CN113952883A - Honey fine processing equipment and processing technology - Google Patents

Abstract

The invention belongs to the technical field of honey processing, and particularly relates to honey fine processing equipment and a honey processing technology, wherein the honey fine processing equipment and the honey processing technology are completed by matching the honey fine processing equipment, the honey fine processing equipment comprises a processing box, a feeding part is arranged at the upper end inside the processing box for feeding honey and scraping the honey in the feeding part, a melting part is arranged below the feeding part for stirring, melting and filtering the honey to remove impurities, a compression part is arranged below the melting part for performing vacuum compression and bubble removal on the honey, a control part is arranged on one side below the compression part for controlling feeding and cooling of the honey, a packaging part is arranged below the control part for performing vacuum sealing packaging on the honey, and a conveying part is arranged below the packaging part for performing shaking conveying on the honey.

Description

Honey fine processing equipment and processing technology

Technical Field

The invention belongs to the technical field of honey processing, and particularly relates to honey fine processing equipment and a honey fine processing technology.

Background

Because the honey has extremely high nutritional ingredients and health care efficacy, the honey is delicious and nutritional, but because of the characteristics of high saturated sugar content, crystallization and the like of the honey, most honey varieties are easy to form crystallization precipitation and layering phenomena, and the sale is influenced; in addition, a few kinds of honey are not easy to crystallize, and are easy to ferment and deteriorate due to high water content and low concentration.

The prior honey processing process has the following problems,

firstly, honey generally needs to be concentrated, and when the concentration is high, the honey is easy to thicken and harden and is not easy to take; the honey has low concentration and is easy to ferment and not easy to store;

secondly, bubbles are easily generated in honey compression, and influence is caused on honey storage;

③ the conventional honey concentration is semi-vacuum concentration, which can lose fragrance and activity, thus influencing the honey market development.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides honey fine processing equipment and a honey fine processing technology, which can scrape honey on a feeding funnel and prevent the feeding funnel from falling ash;

the honey is melted by rotating, so that the melting efficiency is improved, impurities are removed by filtering the honey through the filter plate, and the concentration of the honey is improved; compressing the honey at two sides, evacuating to remove bubbles, and facilitating the preservation of the honey; cooling the honey, uniformly discharging, and controlling the discharging speed and amount; the honey is pumped out for storage and is evenly conveyed by shaking.

The purpose of the invention can be realized by the following technical scheme: a honey finishing device and a honey finishing process comprise the following steps:

s1, feeding, namely feeding honey into the processing box through a feeding funnel, and scraping the honey on the funnel downwards through a scraping plate;

s2, melting and stirring, namely stirring and melting the honey, and removing bubble films and impurities on the surface of the honey;

s3: filtering and blanking, namely filtering and blanking honey to remove impurities and a small amount of larger particle crystals;

s4: performing primary compression, namely performing primary compression blanking on honey through a rotating cylinder;

s5: compressing and exhausting, performing secondary compression on the honey, removing air in the honey, and performing vacuum compression;

s6: controlling blanking, namely cooling the honey to control the blanking amount;

s7, bottling, sealing the honey and vacuum-packing into a can;

s8: shaking and conveying, namely shaking the honey uniformly by shaking and conveying the honey out of the processing box;

steps S1-S8 are completed by matching a honey fine processing device, the honey fine processing device comprises a processing box, a feeding part is arranged at the upper end inside the processing box and used for feeding honey and scraping the honey in the feeding part, a melting part is arranged below the feeding part and used for stirring, melting and filtering the honey to remove impurities, a compression part is arranged below the melting part and used for carrying out vacuum compression and bubble removal on the honey, a control part is arranged on one side below the compression part and used for controlling feeding and cooling of the honey, a packaging part is arranged below the control part and used for carrying out vacuum sealing packaging on the honey, and a conveying part is arranged below the packaging part and used for shaking and conveying the honey.

