CN214344834U

CN214344834U - Royal jelly filtering device

Info

Publication number: CN214344834U
Application number: CN202120080090.5U
Authority: CN
Inventors: 王栋
Original assignee: Flying Bee Tianjin Health Technology Co ltd
Current assignee: Flying Bee Tianjin Health Technology Co ltd
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-10-08
Anticipated expiration: 2031-01-13

Abstract

The utility model discloses a royal jelly filter equipment, including one-level filtering component and second grade filtering component, one-level filtering component includes the one-level charging tray and is used for the drive one-level charging tray pivoted one-level driving component, the one-level charging tray includes the one-level filter screen below is provided with the funnel, second grade filtering component including set up in the conveying pipe of funnel below and set up in auger conveying pole in the conveying pipe, auger conveying pole is connected in the power take off end of second grade motor, the one end of conveying pipe is provided with the discharge port, and the lower part of conveying pipe sets up the second grade filter screen. By adopting the technical scheme, the royal jelly can be finely purified, and meanwhile, the royal jelly is prevented from being damaged due to excessive oxidation caused by overhigh temperature or long-time exposure in the air, so that the beneficial components in the royal jelly can be fully reserved, and the activity of the beneficial components can be conveniently and maximally preserved in the subsequent processing, storage and transportation of finished products.

Description

Royal jelly filtering device

Technical Field

The utility model relates to a royal jelly filter equipment belongs to royal jelly processing production facility technical field.

Background

Royal jelly, also called royal jelly, is the secretion of pharyngeal gland of young worker bee cultivated larva in honey bee hive, is a food for larva to become queen bee, and is also a food for queen bee to live. The royal jelly comprises the following components: water content of about 68%, protein content of about 13%, sugar content of about 16%, lipid content of about 4%, and other components including vitamin B1, vitamin B2, vitamin B6, nicotinic acid, folic acid, pantothenic acid, methionine, inositol, acetylcholine, gamma-aminobutyric acid, etc. In addition, royal jelly is considered by the medical field to have curative effects on life habit diseases, cancer, heart disease, cerebral apoplexy and the like, and has excellent effects of acting on immune cells to activate immunity, inhibiting inflammation, relieving pain, eliminating active oxygen, not generating resistant bacteria and the like.

The current royal jelly products comprise oral liquid, capsules, freeze-dried powder and the like. The lyophilized powder is a powder obtained by freezing royal jelly into a solid state in a low-temperature environment, and performing vacuum-pumping to sublimate and dry water.

In the process of refining royal jelly, the royal jelly subjected to milk collection (i.e., collection) is mixed into the dead body or nest fragments of bees, and therefore, a certain amount of royal jelly needs to be filtered and stirred after being collected. However, since royal jelly is limited in its own composition, acid trace components such as carbon dioxide in the air can deteriorate the final product, and also deteriorate by heat at a temperature of 8 ℃ or higher, so that the internal components of royal jelly are easily broken if it comes into contact with the air for a long time during stirring. In addition, the royal jelly from which the royal jelly is collected is mixed with dead bodies of bees, pieces of nests, and the like, and the water content is 65%, and the royal jelly is very heavy in a paste state with high viscosity, so that the mesh of a filter screen for filtration is easily clogged, the time for filtration and agitation treatment has to be prolonged, the time for the royal jelly to stay in the air is prolonged, the activity is reduced and the freshness is reduced while the finished product is deteriorated.

In a conventional filtering device, for example, a royal jelly refining device disclosed in chinese patent document CN1451296A, a squeezing method is usually used to apply pressure to royal jelly to squeeze the royal jelly out of a mesh, but impurities in the royal jelly are also squeezed and easily crushed and then pass through a filter screen, so that a real filtering effect cannot be achieved, and the filter screen is easily damaged. In addition, the filtration process usually requires manual squeezing, which requires cleaning or replacement of the filter screen in a short time, and is time-consuming and labor-intensive. Further, as disclosed in chinese patent document CN1744828A, a method and an apparatus for refining royal jelly are disclosed, in which royal jelly is thrown radially outward through a strainer by a mechanical rotation method. However, this method can only be used for filtering royal jelly once, and if the royal jelly is required to be filtered step by using filter screens with different meshes, the filtering cannot be completed by the device once.

SUMMERY OF THE UTILITY MODEL

Therefore, an object of the utility model is to provide a royal jelly filter equipment has changed among the prior art and has made the mode that the royal jelly sees through the filter screen through the extrusion to avoid making impurity breakage into the tiny particle and passing the defect of filter screen, can reach better filter effect.

