CN113617119A - Be suitable for cold concentrated system of honey - Google Patents

Abstract

The invention discloses a cold concentration system suitable for honey, which comprises a raw material tank, a transfer tank and a concentration tank, wherein a stirring mechanism and a heater are installed in the raw material tank, a liquid level sensor is installed at the upper part in the transfer tank, a vacuum pump is connected outside the transfer tank, a stirring shaft is installed at the central axis in the concentration tank, a first material distributing plate and a second material distributing plate which are umbrella-shaped are further sleeved on the stirring shaft along the length direction of the stirring shaft, a plurality of material leaking holes are uniformly formed in the first material distributing plate and the second material distributing plate, two gas blocking plates which surround the inner wall of the concentration tank for a circle are installed at the upper part in the concentration tank, the bottom edge of the second material distributing plate extends into the space between the two gas blocking plates, a condenser and a fan are installed outside the concentration tank, and a discharge hole at the bottom of the concentration tank is communicated with the upper part of the raw material tank. The invention adopts a cold concentration mode to concentrate and purify honey, greatly reduces the loss of honey fragrance, and effectively improves the quality of finished honey.

Description

Be suitable for cold concentrated system of honey

Technical Field

The invention belongs to the technical field of honey concentration treatment equipment, and particularly relates to a cold concentration system suitable for honey.

Background

Honey is honey produced by bees from flowers of flowering plants in a honeycomb. Bees collect nectar or secretions from the flowers of the plant with a water content of about 80%. In the actual honey collection process, often can lead to the water content in the flower to be higher because of reasons such as weather, and then influence the moisture content of honey, longer in order to make the storage time of honey, can purify, concentrate honey simultaneously, impurity in the honey can be got rid of in the purification concentration, makes the honey quality higher. At present, the common concentration and purification method for honey is low-temperature vacuum purification and concentration, the concentration process can cause the honey to boil in a low-pressure state, so that part of water vapor in the honey is removed, but the fragrance of the honey is lost due to the discharged water vapor, so that the quality of the honey is seriously influenced, and therefore, a cold concentration mode is provided.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a cold concentration system suitable for honey, which adopts dry cold air to concentrate and purify honey, so that the fragrance of the honey is retained to the maximum extent, and the quality of the concentrated honey is improved.

The technical scheme adopted by the invention is as follows: a cold concentration system suitable for honey comprises a raw material tank, a transfer tank and a concentration tank, wherein an agitating mechanism is installed in the raw material tank, the top end of a driving shaft of the agitating mechanism extends out of the raw material tank and is connected with a driving motor, a plurality of heaters which are uniformly distributed are also installed on the inner wall of the raw material tank, the transfer tank is positioned above the raw material tank, a filtering device is arranged between the transfer tank and the raw material tank, the inlet of the filtering device is communicated with the discharge hole at the bottom of the raw material tank through a material pipe, the outlet of the filtering device is communicated with a bottom material port of the transfer tank through a material pipe and is provided with a feeding electromagnetic valve on the material pipe, the upper part in the transfer tank is provided with a liquid level sensor, the transfer tank is externally connected with a vacuum pump, the transfer tank is also provided with a pressure release valve, the bottom material port of the transfer tank is also connected with the feeding hole at the upper part of the concentration tank through a material pipe and is provided with a discharging electromagnetic valve on the material pipe, the stirring shaft is installed at the central axis in the concentration tank, the top end of the stirring shaft extends out of the concentration tank and is connected with a driving motor, the bottom end of the stirring shaft is connected with a stirring claw, the stirring claw is positioned at the bottom of the concentration tank, the stirring shaft is further sleeved with a first material distribution plate and a second material distribution plate which are umbrella-shaped along the length direction of the stirring shaft, a plurality of material leakage holes are uniformly formed in the first material distribution plate and the second material distribution plate, the first material distribution plate is positioned at the lower part in the concentration tank, the center of the top of the first material distribution plate is sleeve-shaped, the top of the first material distribution plate is fixedly connected with the stirring shaft through a plurality of connecting rods, the second material distribution plate is positioned at the upper part in the concentration tank, two gas baffle plates surrounding the inner wall of the concentration tank for a circle are installed at the upper part in the concentration tank, the bottom edge of the second material distribution plate extends into the space between the two gas baffle plates, an inlet pipe communicated with the feed inlet of the concentration tank is installed at the upper part in the concentration tank, and the discharge hole of the inlet pipe is positioned above the second material distribution plate, concentrated jar one side upper portion even has the outlet duct, and the lower part even has the intake pipe, concentrated jar is installed outward condensing engine and fan, the outlet duct is connected with the air inlet of condensing engine, and the gas outlet and the fan access connection of condensing engine, fan export and intake-tube connection, concentrated jar bottom discharge gate and head tank upper portion intercommunication.

