CN105797459A - Processing and filtering device for high-quality honey - Google Patents

Abstract

The invention discloses a processing and filtering device for high-quality honey.The processing and filtering device comprises a filtering cylinder, a timing device, a heating device, a cold cycling device, a heat cycling device, a first stirring device, a second stirring device, a third stirring device, a first sensor, a second sensor, a third sensor and a control device.The filtering cylinder, the timing device, the heating device, the cold cycling device, the heat cycling device, the first stirring device, the second stirring device, the third stirring device, the first sensor, the second sensor, the third sensor and the control device are matched, the time required by filtering honey is shortened through the whole device accordingly, damage to nutritional ingredient in the honey can be effectively avoided while the filtering effect on the honey is improved, and the quality of the honey is greatly improved.

Description

A kind of high-quality Mel processing filter plant

Technical field

The present invention relates to Mel technical field of processing equipment, particularly relate to a kind of high-quality Mel processing filter plant.

Background technology

Mel is described as " in the Nature the most perfect nutraceutical ", Greeks regard honey as " present being bestowed by heaven " as, the Chinese gathering honey that begins to manually raise bees from ancient times, Mel is good medicine, it it is again first-class beverage, can life lengthening, there is significantly high nutritive value, but Mel needs when production and processing to carry out Impurity removal, to promote mouthfeel and the quality of Mel, and existing knot screen inefficiency, Impurity removal weak effect, and the destruction of Mel Middle nutrition composition can be caused in dedoping step, it would be highly desirable to improve.

Summary of the invention

Based on the technical problem that above-mentioned background technology exists, the present invention proposes a kind of high-quality Mel processing filter plant.

The present invention proposes a kind of high-quality Mel processing filter plant, including: cartridge filter, time set, heater, SAPMAC method device, thermocirculator, the first agitating device, the second agitating device, the 3rd agitating device, first sensor, the second sensor, the 3rd sensor and control device, wherein:

Cartridge filter includes the upper shell, middle cylinder body and the lower shell that are sequentially arranged up and down, there is in described upper shell upper chamber, there is in middle cylinder body middle chamber, there is in lower shell lower chambers, being communicated with the material mouth of the two between upper chamber and middle chamber, material mouth place is provided with electromagnetic valve；Being provided with the first orifice filter between middle chamber and lower chambers, lower chambers is provided with the second orifice filter away from the side of middle chamber, and the aperture of the first orifice filter is less than the aperture of the second orifice filter；

Heater is for being heated the material in upper chamber；

SAPMAC method device is for cooling down the material entered in middle chamber；

Thermocirculator is for being heated the material of bottom chamber；

First agitating device is for being stirred the material in upper chamber；

Second agitating device is for being stirred the material in middle chamber；

3rd agitating device is for being stirred the material of bottom chamber；

First sensor is for detecting the temperature in upper chamber, and first sensor is connected with controlling device and sends detection data K1 to control device in real time；

Second sensor is for detecting the temperature in middle chamber, and the second sensor is connected with controlling device and sends detection data K2 to control device in real time；

3rd sensor is for detecting the temperature of bottom chamber, and the second sensor is connected with controlling device and sends detection data K3 to control device in real time；

Control device to be connected with time set, electromagnetic valve, the first agitating device, the second agitating device, the 3rd agitating device and heater, SAPMAC method device and thermocirculator respectively, control device and control the mixing speed of the first agitating device according to the change of K1 value, change according to K2 value controls the mixing speed of the second agitating device, controls the mixing speed of the 3rd agitating device according to the change of K3 value；And K1, K2 and K3 and first preset value K01, K02 and K03 are contrasted by control device respectively, when K1 value reaches preset value K01, control device and send timing signal to time set, time set starts timing, when time set timing time reaches preset value T0, time set, to controlling device feedback enabling signal, controls device and controls electromagnetic valve unlatching according to the enabling signal that time set feeds back；When K2 value reaches preset value K02, control device control refrigerating circulatory device and quit work；When K3 value reaches preset value K03, control device control thermocirculator and quit work.