In order to achieve the above object, the present invention provides a royal jelly filtering device, including:

an inner box body;

the pre-filtering component is arranged in the inner box body and comprises a pre-filtering material tray and a pre-filtering driving component, the pre-filtering material tray comprises a pre-filtering filter screen, and the pre-filtering driving component can drive two ends of the pre-filtering material tray to alternately shake up and down;

the primary filter assembly is arranged in the inner box body and comprises a primary material disc arranged below the pre-filtering material disc and a primary drive assembly used for driving the primary material disc to rotate, the primary material disc comprises a primary filter screen, and the primary drive assembly can drive the material disc to shake on a horizontal plane;

the second-stage filtering component is arranged below the inner box body and comprises a conveying pipe and an auger conveying rod arranged in the conveying pipe, the auger conveying rod is connected to the power output end of the second-stage motor, a discharge port is formed in one end of the conveying pipe, an elongated slot is formed in the lower portion of the conveying pipe, and a second-stage filter screen is arranged in the elongated slot.

A plurality of first shaft holes are uniformly distributed in the circumferential direction of the primary material tray, the primary driving assembly comprises a plurality of first eccentric shafts, driving wheels positioned at the end parts of the first eccentric shafts and belts bypassing the driving wheels, and the first eccentric shafts deviate from the axes of the driving wheels; one of the driving wheels is a driving wheel, and the other driving wheels are driven wheels.

A second shaft hole and a first long hole are formed in the side wall of the pre-filtering material disc, a second eccentric shaft is arranged in the second shaft hole, and a third eccentric shaft is arranged in the first long hole; prefiltration drive assembly is including setting up first side fluted disc and the second side fluted disc in the outside of prefiltration charging tray, with first side fluted disc engaged with first gear, with second side fluted disc engaged with second gear and be used for the installation the first transmission shaft of first gear and second gear, the second eccentric shaft sets up on first side fluted disc, and the third eccentric shaft sets up on second side fluted disc, first transmission shaft connection is in prefiltration motor's power take off end, prefiltration motor can drive first side fluted disc and second side fluted disc through first transmission shaft and rotate to opposite direction.

The pre-filtering tray comprises a first side plate part and a second side plate part which are oppositely arranged, and the second shaft hole and the first long hole are arranged on the first side plate part; a third shaft hole and a second long hole are formed in the second side plate part; a fourth eccentric shaft is arranged in the third shaft hole, and a fifth eccentric shaft is arranged in the second long hole; the outer side of the second side plate portion is provided with a third side fluted disc, a fourth side fluted disc, a third gear meshed with the third side fluted disc, a fourth gear meshed with the fourth side fluted disc and a second transmission shaft used for installing the third gear and the fourth gear, the fourth eccentric shaft is arranged on the third side fluted disc, the fifth eccentric shaft is arranged on the fourth side fluted disc, the second transmission shaft is connected to a power output end of the pre-filtering motor, and the pre-filtering motor can drive the third side fluted disc and the fourth side fluted disc to rotate in opposite directions through the second transmission shaft.

The first worm is arranged on the first transmission shaft and meshed with a first worm wheel, the first worm wheel is fixed on a first worm wheel shaft, and the first worm wheel shaft is connected to the driving wheel.

The second transmission shaft is provided with a second worm, the second worm is meshed with a second worm wheel, the second worm wheel is fixed on a second worm wheel shaft, and the second worm wheel shaft is connected to one driven wheel.

And a driven bevel gear is further fixed on the first worm wheel shaft, a driving bevel gear is arranged at the power output end of the pre-filtering motor, and the driven bevel gear is meshed with the driving bevel gear.

The lower end of the pre-filtering material disc is also provided with a corrugated pipe.

The one-level filter screen below is provided with the funnel, the one end of keeping away from the discharge port of conveying pipe is provided with the feed inlet, the feed inlet is located the funnel below.

The outer box body is arranged on the outer side of the inner box body, a feeding hopper is arranged at the top end of the outer box body, and a coarse filtration screen is arranged in the feeding hopper.

By adopting the technical scheme, the royal jelly filtering device of the utility model can filter the royal jelly diluent obtained by mixing the collected royal jelly with water, and the diluent can penetrate through the filter screen in a shaking way, thereby avoiding the defect that impurities are crushed into small particles and pass through the filter screen in the prior art in an extruding way, and achieving better filtering effect; furthermore, the technical scheme of the utility model mechanical automation degree is high, effectively practices thrift the manpower to can improve the operating efficiency of production line, when can carrying out meticulous purification to the royal jelly, avoid the royal jelly to be destroyed because of too high temperature or exposed in the air excessively oxidation for a long time, can make the beneficial component in the royal jelly obtain fully remaining, so that make the activity of beneficial component can preserve by furthest in follow-up finished product processing and storage transportation.