Preferably, the stirring mechanism comprises a rotating shaft and stirring blades, the top end of the rotating shaft extends out of the raw material tank and is connected with a driving motor, the bottom end of the rotating shaft is connected with a bearing seat, and the bearing seat is fixedly arranged at the center of the bottom in the raw material tank.

Preferably, the filtering device adopts a duplex filter.

Preferably, the one end that the inlet pipe kept away from the concentrated jar feed inlet is connected with out the stub bar, it is the arc to go out the stub bar cross-section, and the bottom of going out the stub bar is opened along its arc direction has the ejection of compact notch.

As preferred, the both ends that the concentrated jar feed inlet was kept away from to the inlet pipe are connected with the cross-section through universal hose respectively and are personally submitted semicircular ejection of compact head, and ejection of compact head bottom is opened along its arc direction has the ejection of compact notch, and snap ring and hasp are installed respectively to the one end that universal hose was kept away from to two ejection of compact heads.

Preferably, the bottom of the discharging groove opening is connected with a funnel-shaped discharging nozzle which is correspondingly matched with the discharging groove opening.

Preferably, the peripheral edge of the first material distributing plate is in clearance fit with the inner wall of the concentrating tank.

The invention has the beneficial effects that:

(1) the honey is heated in the raw material tank to be dissolved, so that impurities in the honey can be conveniently filtered through the filtering device, the honey is not boiled through heating, and the fragrance of the honey is prevented from being taken away by a large amount of steam;

(2) the transfer tank is vacuumized by a vacuum pump, the filtered honey is transferred into the transfer tank, and the transfer tank is arranged at a high position, so that the honey can enter the concentration tank through the material pipe under the action of gravity after the vacuum pump stops working;

(3) the center of the top of the first material distributing plate is cylindrical and is sleeved outside the stirring shaft, and dry cold air entering the bottom of the concentrating tank quickly enters between the first material distributing plate and the second material distributing plate;

(4) the air baffle plate is arranged, so that the rising dry cold air can only rise from a gap between the air baffle plate and the edge of the second material dividing plate, the retention time of the dry cold air between the first material dividing plate and the second material dividing plate is greatly increased, and the dehumidification efficiency and effect of the downward dropping honey are improved;

(5) the honey is convenient to drop from the material leaking holes due to the arrangement of the material leaking holes, so that a water curtain or a water drop shape is formed, and the dehumidifying area of the honey is increased;

(6) condensing the hot gas exhausted from the concentration tank by using a condensing machine, and sending the dry cold gas into the concentration tank for moisture absorption after condensation; the honey is subjected to cold concentration by adopting dry cold air, so that the loss of the fragrance of the honey is greatly reduced, the quality of the honey is prevented from being damaged in the concentration process, and the quality of the finished honey is improved;

(7) an arc-shaped discharge head is arranged, and a discharge hole surrounds the stirring shaft, so that honey can be more uniformly discharged on the top surface of the second material distribution plate;

(8) be provided with the ejection of compact mouth that leaks hopper-shaped, can reduce load and ejection of compact speed, make honey can be better from the hourglass material hole of second branch flitch top surface drip.

