Invention content
The purpose of the present invention is to provide a kind of jelly fusion pots for being exclusively used in freezing molten demulsification release, meet in new process to camphor tree
The seeds of trees freeze the processing request of molten demulsification release, compact-sized, floor space is small.
The present invention is achieved through the following technical solutions:A kind of jelly fusion pot for being exclusively used in freezing molten demulsification release, including setting
There is transmission device in the cavity inside bottom and through cavities of the cavitys of inlet port and outlet port, installation, be mounted on cavity side
The temperature control device of wall, the control panel mounted on containment portion and the material containing tank that is placed on transmission device loading surface, control panel
It is connected respectively at transmission device, temperature control device;The cavity by flashboard separate at arrange successively crystallisation chamber, freezing chamber, melting
Room, crystallisation chamber are connected to feed inlet;The thermometric end of the temperature control device is located inside wall, including is placed in the first temperature of crystallisation chamber
Control unit is placed in the second temperature conditioning unit of freezing chamber and is placed in the third temperature conditioning unit of melting chamber, the first temperature conditioning unit, the second temperature
Control unit, third temperature conditioning unit is connected respectively at control panel.
A kind of Camphor Tree Seeds, which prepare to need to use in the new process of biodiesel, to be frozen fusion pot and carries out freezing molten demulsification to Camphor Tree Seeds
Release, the optimised process of specific process are that jelly fusion pot is added in the liquid phase for process preceding working procedure, be first cooled to 0 DEG C into
Row freezing and crystallizing, is further cooled to the freezing of -15 DEG C of progress 1.5h after crystallization completely, then is warming up to 40 DEG C and carries out the molten of 1.5h
Solution.The inner cavity for freezing fusion pot is separated into crystallisation chamber in order to meet the actual demand of production, by flashboard, freezing chamber, is melted by the present invention
Room is solved, liquid phase is fitted into from feed inlet in material containing tank, is placed in drive of the material containing tank on transmission device its loading surface in transmission device
It is lower that liquid phase is loaded into crystallisation chamber, freezing chamber, melting chamber successively, and it is gradually completing process under the process conditions of setting.This
Invention meets the processing request that in new process Camphor Tree Seeds freeze with molten demulsification release, compact-sized, floor space is small.
Further, the transmission device is separated by flashboard into the crystallized region positioned at crystallisation chamber, the freezing positioned at freezing chamber
Section, positioned at the melting section of melting chamber, crystallized region, melts intersegmental connection breaking at freezing section.
Further, first temperature conditioning unit includes the first heat-exchange tube of the first thermometer and contact low-temperature receiver;It is described
Second temperature conditioning unit includes the second heat-exchange tube of second temperature meter and contact low-temperature receiver;The third temperature conditioning unit includes third temperature
The third heat-exchange tube of degree meter and contact heat source.
Further, circulate cold medium respectively in first heat-exchange tube, the second heat-exchange tube, in third heat-exchange tube
Circulate thermal medium.
Further, the cold medium is freezing liquid or refrigeration gas, the cold medium preferably to circulate in the first heat-exchange tube
For ice water or brine ice, the cold medium preferably to circulate in the second heat-exchange tube is liquefied ammonia or dry ice or liquid nitrogen;The thermal medium
For high-temperature liquid or High Temperature Gas, the thermal medium preferably to circulate in third heat-exchange tube is 45-60 DEG C of hot water.
The refrigeration effect of the ice water is 0 DEG C;The refrigeration effect of the brine ice is at -5 DEG C or so;The refrigeration of the liquefied ammonia
Effect is at -18 DEG C or so;The refrigeration effect of the dry ice is at -78 DEG C or so;The refrigeration effect of the liquid nitrogen is at -200 DEG C or so;
The heating effect of the 45-60 DEG C of hot water is slightly below water temperature.According to processing request, the first heat-exchange tube is needed the temperature of crystallisation chamber
Degree control is at 0 DEG C or so, therefore the preferably cold medium of ice water or brine ice as circulation in the first heat-exchange tube, it is contemplated that heat
Damage, brine ice become optimal selection;Second heat-exchange tube needs to control the temperature of freezing chamber at -15 DEG C or so, therefore preferably
The cold medium of liquefied ammonia or dry ice or liquid nitrogen as circulation in the second heat-exchange tube, if considering from heat waste and the complexity of control
Then liquefied ammonia is optimal selection, and dry ice or liquid nitrogen are optimal selections if considering from environmental protection;The third heat-exchange tube needs
The temperature of melting chamber is controlled at 40 DEG C or so, therefore 45-60 DEG C of hot water can be easily controlled melting chamber as thermal medium
Temperature keep 40 DEG C or so.
Further, the flashboard include the first flashboard between feed inlet and crystallized region, be located at crystallized region with it is cold
Freeze the second flashboard between section, the third flashboard between freezing section and melting section and between melting section and discharge port
4th flashboard.
When the flashboard is opened, crystallized region, freezing section, melting are intersegmental every connection, and material containing tank may span across interval, are filled in transmission
It is steady successively on the loading surface set to move ahead;When flashboard is closed, flashboard is risen from interval and the inner wall of embedded cavity so that crystallization
Room or the closing isolation of freezing chamber or melting chamber, to realize that the indoor temperature of each chamber controls.First flashboard and the second flashboard
When simultaneously closing off, crystallisation chamber closing;When second flashboard is simultaneously closed off with third flashboard, freezing chamber closing;Third flashboard and the 4th
When flashboard simultaneously closes off, melting chamber closing;First flashboard, the second flashboard, third flashboard, the 4th flashboard individually control.
All flashboards are closed under working condition:
The first step:The first flashboard is opened, liquid phase is introduced into the material containing tank of crystallized region, closes the first flashboard, closing
Crystallisation chamber, liquid phase freezing and crystallizing 0.5-1h under 0 DEG C of process conditions;
Second step:The second flashboard is opened, the material containing tank equipped with crystalline phase is entered under transmission device effect by crystallized region cold
Freeze section, close the second flashboard, close freezing chamber, crystalline phase freezes 1.5h under -15 DEG C of process conditions;
Third walks:Third flashboard is opened, the material containing tank equipped with solid phase enters melting under transmission device effect by freezing section
Section closes third flashboard, closes melting chamber, and solid phase melts 1.5h under 40 DEG C of process conditions;
4th step:The 4th flashboard is opened, is exported from discharge port by the oil phase in material containing tank, waits being further processed, close the
Four flashboards.
Further, the gate panel surface coats insulating layer.
Further, the cavity inner wall or outer wall coat insulating layer.
The insulating layer is to reinforce heat insulation effect.
Further, the connection of the temperature control device and cavity uses welding by both sides.
Further, inspection window is additionally provided on the side wall of the cavity, the connection of inspection window and cavity uses welding by both sides.
The welding by both sides primarily to inner space closing, further strengthen heat insulation effect.
Compared with prior art, the present invention haing the following advantages and advantageous effect:
(1)The present invention meets the processing request that in new process Camphor Tree Seeds freeze with molten demulsification release.
(2)Structure of the invention is compact, floor space is small.