Drawings

Fig. 1 is a schematic structural view of a royal jelly filtering device of the present invention.

Fig. 2 is a schematic structural view of the royal jelly filtering device after the outer case is removed.

Fig. 3 is a partial sectional view of the inner case of the royal jelly filtering device.

FIG. 4 is a schematic diagram of a two-stage filter assembly.

FIG. 5 is a schematic view of a pre-filter assembly.

FIG. 6 is an exploded schematic view of a pre-filter assembly and a primary filter assembly.

FIG. 7 is a schematic view of an installation structure of the first side plate, the first side-toothed disc and the second side-toothed disc.

FIG. 8 is a schematic view of the mounting structure of the second side plate, the third side-toothed disc and the fourth side-toothed disc.

Fig. 9 is a schematic view of the first side plate.

Fig. 10 is a second schematic view of the first side plate.

Fig. 11 is a state three schematic diagram of the first side plate.

Fig. 12 is a state diagram of the first side plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The utility model provides a royal jelly filter equipment 100, including outer box 11, set up in outer box 11 interior box 12 and set up in interior box 12 in advance filtering component and one-level filtering component interior box 12 below is provided with the second grade filtering component. A hopper 101 is provided at the top end of the outer box 11, and a coarse filter screen 102 is provided in the hopper 101.

As shown in fig. 3 and 4, the lower portion of the inner box 12 is a funnel 121, the secondary filter assembly includes a conveying pipe 131 disposed below the funnel 121 and an auger conveying rod (not shown) disposed in the conveying pipe 131, the auger conveying rod is connected to a power output end of the secondary motor 132, one end of the conveying pipe 131 is provided with a discharge port 133, the lower portion of the conveying pipe 131 is provided with a long groove, and a secondary filter screen 134 is disposed in the long groove. The royal jelly is diluted to form a royal jelly diluent, the concentration of the diluent can be properly adjusted by adjusting the water adding amount, the royal jelly diluent is added into the pre-filtering component from the feeding hopper 101, the royal jelly diluent enters the primary filtering component after being filtered, and then enters the feed inlet of the conveying pipe 131 through the funnel 121, the feed inlet is positioned at one end of the conveying pipe 131 far away from the discharge port 133, the secondary motor 132 drives the packing auger transmission rod to rotate so as to convey the diluent forwards, the royal jelly diluent passes through the secondary filter screen 134 to leak down and be collected, and impurities are discharged from the discharge port 133.

As shown in fig. 5 and 6, the first-stage filter assembly includes a first-stage tray 141 and a first-stage driving assembly for driving the first-stage tray 141 to rotate, the first-stage tray 141 includes a first-stage filter screen 141a, and the funnel 121 is disposed under the first-stage filter screen 141 a.

In this embodiment, four first shaft holes 141b are uniformly distributed on the circumferential direction of the primary tray 141, the primary driving assembly includes four first eccentric shafts 142, driving wheels 143 located at the upper end of each first eccentric shaft 142, support rings 144 located at the lower ends of the first eccentric shafts 142, and belts 145 passing around the plurality of driving wheels 143, the first eccentric shafts 142 are offset from the axes of the driving wheels 143, one of the driving wheels 143 is a driving wheel 143a, and the remaining driving wheels 143 are driven wheels 143 b. The driving wheel 143 may be a gear, and the belt 145 may be a toothed belt. In a specific installation structure, the first eccentric shafts 142 are inserted into the first shaft holes 141b, and in the four first eccentric shafts 142 and the four driving wheels 143, the deviation directions of the four first eccentric shafts 142 are the same, that is, each first eccentric shaft 142 is located at the same side of the driving wheel 143 fixed thereto, so that when the driving wheel 143a drives the driven wheel 143b to synchronously rotate through the belt 145, the first eccentric shafts 142 can drive the first-stage material tray 141 to rotate in a small radius, thereby forming an effect similar to shaking, and achieving an effect of sieving the royal jelly diluent.

As shown in fig. 5 to 8, the pre-filtering assembly includes a pre-filtering tray 151 disposed above the primary tray 141 and a pre-filtering driving assembly, and the pre-filtering tray 151 includes a pre-filtering screen 151 a. The pre-filter tray 151 includes a first side plate 151b and a second side plate 151c that are symmetrically disposed. The first side plate portion 151b is provided with a second shaft hole 151d and a first long hole 151e, the second shaft hole 151d is provided with a second eccentric shaft 152a, and the first long hole 151e is provided with a third eccentric shaft 152 b. A third shaft hole 151f and a second long hole 151g are provided in the second side plate portion 151 c; a fourth eccentric shaft 152c is provided in the third shaft hole 151f, and a fifth eccentric shaft 152d is provided in the second long hole 151 g.