The invention adopts a cold concentration mode to concentrate and purify honey, greatly reduces the loss of honey fragrance, and effectively improves the quality of finished honey.

Drawings

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

FIG. 2 is a top view of a first distributor plate according to the present invention;

FIG. 3 is a top view of a second material divider plate of the present invention;

FIG. 4 is a bottom view of the tap in example 1 of the present invention (the tap is not shown);

fig. 5 is a bottom view of the tap in example 2 of the present invention (the tap is not shown).

In the figure: 1. a raw material tank; 2. a transfer tank; 3. a concentration tank; 4. a stirring mechanism; 5. a heater; 6. a filtration device; 7. a feeding electromagnetic valve; 8. a liquid level sensor; 9. a vacuum pump; 10. a pressure relief valve; 11. a discharge electromagnetic valve; 12. a stirring shaft; 13. a stirring claw; 14. a first material distributing plate; 15. a second material distributing plate; 16. a material leaking hole; 17. a choke plate; 18. a feed pipe; 19. an air outlet pipe; 20. an air inlet pipe; 21. a condenser; 22. a fan; 23. a rotating shaft; 24. a stirring blade; 25. a bearing seat; 26. discharging a stub bar; 27. a discharge notch; 28. a universal hose; 29. a discharge nozzle.

Detailed Description

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

Example 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the cold concentration system for honey provided by this embodiment includes a raw material tank 1, a transfer tank 2 and a concentration tank 3, wherein a discharge port at the bottom of the raw material tank 1 is connected to an inlet of a duplex filter through a material pipe, an outlet of the duplex filter is communicated to a discharge port at the bottom of the transfer tank 2, a feeding solenoid valve 7 is installed on the material pipe connecting the duplex filter to the transfer tank 2, a discharge port of the duplex filter is also connected to a feed port of the concentration tank 3 through a material pipe, a discharge solenoid valve 11 is installed on the material pipe connecting the duplex filter to the concentration tank 3, and a discharge port at the bottom of the concentration tank 3 is communicated to the upper portion of the raw material tank 1 through a material pipe; through a raw material tank 1, a transfer tank 2 and a concentration tank 3, honey is heated and melted at low temperature in the raw material tank 1, impurities are filtered through a duplex filter, then the honey enters the concentration tank 3 through the transfer tank 2 for purification and concentration, and the honey enters the raw material tank 1 for cyclic impurity removal and purification after the honey is purified and concentrated;

the stirring mechanism 4 is installed in the raw material tank 1, the stirring mechanism 4 comprises a rotating shaft 23 and stirring blades 24, the top end of the rotating shaft 23 extends out of the raw material tank 1 and is connected with a driving motor, the bottom end of the rotating shaft 23 is connected with a bearing seat 25, the bearing seat 25 is fixed at the bottom in the raw material tank 1, a plurality of stirring blades 24 are distributed on the rotating shaft 23 in a staggered mode along the length direction of the rotating shaft, and a plurality of heaters 5 which are uniformly distributed are further installed on the inner wall of the raw material tank 1; the bearing seat 25 is arranged, because the viscosity is high before the honey is heated and melted, the suspended rotating shaft 23 is stirred, and the rotating shaft 23 is easy to bend and damage; the uniformly distributed heaters 5 can heat the honey to 40-50 ℃, and the honey is melted, so that the honey and impurities in the honey are easily separated;