Preferably, K01 is 60～65 DEG C.

Preferably, K02 is 35～40 DEG C.

Preferably, K03 is 45～50 DEG C.

Preferably, T0 is 25～35min.

Preferably, second agitating device includes shaft, this shaft is horizontally disposed and is parallel to the first orifice filter, this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and first orifice filter.

Preferably, 3rd agitating device includes shaft, this shaft is horizontally disposed and is parallel to the second orifice filter, this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and second orifice filter.

Preferably, upper shell includes the first inner housing and the first shell body, and the first inner housing is made by Heat Conduction Material, and the first shell body is made by heat-insulating heat-preserving material, first inner housing is positioned at the inside of the first shell body, and is reserved with therebetween gap and forms folder chamber.

Preferably, middle cylinder body includes the second inner housing and second housing body, and the second inner housing is made by Heat Conduction Material, and second housing body is made by heat-insulating heat-preserving material, second inner housing is positioned at the inside of second housing body, and is reserved with therebetween gap and forms middle folder chamber.

Preferably, lower shell includes the 3rd inner housing and the 3rd shell body, and the 3rd inner housing is made by Heat Conduction Material, and the 3rd shell body is made by heat-insulating heat-preserving material, 3rd inner housing is positioned at the inside of the 3rd shell body, and is reserved with therebetween gap and forms lower folder chamber.

Preferably, heater includes heating element heater, and heating element heater is positioned at folder intracavity.

Preferably, SAPMAC method device includes cooling tube, and cooling tube is arranged in folder intracavity and the peripheral annular around the second inner housing is arranged.

Preferably, thermocirculator includes heat circulation pipe, and heat circulation pipe is positioned at lower folder intracavity and the peripheral annular around the 3rd inner housing is arranged.

In the present invention, heater, for the material in upper chamber is heated, by heating to prevent fermentation and destroying the nuclei of crystallization, delays honey crystallization, increases the mobility of Mel simultaneously, to strengthen filter effect；SAPMAC method device, for the material entered in middle chamber is cooled down, is in the time of the condition of high temperature shortening Mel, it is to avoid destroy its internal nutritional labeling, utilize the first orifice filter that Mel is carried out coarse filtration simultaneously；Thermocirculator is for being heated the material of bottom chamber, to guarantee that Mel is in optimal flow state, in order to can pass through the second orifice filter, it is achieved the secondary filter to Mel under the premise not destroying its internal nutritional labeling；First agitating device, for the material in upper chamber is stirred, makes the Mel in upper chamber be heated evenly and accelerates it to melt；Second agitating device, for the material in middle chamber is stirred, makes the cooling of the Mel in middle chamber uniformly and accelerate its rate of cooling and the rate of filtration；3rd agitating device, for the material of bottom chamber is stirred, makes the Mel of bottom chamber be heated evenly and accelerates its rate of filtration；First sensor is for detecting the temperature in upper chamber, first sensor is connected and in real time to controlling device transmission detection data K1 with controlling device, control device and control the mixing speed of the first agitating device according to the change of K1 value, and K1 value is more big, the mixing speed of the first agitating device is more fast；Second sensor is for detecting the temperature in middle chamber, second sensor is connected and in real time to controlling device transmission detection data K2 with controlling device, control device and control the mixing speed of the second agitating device according to the change of K2 value, and K2 value is more big, the mixing speed of the second agitating device is more fast；3rd sensor is for detecting the temperature of bottom chamber, second sensor is connected and in real time to controlling device transmission detection data K3 with controlling device, control device and control the mixing speed of the 3rd agitating device according to the change of K3 value, and K3 value is more big, the mixing speed of the 3rd agitating device is more fast；Control device K1, K2 and K3 and first preset value K01, K02 and K03 to be contrasted respectively, when K1 value reaches preset value K01, control device and send timing signal to time set, time set starts timing, when time set timing time reaches preset value T0, time set, to controlling device feedback enabling signal, controls device and controls electromagnetic valve unlatching according to the enabling signal that time set feeds back；When K2 value reaches preset value K02, control device control refrigerating circulatory device and quit work；When K3 value reaches preset value K03, control device control thermocirculator and quit work.