Preferably, the feeding part includes feed hopper, and feed hopper is located the inside upper end of processing case, and feed hopper both sides are rotated and are equipped with two first axis of rotation, have set firmly two dwangs on two first axis of rotation, and feed hopper goes up to slide and is equipped with the slip and scrape the piece, and the slip is scraped a rotation and is equipped with the second axis of rotation in the rotation, slides in the dwang and is equipped with the sliding block, and the sliding block lower extreme rotates and is equipped with the third axis of rotation, is connected between second axis of rotation and the connecting rod and rotates and be equipped with the connecting rod.

Preferably, the melting part comprises a fixed block, the fixed block is located below the feeding part and fixed in the processing box, a first motor is fixedly arranged at the upper end inside the fixed block, a first linkage column is fixedly arranged at the upper end of the first motor, a speed-control rotating ring is fixedly arranged on the periphery of the first linkage column, a melting barrel is fixedly arranged on the outer circumferential surface of the speed-control rotating ring, a compression barrel is fixedly arranged on the outer circumferential surface of the first linkage column on the periphery below the melting barrel, two storage boxes are fixedly transported on the processing box on two sides of the upper end of the first linkage column, two fourth rotating shafts are rotationally transported on the two storage boxes, two rotating guide plates are fixedly arranged on the two fourth rotating shafts, two fifth rotating shafts are rotationally arranged on two sides of the upper end of the first linkage column, and two telescopic filter plates are fixedly arranged on the two fifth rotating shafts.

Preferably, the first linkage column is fixedly provided with a plurality of second motors inside the melting cylinder, the second motors are far away from the first linkage column and are fixedly provided with second linkage columns in a moving mode, the outer circumferential surface of each second linkage column is provided with a plurality of heating blocks in a sliding mode, a plurality of telescopic scraping blocks are fixedly arranged on the first linkage column below the second motors, a plurality of rotating columns are arranged on the rotating ring in a rotating mode in the circumferential direction, a plurality of rotating circulation rods are fixedly transported on the outer circumferential surface of each rotating column, and a plurality of pushing blocks are arranged on the first linkage column in a sliding mode in the inner circumferential direction of the compression cylinder.

Preferably, the compression part comprises a compression cavity, the compression cavity is positioned in a fixed block below the first motor, a linkage telescopic column is fixedly arranged at the lower end of the first motor, the linkage telescopic column is rotatably connected in the fixed block, a pressing plate is fixedly arranged at the lower end of the linkage telescopic column, a plurality of compression sliding blocks are slidably arranged in the pressing plate, a first de-bubbling block is slidably arranged at one side in each compression sliding block, an air outlet channel is arranged in each first de-bubbling block, two sides of each air outlet channel are connected with the outside of the first de-bubbling block to form a supplementary channel, a second de-bubbling block is slidably arranged at one side of each compression sliding block, an air outlet is arranged in each second de-bubbling block, a sliding needle is slidably arranged in each air outlet, an air outlet channel is arranged in each compression sliding block above the second de-bubbling block and is connected with the air outlet channel, a blanking channel is connected with the air outlet channel, the compression cavity is connected with the inside the compression cylinder, and a first air pump is fixedly arranged in the fixing block at one side of the compression cavity, the first air pump is connected with the outside of the processing box, and an exhaust valve is connected between the first air pump and the compression cavity.

Preferably, the control component comprises a feeding barrel, the feeding barrel is located inside a fixed block on one side, far away from the first air pump, of the compression cavity, a third motor is fixedly arranged at the upper end inside the feeding barrel, a third linkage column is fixedly arranged at the lower end of the third motor, a spiral cooling plate is fixedly arranged on the outer circumferential surface of the third linkage column, and a box is arranged below the spiral cooling plate.