the transfer tank 2 is positioned above the raw material tank 1, a liquid level sensor 8 is arranged at the upper part in the transfer tank 2, a vacuum pump 9 is connected outside the transfer tank 2, pressure relief is also arranged on the transfer tank 2, and a feeding electromagnetic valve 7 is also arranged on a material pipe connected with the transfer tank 2 and the duplex filter; opening the feeding electromagnetic valve 7, pumping the transfer tank 2 through the vacuum pump 9, sucking out the melted honey in the raw material tank 1, entering the duplex filter, sucking the honey into the transfer tank 2 after filtering, sending a signal to the controller by the liquid level sensor 8 after the honey liquid level in the transfer tank 2 reaches the liquid level sensor 8, and controlling the feeding electromagnetic valve 7 and the vacuum pump 9 to be closed by the controller to finish the filtering transfer of the honey;

the bottom material port of the transfer tank 2 is also connected with the upper material port of the concentration tank 3 through a material pipe, and a material outlet electromagnetic valve 11 is arranged on the material pipe; after the controller closes the feeding electromagnetic valve 7 and the vacuum pump 9, the discharging electromagnetic valve 11 is opened, the honey is discharged from a discharge port at the bottom of the transfer tank 2 under the action of gravity and enters the concentration tank 3 through the opened discharging electromagnetic valve 11;

the central axis department installs (mixing) shaft 12 in the concentration jar 3, the (mixing) shaft 12 top stretches out the concentration jar 3 and is connected with driving motor, the bottom of (mixing) shaft 12 is connected with stirring claw 13, stirring claw 13 is located the concentration jar 3 bottom, (mixing) shaft 12 still overlaps along its length direction and is umbrella-shaped first branch flitch 14 and second branch flitch 15, evenly open on first branch flitch 14 and the second branch flitch 15 has several hourglass material hole 16, first branch flitch 14 is located concentration jar 3 inner bottom and with concentration jar 3 inner wall clearance fit, the edge of first branch flitch 14 infinitely approaches the concentration jar 3 inner wall, nevertheless does not influence first branch flitch 14 and in the internal rotation of concentration jar 3, the top center of first branch flitch 14 is the cover tube form, first branch flitch 14 top is through several connecting rods and (mixing) shaft 12 fixed connection, second branch flitch 15 is located concentration jar 3 inner upper portion, the part that 15 top centers of second branch flitch and first branch flitch 14 are the sleeve form and correspond is airtight plate body, two choke plates 17 around concentrated jar 3 inner wall a week are installed to upper portion in the concentrated jar 3, the bottom border of second branch flitch 15 stretches into between two choke plates 17, inlet pipe 18 with concentrated jar 3 feed inlet intercommunication is installed on upper portion in the concentrated jar 3, inlet pipe 18 is located second branch flitch 15 top to there is discharge head 26 at end connection, the discharge head 26 cross-section is the arc, discharge head 26's bottom is opened along its arc direction has discharge slot 27, discharge slot 27 bottom is installed and is hopper-shaped's ejection of compact mouth 29, concentrated jar 3 one side upper portion even has outlet duct 19, and the lower part even has intake pipe 20, concentrated jar 3 is installed outward condenser 21 and fan 22, outlet duct 19 is connected with condenser 21's air inlet, the air outlet of the condenser 21 is connected with the inlet of a fan 22, and the outlet of the fan 22 is connected with an air inlet pipe 20;