In sum, a kind of high-quality Mel processing filter plant that the present invention proposes, filters the required time shortening Mel, while improving Mel filter effect, it is possible to be prevented effectively from the destruction to Mel Middle nutrition composition, substantially increase the quality of Mel.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of high-quality Mel processing filter plant that the present invention proposes.

Detailed description of the invention

Below, by specific embodiment, technical scheme is described in detail.

As it is shown in figure 1, the structural representation of a kind of high-quality Mel processing filter plant that Fig. 1 is the present invention to be proposed.

With reference to Fig. 1, a kind of high-quality Mel processing filter plant that the embodiment of the present invention proposes, including: cartridge filter, time set, heater, SAPMAC method device, thermocirculator, the first agitating device, the second agitating device, the 3rd agitating device, first sensor, the second sensor, the 3rd sensor and control device, wherein:

Cartridge filter includes the upper shell 1, middle cylinder body 2 and the lower shell 3 that are sequentially arranged up and down, there is in described upper shell 1 upper chamber, there is in middle cylinder body 2 middle chamber, in lower shell 3, there is lower chambers, being communicated with the material mouth of the two between upper chamber and middle chamber, material mouth place is provided with electromagnetic valve 6；Being provided with the first orifice filter 4 between middle chamber and lower chambers, lower chambers is provided with the second orifice filter 5 away from the side of middle chamber, and the aperture of the first orifice filter 4 is less than the aperture of the second orifice filter 5；

Heater, for the material in upper chamber is heated, by heating to prevent fermentation and destroying the nuclei of crystallization, delays honey crystallization, increases the mobility of Mel simultaneously, to strengthen filter effect；

SAPMAC method device, for the material entered in middle chamber is cooled down, is in the time of the condition of high temperature shortening Mel, it is to avoid destroy its internal nutritional labeling, utilize the first orifice filter 4 that Mel is carried out coarse filtration simultaneously；

Thermocirculator is for being heated the material of bottom chamber, to guarantee that Mel is in optimal flow state, in order to can pass through the second orifice filter 5, it is achieved the secondary filter to Mel under the premise not destroying its internal nutritional labeling；

First agitating device, for the material in upper chamber is stirred, makes the Mel in upper chamber be heated evenly and accelerates it to melt；

Second agitating device, for the material in middle chamber is stirred, makes the cooling of the Mel in middle chamber uniformly and accelerate its rate of cooling and the rate of filtration；

3rd agitating device, for the material of bottom chamber is stirred, makes the Mel of bottom chamber be heated evenly and accelerates its rate of filtration；

First sensor is for detecting the temperature in upper chamber, and first sensor is connected with controlling device and sends detection data K1 to control device in real time；

Second sensor is for detecting the temperature in middle chamber, and the second sensor is connected with controlling device and sends detection data K2 to control device in real time；

3rd sensor is for detecting the temperature of bottom chamber, and the second sensor is connected with controlling device and sends detection data K3 to control device in real time；

Control device to be connected with time set, electromagnetic valve the 6, first agitating device, the second agitating device, the 3rd agitating device and heater, SAPMAC method device and thermocirculator respectively, control device and control the mixing speed of the first agitating device according to the change of K1 value, and K1 value is more big, the mixing speed of the first agitating device is more fast；Change according to K2 value controls the mixing speed of the second agitating device, and K2 value is more big, and the mixing speed of the second agitating device is more fast；Change according to K3 value controls the mixing speed of the 3rd agitating device, and K3 value is more big, and the mixing speed of the 3rd agitating device is more fast；Control device also K1, K2 and K3 and first preset value K01, K02 and K03 to be contrasted respectively, when K1 value reaches preset value K01, control device and send timing signal to time set, time set starts timing, when time set timing time reaches preset value T0, time set is to controlling device feedback enabling signal, and control device controls electromagnetic valve 6 according to the enabling signal that time set feeds back and opens；When K2 value reaches preset value K02, control device control refrigerating circulatory device and quit work；When K3 value reaches preset value K03, control device control thermocirculator and quit work；Thus realizing the Automated condtrol of whole equipment.