Preferably, the packing part includes the fourth motor, the fourth motor is inside compression chamber below fixed block, the fourth motor lower extreme has set firmly flexible post, flexible post lower extreme has set firmly the mounting panel, the mounting panel both sides are rotated and are equipped with two pivots, two pivot lower extremes have set firmly two grip blocks, it is equipped with two grip blocks to slide on two grip blocks, flexible post internal setting has the second air pump, it is equipped with the straw to slide in flexible post and the mounting panel, be equipped with the bleed passage in the straw, the bleed passage is connected with the second air pump, be equipped with the apron between two grip blocks, the vacuum valve has set firmly in the middle of the apron.

Preferably, the conveying component comprises a shaking conveying group, the shaking conveying group is located at the bottom of the processing box, the shaking conveying group comprises a rotating column, the rotating column is connected with the processing box in a rotating and sliding mode, a protruding block is fixedly arranged on the outer circumferential surface of the rotating column, an outlet is formed in one side, away from the control component, of the processing box, and an outlet sliding plate is arranged in the outlet in a sliding mode.

Has the advantages that:

1. through the setting of feeding part, strike off and prevent that feeding funnel from falling the ash to feeding funnel goes up honey.

2. Through melting the part setting, rotate honey and melt and improve and melt efficiency, filter through the filter and get rid of impurity, improve the concentration of honey.

3. Through melting the part and compressing the part setting, carry out both sides compression to honey, manage to find time and get rid of the bubble, be favorable to the save of honey.

4. Through the setting of the control part, the honey is cooled and evenly fed, and the feeding speed and the feeding amount are controlled.

5. Through the arrangement of the packaging component and the conveying component, the honey is pumped out for storage and is conveyed uniformly by shaking.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a process flow diagram of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic structural view in front view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic view of a portion B in fig. 4.

Fig. 6 is a schematic view of a portion C in fig. 4.

Fig. 7 is a schematic view of a portion D in fig. 4.

Fig. 8 is a schematic view of a portion at E in fig. 4.

Fig. 9 is a schematic view of a portion at F in fig. 4.

In the figure, a processing box 10, a feeding part 11, a melting part 12, a compressing part 13, a control part 14, a packing part 15, a conveying part 16, a feeding hopper 17, a first rotating shaft 18, a rotating rod 19, a sliding scraping block 20, a second rotating shaft 21, a connecting rod 22, a third rotating shaft 23, a sliding block 24, a storage box 25, a fourth rotating shaft 26, a rotating guide plate 27, a first motor 28, a first linkage column 29, a melting cylinder 30, a compressing cylinder 31, a fifth rotating shaft 32, a telescopic filter plate 33, a second motor 34, a second linkage column 35, a heating block 36, a telescopic scraping block 37, a rotating column 38, a rotating flow rod 39, a speed control rotating ring 40, a pushing block 41, a blanking channel 42, a compressing cavity 43, a linkage telescopic column 44, a pressing plate 45, a compressing slide block 46, a first de-bubbling block 47, an air outlet channel 48, a supplementary channel 49, a second de-bubbling block 50, a sliding needle 51, an air outlet 52, a conveying part 16, a conveying part 17, a feeding hopper 17, a first rotating shaft, a second rotating shaft, a rotating shaft, a rotating shaft, the device comprises an exhaust channel 53, a first air pump 54, an exhaust valve 55, a lower feed cylinder 56, a third motor 57, a third linkage column 58, a spiral cooling plate 59, a box packing 60, a fourth motor 61, a telescopic column 62, a mounting plate 63, a rotating shaft 64, a clamping plate 65, a clamping block 66, a suction pipe 67, a second air pump 68, an air suction channel 69, a cover plate 70, a vacuum valve 71, a shaking conveying group 72, a rotating column 73, a bump 74, an outlet 75, an outlet sliding plate 76 and a fixing block 77.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

