the centrifugal component (6) is also fixedly connected with a heating component (5), the lower shell (303) is fixedly arranged with a collecting component (4), the conveying component (1) comprises a honey plate (629), and a friction groove (628) is formed in the honey plate (629);

the centrifugal assembly (6) comprises an upper centrifugal ring (622), a lower centrifugal ring (621) is fixedly connected to the upper centrifugal ring (622) through a vertical rod, a sliding support frame (617) is fixedly connected to the lower centrifugal ring (621), a sliding block (615) is connected to the sliding support frame (617) in a sliding manner, a first rotating shaft (613) is connected to the sliding block (615) in a rotating manner, the first rotating shaft (613) is rotatably mounted on a lower pressing plate (612), the lower pressing plate (612) is rotatably mounted on a lower pressing platform (611) through a shaft, one end of a second spring (610) is fixedly connected to the lower pressing platform (611), the other end of the second spring (610) is fixedly connected to a main rotating ring (607), a main rotating ring groove (608) and a main rotating shaft hole (609) are formed in the main rotating ring (607), a rod on the lower pressing platform (611) penetrates through the main rotating shaft hole (609) in the main rotating ring (607) and is fixedly connected to one surface of a centrifugal gear (606), one end of a connecting ring (605) is fixedly connected to the other side of the centrifugal gear (606) through a rod, the other end of the connecting ring (605) is fixedly connected to a first gear shaft (604), the first gear shaft (604) is connected to the base support in a sliding mode, a first gear (603) is connected to the first gear shaft (604) in a rotating mode, an output gear (602) is connected to the first gear (603) in a rotating mode, the output gear (602) is fixedly connected to an output shaft of an output motor (601), the centrifugal gear (606) is further connected to a lower spindle (625) in a sliding mode, and a rotating main ring (607) is fixedly connected to the lower spindle (625).

2. A rotary oscillating device for honey processing according to claim 1, characterized in that: the rotating main ring (607) is fixedly connected with one end of a centrifugal middle rod (624), the other end of the centrifugal middle rod (624) is fixedly connected to an upper main shaft (630), the centrifugal middle rod (624) is further connected to a sliding connection ring (620) in a sliding mode, an upper main shaft (630) is fixedly connected with a centrifugal outer rod (626), the centrifugal outer rod (626) is fixedly connected with a centrifugal limiting rod (627), and a sliding groove is formed in the centrifugal limiting rod (627).

3. A rotary oscillating device for honey processing according to claim 1, characterised in that: conveying element (1) still include conveyor motor (101), conveyor motor (101) fixed mounting is on conveying support (104), fixedly connected with carries axle (102) on conveyor motor (101), it is connected with conveyer belt (103) to carry to rotate on axle (102), conveyer belt (103) promote the one end of the pole on honey board (629) and remove along with conveyer belt (103), the other end sliding connection of the pole on honey board (629) is on carrying smooth axle (106), fixedly connected with carries second crossbearer (108) on conveying support (104), carry fixedly connected with on second crossbearer (108) and carry perpendicular frame (107), be equipped with the groove on carrying perpendicular frame (107).

4. A rotary oscillating device for honey processing according to claim 1, characterised in that: the vibrations subassembly (2) still include left push mechanism (201), right push frame (202) and lower push mechanism (203), left push mechanism (201) fixed connection is on epitheca (301), still fixedly connected with on epitheca (301) collects frame (2014), right push frame (202) fixed connection is on collecting frame (2014), left push mechanism (201) still includes push frame (2015), left side promotion electric jar (2011) and left push plate (2012), left push mechanism (201) is through push frame (2015) fixed connection on epitheca (301), the one end fixed connection that left side promoted electric jar (2011) is on push frame (2015), the other end fixed connection that left side promoted electric jar (2011) is on left push plate (2012), still fixedly connected with left push frame (2013) on push frame (2015), right push frame (202) includes right promotion electric jar (2025), right side promotion electric jar (2025) fixed connection is on collection frame (2014), the right rotating motor (2021) is fixedly connected to the right pushing electric cylinder (2025), the right rotating motor (2021) is connected with a right rotating shaft (2023) in a rotating mode, the right rotating shaft (2023) is connected with a right gear (2024) in a fixed mode, the right rotating shaft (2023) is connected with a right belt (2022) in a rotating mode, the right rotating motor (2021), the right belt (2022), the right rotating shaft (2023) and the right gear (2024) are arranged on the lower pushing mechanism (203), and the lower pushing mechanism (203) is fixedly connected to the vibrating assembly (2) of the output gear (602).

5. A rotary oscillating device for honey processing according to claim 1, characterised in that: the heating assembly (5) comprises a first rotary gear ring (501), the first rotary gear ring (501) is rotatably connected to a first gear (603), the first rotary gear ring (501) is further rotatably connected with a heating gear (502), the heating gear (502) is further slidably connected with a heating main shaft (503), a sliding block (506) is fixedly connected onto the heating main shaft (503), the heating main shaft (503) is further fixedly connected with a heating half-tooth (504), the heating gear (502) is further fixedly connected with a heating swing mechanism (507), the heating gear (502) is further slidably connected with a gear support ring (513), the gear support ring (513) is fixedly installed at one end of a gear support frame (5131), the other end of the gear support frame (5131) is fixedly connected onto a base support, one end of a first spring (511) is fixedly connected onto the base support frame, the other end of the first spring (511) is fixedly connected with a lower abutting platform (510), support platform (509) on fixedly connected with down on platform (510), leak ring (516) down fixedly connected with on rotatory main ring (607), still rotate on rotatory main ring (607) and be connected with and leak ring (515), leak the one end of ring (516) and go up fixed mounting have support frame (514) down, the other end fixed mounting of support frame (514) is on second rotatory ring gear (505).

6. A rotary oscillating device for honey processing according to claim 1, characterised in that: the collecting assembly (4) comprises a collecting pipe (401), one end of the collecting pipe (401) is fixedly connected to the lower shell (303), and the other end of the collecting pipe (401) is fixedly connected to the collecting box (402).

7. A rotary oscillating device for honey processing according to claim 1, characterized in that: the lower shell (303) comprises a collecting ring (3033), a collecting hole (3032) is formed in the collecting ring (3033), a lower shell hole (3031) is further formed in the collecting ring (3033), the lower shell (303) is rotatably connected to the rotating main ring (607), the inner surface of the lower shell (303) is inclined, the inner surface is close to one side of the collecting hole (3032), the inner surface is close to the other side of the collecting hole (3032), and the inner surface is high in the side far away from the collecting hole (3032), so that honey can conveniently flow into the collecting hole (3032).

8. A rotary oscillating device for honey processing according to claim 1, characterized in that: first rotatory ring gear (501) on still fixedly connected with head rod (517), fixedly connected with heating ring board (518) are gone up in head rod (517), fixedly connected with heating rod (519) are gone up in heating ring board (518), rotate on heating rod (519) and be connected with stirring board (520), heating rod (519) still rotate and connect on rotatory main ring groove (608).

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