In the present embodiment, K01 is 60～65 DEG C, and T0 is 25～35min, and when Mel is under 60～65 DEG C of states and is incubated 25～35min, it prevents fermentation, destruction nuclei of crystallization effect best.

In the present embodiment, K02 is 35～40 DEG C, and when Mel is in 35～40 DEG C of states, its internal nutritional labeling will not go to pot.

In the present embodiment, K03 is 45～50 DEG C；When Mel is in 45～50 DEG C, its internal nutritional labeling will not run off, and its mobility is best, also allows for being smoothed out of subsequent compression technique.

In addition, in the present embodiment, second agitating device includes shaft, this shaft is horizontally disposed and is parallel to the first orifice filter 4, this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and the first orifice filter 4；3rd agitating device includes shaft, this shaft is horizontally disposed and is parallel to the second orifice filter 5, this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and the second orifice filter 5；Arranged by said structure, make brush constantly from swiped through orifice plate in rotary course, thus the problem avoiding orifice plate blocking.

In the present embodiment, upper shell 1 includes the first inner housing and the first shell body, and the first inner housing is made by Heat Conduction Material, and the first shell body is made by heat-insulating heat-preserving material, first inner housing is positioned at the inside of the first shell body, and is reserved with therebetween gap and forms folder chamber；Middle cylinder body 2 includes the second inner housing and second housing body, and the second inner housing is made by Heat Conduction Material, and second housing body is made by heat-insulating heat-preserving material, and the second inner housing is positioned at the inside of second housing body, and is reserved with therebetween gap and forms middle folder chamber；Lower shell 3 includes the 3rd inner housing and the 3rd shell body, and the 3rd inner housing is made by Heat Conduction Material, and the 3rd shell body is made by heat-insulating heat-preserving material, and the 3rd inner housing is positioned at the inside of the 3rd shell body, and is reserved with therebetween gap and forms lower folder chamber；Heater includes heating element heater, and heating element heater is positioned at folder intracavity；SAPMAC method device includes cooling tube, and cooling tube is arranged in folder intracavity and the peripheral annular around the second inner housing is arranged；Thermocirculator includes heat circulation pipe, and heat circulation pipe is positioned at lower folder intracavity and the peripheral annular around the 3rd inner housing is arranged；Said structure is arranged so that structure is more compact, the internal insulation better effects if of cartridge filter.

From the foregoing, it will be observed that a kind of high-quality Mel processing filter plant that the present invention proposes, filter the required time shortening Mel, while improving Mel filter effect, it is possible to be prevented effectively from the destruction to Mel Middle nutrition composition, substantially increase the quality of Mel.

The above; it is only the present invention preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; any those familiar with the art is in the technical scope that the invention discloses; it is equal to replacement according to technical scheme and inventive concept thereof or is changed, all should be encompassed within protection scope of the present invention.

Claims (10)

1. a high-quality Mel processing filter plant, it is characterized in that, including: cartridge filter, time set, heater, SAPMAC method device, thermocirculator, the first agitating device, the second agitating device, the 3rd agitating device, first sensor, the second sensor, the 3rd sensor and control device, wherein:

Cartridge filter includes the upper shell (1), middle cylinder body (2) and the lower shell (3) that are sequentially arranged up and down, described upper shell has upper chamber in (1), middle cylinder body has middle chamber in (2), lower shell has lower chambers in (3), being communicated with the material mouth of the two between upper chamber and middle chamber, material mouth place is provided with electromagnetic valve (6)；The first orifice filter (4) it is provided with between middle chamber and lower chambers, lower chambers is provided with the second orifice filter (5) away from the side of middle chamber, and the aperture of the first orifice filter (4) is less than the aperture of the second orifice filter (5)；