the discharging head 26 with the arc-shaped cross section is arranged, preferably, the discharging head 26 is arranged to be in a major arc shape, the discharging head 26 surrounds the outside of the stirring shaft 12, a discharging notch 27 is formed below the discharging head 26 and is connected with a funnel-shaped discharging nozzle 29, the discharging amount of honey in unit time can be reduced, preferably, a discharging opening of the discharging nozzle 29 is flat, the honey is in a water curtain shape after being discharged, the honey is uniformly discharged and falls on the center of the top of the second distributing plate 15, the second distributing plate 15 is in an umbrella shape due to the fact that the center of the top of the second distributing plate 15 is a sealing plate, meanwhile, the stirring shaft 12 drives the second distributing plate 15 to rotate, under the action of gravity and centrifugal force, the honey slides downwards along the top of the second distributing plate 15, and drops downwards through the uniformly distributed material leaking holes 16 in the sliding process, and then the honey is in a water curtain shape or a water drop shape below the second distributing plate 15 through the material leaking holes 16, thereby increasing the dehumidifying area of the honey; after the dehumidifying area of the honey is increased, the air baffle plate 17 is arranged, so that the dry cold air rising from the center of the first material dividing plate 14 is stopped and can only pass through a gap between the air baffle plate 17 and the second material dividing plate 15, the retention time of the dry cold air between the first material dividing plate 14 and the second material dividing plate 15 is greatly increased, and the honey dropped by the powder of the second material dividing plate 15 is better dehumidified and purified; the efficiency and the effect of dehumidification and purification are effectively improved by increasing the dehumidification area of the honey and increasing the residence time of dry cold air;

meanwhile, the embodiment adopts dry cold air to dehumidify and purify honey, compared with the traditional low-temperature vacuum concentration and purification, the honey is not boiled at low temperature in vacuum, so that the fragrance of the honey is not brought away by boiling steam, the fragrance of the honey is kept to the maximum extent, the honey which is sent into the concentration tank 3 through the transfer tank 2 is about 30-40 ℃, after meeting the dry cold air, the heat exchange can be carried out on the honey, so that the temperature of the honey is reduced, meanwhile, the moisture in the honey is brought away by the dry cold air, the concentration purpose is achieved, after the dry cold air absorbs moisture, the honey rises from a gap between the air baffle plate 17 and the second material dividing plate 15, the honey is discharged out of the condenser 21 through the air outlet pipe 19, and after the honey is condensed and dried by the condenser 21, the dry cold air is sent into the concentration tank 3 through the air inlet pipe 20 to dehumidify;

the honey that drops on first minute flitch 14 top surface drips again from leaking material hole 16 on first minute flitch 14, temporarily stores in concentrated jar 3 bottom to stir through stirring claw 13, treat that the whole concentrated purification of honey in transfer jar 2, honey is arranged back to feed tank 1 in concentrated jar 3, after the low temperature heating in feed tank 1, filters the transfer again and concentrates, reciprocates in proper order, and the completion is concentrated to the purification.

Example 2

As shown in fig. 1, fig. 2, fig. 3 and fig. 5, this embodiment is substantially the same as embodiment 1, except that a discharging head 26 is installed, two ends of the feeding pipe 18 away from the feeding port of the concentrating tank 3 are respectively connected with the discharging head 26 with a semicircular cross section through a universal hose 28, the bottom of the discharging head 26 is provided with a discharging slot 27 along the arc direction, the bottom of the discharging slot 27 is connected with a discharging nozzle 29 which is matched with the discharging slot and is funnel-shaped, and one ends of the two discharging heads 26 away from the universal hose 28 are respectively provided with a snap ring and a lock catch;

set up two play stub bars 26 to connect through universal hose 28, can pass through snap ring and hasp connection with the tip of two play stub bars 26, make two ejection of compact heads 26 after connecting be the annular around outside (mixing) shaft 12, thereby make the more even drippage of exhaust honey on second divides flitch 15 top surface.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and inventive concept provided by the present invention should be covered within the scope of the present invention.

Claims (7)