With reference to fig. 1-9, a honey finishing device and process comprises the following steps:

s1, feeding, namely feeding honey into the processing box through a feeding funnel, and scraping the honey on the funnel downwards through a scraping plate;

s2, melting and stirring, namely stirring and melting the honey, and removing bubble films and impurities on the surface of the honey;

s3: filtering and blanking, namely filtering and blanking honey to remove impurities and a small amount of larger particle crystals;

s4: performing primary compression, namely performing primary compression blanking on honey through a rotating cylinder;

s5: compressing and exhausting, performing secondary compression on the honey, removing air in the honey, and performing vacuum compression;

s6: controlling blanking, namely cooling the honey to control the blanking amount;

s7, bottling, sealing the honey and vacuum-packing into a can;

s8: shaking and conveying, namely shaking the honey uniformly by shaking and conveying the honey out of the processing box;

steps S1-S8 are completed by matching a honey fine processing device, the honey fine processing device comprises a processing box 10, a feeding part 11 is arranged at the upper end inside the processing box 10 and used for feeding honey and scraping the honey in the feeding part 11, a melting part 12 is arranged below the feeding part 11 and used for stirring, melting and filtering the honey to remove impurities, a compression part 13 is arranged below the melting part 12 and used for carrying out vacuum compression and bubble removal on the honey, a control part 14 is arranged on one side below the compression part 13 and used for controlling feeding and cooling of the honey, a packaging part 15 is arranged below the control part 14 and used for carrying out vacuum sealing packaging on the honey, and a conveying part 16 is arranged below the packaging part 15 and used for shaking and conveying the honey.

Further, with reference to fig. 1-9, the feeding component 11 includes a feeding funnel 17, the feeding funnel 17 is located in the upper end of the processing box 10, two first rotating shafts 18 are arranged on two sides of the feeding funnel 17 in a rotating manner, two rotating rods 19 are fixedly arranged on the two first rotating shafts 18, a sliding scraping block 20 is arranged on the feeding funnel 17 in a sliding manner, a second rotating shaft 21 is arranged on the upper end of the sliding scraping block 20 in a rotating manner, a sliding block 24 is arranged in the rotating rod 19 in a sliding manner, a third rotating shaft 23 is arranged at the lower end of the sliding block 24 in a rotating manner, and a connecting rod 22 is arranged between the second rotating shaft 21 and the connecting rod 22 in a connecting and rotating manner.

Further, referring to fig. 1 to 9, the melting part 12 includes a fixing block 77, the fixing block 77 is located below the feeding part 11, the fixing block 77 is fixed in the processing box 10, a first motor 28 is fixed at an upper end inside the fixing block 77, a first linkage column 29 is fixed at an upper end of the first motor 28, a speed-controlling rotating ring 40 is fixed at a periphery of the first linkage column 29, a melting cylinder 30 is fixed at an outer circumferential surface of the speed-controlling rotating ring 40, a compression cylinder 31 is fixed at an outer circumferential surface of the first linkage column 29 at a periphery below the melting cylinder 30, two storage boxes 25 are fixedly transported on the processing box 10 at both sides of an upper end of the first linkage column 29, two fourth rotating shafts 26 are rotatably transported on the two storage boxes 25, two rotating guide plates 27 are fixed on the two fourth rotating shafts 26, two fifth rotating shafts 32 are rotatably arranged at both sides of an upper end of the first linkage column 29, and two telescopic filter plates 33 are fixed on the two fifth rotating shafts 32.

Further, referring to fig. 1 to 9, a plurality of second motors 34 are fixedly arranged in the melting cylinder 30 of the first linkage column 29, a plurality of second linkage columns 35 are fixedly arranged in the second linkage column 35 in a manner of moving away from the first linkage column 29 by the second motors 34, a plurality of retractable scraping blocks 37 are fixedly arranged on the first linkage column 29 below the second motors 34, a plurality of rotating columns 38 are rotatably arranged in the circumferential direction of the speed-control rotating ring 40, a plurality of rotating circulation rods 39 are fixedly transported on the outer circumferential surface of the rotating columns 38, and a plurality of pushing blocks 41 are slidably arranged in the inner circumferential direction of the compression cylinder 31 of the first linkage column 29.