The pre-filtering driving assembly includes a first side-toothed disc 153a and a second side-toothed disc 153b disposed outside the first side plate portion 151b, a first gear 154a engaged with the first side-toothed disc 153a, a second gear 154b engaged with the second side-toothed disc 153b, and a first transmission shaft 155a for mounting the first gear 154a and the second gear 154b, the second eccentric shaft 152a is disposed on the first side-toothed disc 153a, a third eccentric shaft 152b is disposed on the second side-toothed disc 153b, the first transmission shaft 155a is connected to a power output end of the pre-filtering motor 156, and the pre-filtering motor 156 can drive the first side-toothed disc 153a and the second side-toothed disc 153b to rotate in opposite directions through the first transmission shaft 155 a.

A third and a fourth side

toothed discs

153c and 153d, a third gear 154c engaged with the third side toothed disc 153c, a fourth gear 154d engaged with the fourth side toothed disc 153d, and a second transmission shaft 155b for mounting the third and the

fourth gears

154c and 154d are disposed on the outer side of the second side plate 151c, the fourth eccentric shaft 152c is disposed on the third side toothed disc 153c, the fifth eccentric shaft 152d is disposed on the fourth side toothed disc 153d, the second transmission shaft 155b is connected to the power output end of the pre-filtering motor 156, and the pre-filtering motor 156 can drive the third and the fourth

side toothed discs

153c and 153d to rotate in opposite directions through the second transmission shaft 155 b.

In this embodiment, the first transmission shaft 155a is provided with a first worm 157a, the first worm 157a is engaged with a first worm wheel 157b, the first worm wheel 157b is fixed to a first worm wheel shaft 157c, and the first worm wheel shaft 157c is connected to the driving wheel 143 a. The second transmission shaft 155b is provided with a second worm 157d, the second worm 157d is engaged with a second worm wheel 157e, the second worm wheel 157e is fixed on a second worm wheel shaft 157f, and the second worm wheel shaft 157f is connected to one of the driven wheels 143 b. A driven bevel gear 158a is further fixed on the first worm gear shaft 157c, a driving bevel gear 158b is arranged at a power output end of the pre-filtering motor 156, and the driven bevel gear 158a is meshed with the driving bevel gear 158 b. With the above structure, the pre-filter motor 156 drives the driving bevel gear 158b to rotate, and drives the first worm gear shaft 157c to rotate through the driven bevel gear 158 a. Since the first worm wheel shaft 157c is connected to the driving wheel 143a, the driven wheel 143b can be rotated by the belt 145, and since one driven wheel 143b is connected to the second worm wheel shaft 157f, the second worm wheel shaft 157f can be rotated.

In this embodiment, as shown in fig. 9, in this state, the first side plate 151b is in a horizontal state, the second shaft hole 151d and the first long hole 151e are located on the same horizontal line, and the second eccentric shaft 152a and the third eccentric shaft 152b are located on the same side of the first side toothed disc 153a and the second side toothed disc 153b, respectively. As shown in fig. 10, since the first side-toothed disk 153a and the second side-toothed disk 153b are driven to rotate in opposite directions, the second eccentric shaft 152a rotates upward by 90 °, the third eccentric shaft 152b rotates downward by 90 °, and the first side plate 151b is tilted while being shifted leftward as a whole by a predetermined distance. As shown in fig. 11, as the first and second side toothed

discs

153a and 153b each continue to rotate 90 °, the first side plate portion 151b continues to shift leftward and is in a horizontal state. As shown in fig. 12, as the first and second side toothed

discs

153a and 153b each continue to rotate by 90 °, the first side plate portion 151b starts to shift rightward and assume an inclined state.

Here, the first side plate 151b is taken as an example, and the second side plate 151c is provided symmetrically to the first side plate 151b, so that the movement state thereof is synchronized with the first side plate 151 b.

In this structure, the both ends of prefiltering charging tray 151 can reciprocate, form the effect of rocking from top to bottom in turn to whole can remove about, thereby finally reach the effect of stirring to the royal jelly diluent in prefiltering charging tray 151, make it can see through the filter screen sooner. The lower end of the pre-filtering tray 151 is also provided with a corrugated pipe 159, a mounting substrate 103 is arranged below the pre-filtering tray 151, a window is arranged on the mounting substrate 103, the corrugated pipe 159 is connected with the edge of the window, and the tray 141 is positioned below the window.