Heater is for being heated the material in upper chamber；

SAPMAC method device is for cooling down the material entered in middle chamber；

Thermocirculator is for being heated the material of bottom chamber；

First agitating device is for being stirred the material in upper chamber；

Second agitating device is for being stirred the material in middle chamber；

3rd agitating device is for being stirred the material of bottom chamber；

First sensor is for detecting the temperature in upper chamber, and first sensor is connected with controlling device and sends detection data K1 to control device in real time；

Second sensor is for detecting the temperature in middle chamber, and the second sensor is connected with controlling device and sends detection data K2 to control device in real time；

3rd sensor is for detecting the temperature of bottom chamber, and the second sensor is connected with controlling device and sends detection number K3 to control device in real time；

Control device to be connected with time set, electromagnetic valve (6), the first agitating device, the second agitating device, the 3rd agitating device and heater, SAPMAC method device and thermocirculator respectively, control device and control the mixing speed of the first agitating device according to the change of K1 value, change according to K2 value controls the mixing speed of the second agitating device, and the change of root K3 value controls the mixing speed of the 3rd agitating device；And K1, K2 and K3 and first preset value K01, K02 and K03 are contrasted by control device respectively, when K1 value reaches preset value K01, control device and send timing signal to time set, time set starts timing, when time set timing time reaches preset value T0, time set, to controlling device feedback enabling signal, controls device and controls electromagnetic valve (6) unlatching according to the enabling signal that time set feeds back；When K2 value reaches preset value K02, control device control refrigerating circulatory device and quit work；When K3 value reaches preset value K03, control device control thermocirculator and quit work.

2. a kind of high-quality Mel processing filter plant according to claim 1, it is characterised in that K01 is 60～65 DEG C；Preferably, K02 is 35～40 DEG C；Preferably, K03 is 45～50 DEG C；Preferably, T0 is 25～35min.

3. a kind of high-quality Mel processing filter plant according to claim 1, it is characterized in that, second agitating device includes shaft, this shaft is horizontally disposed and is parallel to the first orifice filter (4), this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and the first orifice filter (4).

4. a kind of high-quality Mel processing filter plant according to claim 1, it is characterized in that, 3rd agitating device includes shaft, this shaft is horizontally disposed and is parallel to the second orifice filter (5), this shaft is provided with and extends along the brush that direction is arranged, and this shaft is in rotation process, the radius of turn of this brush is more than or equal to the spacing between this shaft axial line and the second orifice filter (5).

5. a kind of high-quality Mel processing filter plant according to claim 1, it is characterized in that, upper shell (1) includes the first inner housing and the first shell body, first inner housing is made by Heat Conduction Material, first shell body is made by heat-insulating heat-preserving material, first inner housing is positioned at the inside of the first shell body, and is reserved with therebetween gap and forms folder chamber.

6. a kind of high-quality Mel processing filter plant according to claim 1, it is characterized in that, middle cylinder body (2) includes the second inner housing and second housing body, second inner housing is made by Heat Conduction Material, second housing body is made by heat-insulating heat-preserving material, second inner housing is positioned at the inside of second housing body, and is reserved with therebetween gap and forms middle folder chamber.

7. a kind of high-quality Mel processing filter plant according to claim 1, it is characterized in that, lower shell (3) includes the 3rd inner housing and the 3rd shell body, 3rd inner housing is made by Heat Conduction Material, 3rd shell body is made by heat-insulating heat-preserving material, 3rd inner housing is positioned at the inside of the 3rd shell body, and is reserved with therebetween gap and forms lower folder chamber.

8. a kind of high-quality Mel processing filter plant according to claim 5, it is characterised in that heater includes heating element heater, and heating element heater is positioned at folder intracavity.

9. a kind of high-quality Mel processing filter plant according to claim 6, it is characterised in that SAPMAC method device includes cooling tube, and cooling tube is arranged in folder intracavity and the peripheral annular around the second inner housing is arranged.

10. a kind of high-quality Mel processing filter plant according to claim 7, it is characterised in that thermocirculator includes heat circulation pipe, and heat circulation pipe is positioned at lower folder intracavity and the peripheral annular around the 3rd inner housing is arranged.