Further, referring to fig. 1-9, the compressing unit 13 includes a compressing chamber 43, the compressing chamber 43 is located inside a fixing block 77 below the first motor 28, a linking telescopic column 44 is fixedly disposed at the lower end of the first motor 28, the linking telescopic column 44 is rotatably connected in the fixing block 77, a pressing plate 45 is fixedly disposed at the lower end of the linking telescopic column 44, a plurality of compressing sliders 46 are slidably disposed in the pressing plate 45, a first de-bubbling block 47 is slidably disposed at one side of the compressing sliders 46, an air outlet channel 48 is disposed in the first de-bubbling block 47, a supplementary channel 49 is disposed at two sides of the air outlet channel 48 and externally connected to the first de-bubbling block 47, a second de-bubbling block 50 is slidably disposed at one side of the compressing sliders 46 away from the first de-bubbling block 47, an air outlet 52 is disposed in the second de-bubbling block 50, a sliding needle 51 is slidably disposed in the air outlet 52, an air outlet channel 53 is disposed in the compressing slider 46 above the second de-bubbling block 50, and the air outlet channel 53 is connected to the air outlet 52, the exhaust passage 53 is connected with the exhaust passage 48, the compression cavity 43 is connected with the interior of the compression cylinder 31 and provided with the blanking passage 42, the fixed block 77 at one side of the compression cavity 43 is fixedly provided with the first air pump 54, the first air pump 54 is connected with the exterior of the processing box 10, and the exhaust valve 55 is connected between the first air pump 54 and the compression cavity 43.

Further, referring to fig. 1-9, the control unit 14 includes a lower charging barrel 56, the lower charging barrel 56 is located inside a fixing block 77 on a side of the compression chamber 43 away from the first air pump 54, a third motor 57 is fixedly disposed at an upper end inside the lower charging barrel 56, a third driving column 58 is fixedly disposed at a lower end of the third motor 57, a spiral cooling plate 59 is fixedly disposed on an outer circumferential surface of the third driving column 58, and a packing box 60 is disposed below the spiral cooling plate 59.

Further, with reference to fig. 1-9, the packing component 15 includes a fourth motor 61, the fourth motor 61 is disposed inside a fixing block 77 below the compression chamber 43, a telescopic column 62 is fixedly disposed at a lower end of the fourth motor 61, a mounting plate 63 is fixedly disposed at a lower end of the telescopic column 62, two rotating shafts 64 are rotatably disposed on two sides of the mounting plate 63, two clamping plates 65 are fixedly disposed at lower ends of the two rotating shafts 64, two clamping blocks 66 are slidably disposed on the two clamping plates 65, a second air pump 68 is fixedly disposed in the telescopic column 62, a suction pipe 67 is slidably disposed in the telescopic column 62 and the mounting plate 63, an air suction channel 69 is disposed in the suction pipe 67, the air suction channel 69 is connected to the second air pump 68, a cover plate 70 is disposed between the two clamping blocks 66, and a vacuum valve 71 is fixedly disposed in the middle of the cover plate 70.

Further, referring to fig. 1-9, the conveying component 16 includes a shaking conveying set 72, the shaking conveying set 72 is located at the bottom of the processing box 10, the shaking conveying set 72 includes a rotating column 73, the rotating column 73 is connected to the processing box 10 in a sliding manner, a protrusion 74 is fixed on the outer circumferential surface of the rotating column 73, an outlet 75 is provided on one side of the processing box 10 away from the control component 14, and an outlet slide plate 76 is slidably provided in the outlet 75.

Principle of operation

S1, feeding, wherein the first rotating shaft 18 rotates to drive the rotating rod 19 to rotate and open, honey enters the processing box 10 through the feeding funnel 17 and falls into the melting cylinder 30, the first rotating shaft 18 rotates to drive the rotating rod 19 to rotate and close, the rotating rod 19 rotates to drive the sliding block 24 to slide on the rotating rod 19, the sliding block 24 slides to drive the connecting rod 22 to rotate through the third rotating shaft 23, and the connecting rod 22 rotates to drive the sliding scraping block 20 to slide on the wall of the feeding funnel 17 through the second rotating shaft 21 to scrape the honey into the melting cylinder 30.