The diluted solution filtered by the royal jelly filtering device 100 is collected and then put into a royal jelly concentrating and dehydrating device for concentration or drying.

By adopting the technical scheme, the royal jelly filtering device of the utility model can realize the multi-stage filtration of royal jelly, so that larger particle impurities, dead bodies of bees, nest fragments and the like can be removed before the second-stage filtration, and the defect that the impurities are crushed into small particles and pass through a filter screen in the prior art by an extrusion mode is avoided, thereby achieving better filtering effect; furthermore, the technical scheme of the utility model mechanical automation degree is high, effectively practices thrift the manpower to can improve the operating efficiency of production line, when can carrying out meticulous purification to the royal jelly, avoid the royal jelly to be destroyed because of too high temperature or exposed in the air excessively oxidation for a long time, can make the beneficial component in the royal jelly obtain fully remaining, so that make the activity of beneficial component can preserve by furthest in follow-up finished product processing and storage transportation.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims

1. A royal jelly filtering device, comprising:

an inner box body;

2. The royal jelly filtering device according to claim 1, wherein: a plurality of first shaft holes are uniformly distributed in the circumferential direction of the primary material tray, the primary driving assembly comprises a plurality of first eccentric shafts, driving wheels positioned at the end parts of the first eccentric shafts and belts bypassing the driving wheels, and the first eccentric shafts deviate from the axes of the driving wheels; one of the driving wheels is a driving wheel, and the other driving wheels are driven wheels.

3. The royal jelly filtering device according to claim 2, wherein: a second shaft hole and a first long hole are formed in the side wall of the pre-filtering material disc, a second eccentric shaft is arranged in the second shaft hole, and a third eccentric shaft is arranged in the first long hole; prefiltration drive assembly is including setting up first side fluted disc and the second side fluted disc in the outside of prefiltration charging tray, with first side fluted disc engaged with first gear, with second side fluted disc engaged with second gear and be used for the installation the first transmission shaft of first gear and second gear, the second eccentric shaft sets up on first side fluted disc, and the third eccentric shaft sets up on second side fluted disc, first transmission shaft connection is in prefiltration motor's power take off end, prefiltration motor can drive first side fluted disc and second side fluted disc through first transmission shaft and rotate to opposite direction.

4. The royal jelly filtering device according to claim 3, wherein: the pre-filtering tray comprises a first side plate part and a second side plate part which are oppositely arranged, and the second shaft hole and the first long hole are arranged on the first side plate part; a third shaft hole and a second long hole are formed in the second side plate part; a fourth eccentric shaft is arranged in the third shaft hole, and a fifth eccentric shaft is arranged in the second long hole; the outer side of the second side plate portion is provided with a third side fluted disc, a fourth side fluted disc, a third gear meshed with the third side fluted disc, a fourth gear meshed with the fourth side fluted disc and a second transmission shaft used for installing the third gear and the fourth gear, the fourth eccentric shaft is arranged on the third side fluted disc, the fifth eccentric shaft is arranged on the fourth side fluted disc, the second transmission shaft is connected to a power output end of the pre-filtering motor, and the pre-filtering motor can drive the third side fluted disc and the fourth side fluted disc to rotate in opposite directions through the second transmission shaft.

5. The royal jelly filtering device according to claim 4, wherein: the first worm is arranged on the first transmission shaft and meshed with a first worm wheel, the first worm wheel is fixed on a first worm wheel shaft, and the first worm wheel shaft is connected to the driving wheel.

6. The royal jelly filtering device according to claim 5, wherein: the second transmission shaft is provided with a second worm, the second worm is meshed with a second worm wheel, the second worm wheel is fixed on a second worm wheel shaft, and the second worm wheel shaft is connected to one driven wheel.

7. The royal jelly filtering device according to claim 6, wherein: and a driven bevel gear is further fixed on the first worm wheel shaft, a driving bevel gear is arranged at the power output end of the pre-filtering motor, and the driven bevel gear is meshed with the driving bevel gear.

8. The royal jelly filtering device according to any one of claims 2 to 7, wherein: the lower end of the pre-filtering material disc is also provided with a corrugated pipe.

9. The royal jelly filtering device according to any one of claims 1 to 7, wherein: the one-level filter screen below is provided with the funnel, the one end of keeping away from the discharge port of conveying pipe is provided with the feed inlet, the feed inlet is located the funnel below.

10. The royal jelly filtering device according to any one of claims 1 to 7, wherein: the outer box body is arranged on the outer side of the inner box body, a feeding hopper is arranged at the top end of the outer box body, and a coarse filtration screen is arranged in the feeding hopper.