1. A cold concentration system for honey comprising a raw material tank (1), characterized in that: the device is characterized by further comprising a transfer tank (2) and a concentration tank (3), wherein a stirring mechanism (4) is installed in the raw material tank (1), the top end of a driving shaft of the stirring mechanism (4) extends out of the raw material tank (1) and is connected with a driving motor, a plurality of heaters (5) which are uniformly distributed are further installed on the inner wall of the raw material tank (1), the transfer tank (2) is located above the raw material tank (1), a filtering device (6) is arranged between the transfer tank (2) and the raw material tank (1), an inlet of the filtering device (6) is communicated with a discharge port at the bottom of the raw material tank (1) through a material pipe, an outlet of the filtering device (6) is communicated with a material port at the bottom of the transfer tank (2) through the material pipe and is provided with a feeding electromagnetic valve (7), a liquid level sensor (8) is installed at the upper part in the transfer tank (2), a vacuum pump (9) is connected outside the transfer tank (2), and a transfer tank (2) is further provided with a pressure release valve (10), the material opening at the bottom of the transfer tank (2) is connected with the upper part feed inlet of the concentration tank (3) through a material pipe, a discharge electromagnetic valve (11) is arranged on the material pipe, a stirring shaft (12) is arranged at the position of the central axis in the concentration tank (3), the top end of the stirring shaft (12) extends out of the concentration tank (3) and is connected with a driving motor, the bottom end of the stirring shaft (12) is connected with a stirring claw (13), the stirring claw (13) is positioned at the bottom of the concentration tank (3), the stirring shaft (12) is further sleeved with a first material distributing plate (14) and a second material distributing plate (15) which are umbrella-shaped along the length direction, a plurality of material leaking holes (16) are uniformly formed in the first material distributing plate (14) and the second material distributing plate (15), the first material distributing plate (14) is positioned at the lower part in the concentration tank (3), the top center of the first material distributing plate (14) is sleeve-shaped, and the top of the first material distributing plate (14) is fixedly connected with the stirring shaft (12) through a plurality of connecting rods, the second divides flitch (15) to be located concentrated jar (3) inner upper portion, two choke boards (17) around concentrated jar (3) inner wall a week are installed on upper portion in concentrated jar (3), the bottom border that the second divides flitch (15) stretches into between two choke boards (17), inlet pipe (18) with concentrated jar (3) feed inlet intercommunication are installed on upper portion in concentrated jar (3), the discharge gate of inlet pipe (18) is located second branch flitch (15) top, concentrated jar (3) one side upper portion even has outlet duct (19), and the lower part even has intake pipe (20), condenser (21) and fan (22) are installed outward to concentrated jar (3), outlet duct (19) are connected with the air inlet of condenser (21), and the gas outlet and fan (22) access connection of condenser (21), and fan (22) export and intake pipe (20) are connected, the bottom discharge hole of the concentration tank (3) is communicated with the upper part of the raw material tank (1).

2. A cold concentration system for honey according to claim 1, wherein: rabbling mechanism (4) are including pivot (23) and stirring vane (24), pivot (23) top is stretched out head tank (1) and is connected with driving motor, and pivot (23) bottom is connected with bearing frame (25), bottom center in head tank (1) is fixed mounting to bearing frame (25).

3. A cold concentration system for honey according to claim 1 or 2, wherein: the filtering device (6) adopts a duplex filter.

4. A cold concentration system for honey according to claim 3, wherein: the one end that concentrated jar (3) feed inlet was kept away from in inlet pipe (18) is connected with out stub bar (26), it is the arc to go out stub bar (26) cross-section, and the bottom of going out stub bar (26) is opened along its arc direction has ejection of compact notch (27).

5. A cold concentration system for honey according to claim 3, wherein: the feed pipe (18) are kept away from the both ends of concentrated jar (3) feed inlet and are connected with cross section semicircular in shape stub bar (26) through universal hose (28) respectively, and it has ejection of compact notch (27) to open along its arc direction stub bar (26) bottom, and snap ring and hasp are installed respectively to the one end that universal hose (28) were kept away from in two stub bars (26).

6. A cold concentration system for honey according to claim 4 or 5, wherein: the bottom of the discharging groove opening (27) is connected with a funnel-shaped discharging nozzle (29) which is correspondingly matched with the discharging groove opening.

7. A cold concentration system for honey according to claim 1, wherein: the peripheral edge of the first material distributing plate (14) is in clearance fit with the inner wall of the concentration tank (3).

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