S2, melting and stirring, wherein the first motor 28 is started to drive the second linkage column 35 to rotate through the rotation of the first linkage column 29 to stir the honey, the second motor 34 is started to drive the heating block 36 to slide and rotate through the rotation of the second linkage column 35, and the heating block 36 heats and stirs the honey to rapidly melt the honey; fourth axis of rotation 26 rotates and drives rotation deflector 27 and rotate, and storage box 25 is opened, and fifth axis of rotation 32 rotates and drives telescopic filter 33 and rotate, and telescopic filter 33 is flexible to rotate and is removed bubble membrane on the honey surface and debris and enter into storage box 25 in fourth axis of rotation 26 rotates and drives rotation deflector 27 and rotate and close fifth axis of rotation 32 and rotate and drive telescopic filter 33 and rotate.

S3: the blanking is filtered, the rotation ring 40 with the speed controlled rotates on the first linkage column 29 to drive the melting cylinder 30 to rotate, the first linkage column 29 rotates to drive the telescopic scraping block 37 to rotate, the telescopic scraping block 37 stretches out and draws back to push the honey to the rotation column 38, and the rotation column 38 rotates to drive the rotation circulation rod 39 to rotate to filter and blank the honey to remove impurities and a small amount of large particle crystals.

S4: the honey is primarily compressed, the honey falls into the compression cylinder 31, the speed control rotating ring 40 slides on the first linkage column 29 to drive the melting cylinder 30 to slide, the honey is primarily compressed by the compression of the melting cylinder 30 on the compression cylinder 31, and the first linkage column 29 rotates to drive the push block 41 to slide, so that the honey is pushed into the feeding channel 42.

S5: compressing and exhausting, honey falls to compression chamber 43 through unloading passageway 42 in, first air pump 54 starts to find time the air in compression chamber 43 through discharge valve 55, flexible decline of flexible post 44 of linkage promotes clamp plate 45 contact honey, first bubble removal piece 47 gliding punctures big bubble, connect exhaust passage 53 through outlet channel 48 to gas and discharge, it supplements the bubble to enter into outlet channel 48 through supplementary passageway 49 first bubble removal piece 47 both sides honey, slide down in second bubble removal piece 50 through slide needle 51 and get rid of the small bubble, gas connects through gas vent 52 and arrives exhaust passage 53 and discharges, flexible decline of flexible post 44 of linkage promotes clamp plate 45 and carries out the secondary compression to honey.

S6: the blanking is controlled, honey enters the blanking barrel 56 after being compressed, the third motor 57 is started to rotate through the third linkage column 58 to drive the spiral cooling plate 59 to rotate, the honey is cooled and blanked through the rotation of the spiral cooling plate 59, and the honey blanking amount is controlled.

S7, bottling, enabling honey to fall into the box 60 according to a certain amount through rotation of the spiral cooling plate 59, enabling the rotary column 73 to rotate to drive the projection 74 to rotate, enabling the box 60 to shake and move below the fourth motor 61 through rotation of the projection 74, enabling the honey in the box 60 to shake uniformly, enabling the telescopic column 62 to stretch and descend, aligning the cover plate 70 with the box 60 and installing the cover plate 70 on the box 60, enabling the rotary shaft 64 to rotate to drive the clamping plate 65 to rotate to match with the clamping block 66 to slide in the clamping plate 65 to clamp the cover plate 70, enabling the fourth motor 61 to start to rotate the cover plate 70 to enter the box 60 through rotation of the telescopic column 62, enabling the suction pipe 67 to slide into the vacuum valve 71, enabling the second air pump 68 to start to pump air in the box 60 through the air suction channel 69, enabling the suction pipe 67 to slide out of the vacuum valve 71, enabling the rotary shaft 64 to rotate to drive the clamping plate 65 to rotate to release the cover plate 70, and enabling the box 60 to be in sealed connection with the cover plate 70.

Sealing honey and vacuum-filling into a pot;

s8: the box 60 is taken out by shaking and conveying, the outlet sliding plate 76 slides and opens in the processing box 10, the rotating column 73 rotates to drive the lug 74 to rotate, and the lug 74 rotates to shake and move the box 60 through the outlet sliding plate 76.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A honey finish machining device and a honey finish machining process are characterized by comprising the following steps:

s1, feeding, namely feeding honey into the processing box through a feeding funnel, and scraping the honey on the funnel downwards through a scraping plate;

s2, melting and stirring, namely stirring and melting the honey, and removing bubble films and impurities on the surface of the honey;

s3: filtering and blanking, namely filtering and blanking honey to remove impurities and a small amount of larger particle crystals;

s4: performing primary compression, namely performing primary compression blanking on honey through a rotating cylinder;

s5: compressing and exhausting, performing secondary compression on the honey, removing air in the honey, and performing vacuum compression;

s6: controlling blanking, namely cooling the honey to control the blanking amount;

s7, bottling, sealing the honey and vacuum-packing into a can;

s8: shaking and conveying, namely shaking the honey uniformly by shaking and conveying the honey out of the processing box;

steps S1-S8 adopt a cooperation of honey finish machining equipment to accomplish, and this honey finish machining equipment is including processing case (10), the inside upper end of processing case (10) is equipped with feeding part (11) and scrapes the honey in feeding part (11) to the honey unloading, feeding part (11) below is equipped with melts part (12) and stirs honey and melts and filter and get rid of impurity, it is equipped with compressing part (13) to carry out vacuum compression and gets rid of the bubble to honey to melt part (12) below, compressing part (13) below one side is equipped with control part (14) and controls the unloading and the cooling to honey, control part (14) below is equipped with packing part (15) and carries out honey vacuum seal packing, packing part (15) below is equipped with transport part (16) and shakes the conveying to honey.

2. A honey finishing equipment and process according to claim 1, characterized in that: feeding part (11) are including feed hopper (17), feed hopper (17) are located the inside upper end of processing case (10), feed hopper (17) both sides are rotated and are equipped with two first axis of rotation (18), two dwang (19) have set firmly on two first axis of rotation (18), it is equipped with slip scraping piece (20) to slide on feed hopper (17), it is equipped with second axis of rotation (21) to slide to scrape piece (20) upper end rotation, it is equipped with sliding block (24) to slide in dwang (19), sliding block (24) lower extreme rotates and is equipped with third axis of rotation (23), it is equipped with connecting rod (22) to connect the rotation between second axis of rotation (21) and connecting rod (22).

3. A honey finishing equipment and process according to claim 2, characterized in that: melt part (12) including fixed block (77), fixed block (77) are located feeding part (11) below, fixed block (77) are fixed in processing case (10), fixed block (77) inside upper end has set first motor (28), first motor (28) upper end has set first linkage post (29), first linkage post (29) periphery has set accuse fast rotating ring (40), it melts section of thick bamboo (30) to set firmly on the outer periphery of accuse fast rotating ring (40), it compresses section of thick bamboo (31) to melt section of thick bamboo (30) below periphery on first linkage post (29) outer periphery, two storage boxes (25) of fixed transportation on processing case (10) of first linkage post (29) upper end both sides, rotate on two storage boxes (25) and transport two fourth axis of rotation (26), two rotation deflector (27) have set firmly on two fourth axis of rotation (26), two fifth rotating shafts (32) are rotatably arranged on two sides of the upper end of the first linkage column (29), and two telescopic filter plates (33) are fixedly arranged on the two fifth rotating shafts (32).

4. A honey finishing equipment and process according to claim 3, characterized in that: first linkage post (29) melts a section of thick bamboo (30) inside and has set firmly a plurality of second motors (34), second motor (34) are kept away from first linkage post (29) and are removed and have set firmly second linkage post (35), it is equipped with a plurality of heating blocks (36) to slide on the outer periphery of second linkage post (35), second motor (34) below has set firmly a plurality of flexible scraping block (37) on first linkage post (29), accuse quick-witted ring (40) circumferencial direction rotation is equipped with a plurality of rotation posts (38), solid transport a plurality of rotation circulation poles (39) on rotation post (38) outer periphery, first linkage post (29) are equipped with a plurality of pushing blocks (41) in compression section of thick bamboo (31) direction slip.

5. A honey finishing equipment and process according to claim 4, characterized in that: the compression part (13) comprises a compression cavity (43), the compression cavity (43) is located inside a fixed block (77) below a first motor (28), a linkage telescopic column (44) is fixedly arranged at the lower end of the first motor (28), the linkage telescopic column (44) is rotationally connected with the fixed block (77), a pressing plate (45) is fixedly arranged at the lower end of the linkage telescopic column (44), a plurality of compression sliding blocks (46) are arranged in the pressing plate (45) in a sliding manner, a first defoaming block (47) is arranged in one side of each compression sliding block (46) in a sliding manner, an air outlet channel (48) is arranged in each first defoaming block (47), a supplementary channel (49) is arranged on two sides of each air outlet channel (48) and the first defoaming block (47) in an external connection manner, a second defoaming block (50) is arranged in one side of each compression sliding block (46) away from the first defoaming block (47), and an air outlet (52) is arranged in each second defoaming block (50), slide in gas vent (52) and be equipped with smooth needle (51), second bubble removal piece (50) top is equipped with exhaust passage (53) in compression slider (46), exhaust passage (53) are connected with gas vent (52), exhaust passage (53) are connected with air outlet channel (48), compression chamber (43) and compression section of thick bamboo (31) internal connection are equipped with unloading passageway (42), compression chamber (43) one side fixed block (77) internal fixation has first air pump (54), first air pump (54) and processing case (10) external connection, it is equipped with discharge valve (55) to be connected between first air pump (54) and compression chamber (43).

6. A honey finishing equipment and process according to claim 5, characterized in that: the control component (14) comprises a discharging barrel (56), the discharging barrel (56) is located in a compression cavity (43) and is far away from the fixing block (77) on one side of the first air pump (54), the upper end of the interior of the discharging barrel (56) is fixedly provided with a third motor (57), the lower end of the third motor (57) is fixedly provided with a third linkage column (58), the outer circumferential surface of the third linkage column (58) is fixedly provided with a spiral cooling plate (59), and a packing box (60) is arranged below the spiral cooling plate (59).

7. A honey finishing equipment and process according to claim 6, characterized in that: packing component (15) includes fourth motor (61), fourth motor (61) is inside compression chamber (43) below fixed block (77), fourth motor (61) lower extreme has set firmly flexible post (62), flexible post (62) lower extreme has set firmly mounting panel (63), mounting panel (63) both sides are rotated and are equipped with two pivot (64), two pivot (64) lower extreme has set firmly two grip blocks (65), it is equipped with two grip blocks (66) to slide on two grip blocks (65), flexible post (62) internal setting has second air pump (68), it is equipped with straw (67) to slide in flexible post (62) and mounting panel (63), be equipped with air exhaust passage (69) in straw (67), air exhaust passage (69) is connected with second air pump (68), be equipped with apron (70) between two grip blocks (66), and a vacuum valve (71) is fixedly arranged in the middle of the cover plate (70).

8. A honey finishing equipment and process according to claim 7, characterized in that: conveying part (16) are including shake conveying group (72), shake conveying group (72) are located processing case (10) bottom, shake conveying group (72) contain and are equipped with rotary column (73), rotary column (73) rotate sliding connection on processing case (10), lug (74) have set firmly on rotary column (73) outer periphery, processing case (10) are kept away from controlling means (14) one side and are equipped with export (75), it is equipped with export slide (76) to slide in export (75).

Images