The cooling forming method of a kind of high speed steady production soft gelatin capsule and cooling forming device
(1) technical field:
The present invention relates to a kind of method and device producing soft gelatin capsule, a kind of method of high speed steady production soft gelatin capsule and
Device.
(2) background technology:
Existing soft gelatin capsule molding structure and molding mode mainly have two kinds, and a kind of molding structure lacks flow accelerator part,
Coolant flow is slow, and the glue of concentric fluidization tower is broken contraction pelletization by the flow velocity that this structure pelletization form is dependent on coolant
Shape, and then the efficiency of pelletization and speed can be caused low.Another molding structure not only lacks flow accelerator part but also lacks
Current stabilization components, the flow velocity of the coolant of this structure mode of production is unstable and flow velocity is relatively slow, pelletization inefficiency and one-tenth
Ball is second-rate.
The equipment of existing production soft gelatin capsule is during to soft gelatin capsule cooling molding, owing to cooling liquid speed is slow, and flowing
The pulling force produced is limited, and then constrains speed and the efficiency of production.
(3) summary of the invention:
It is an object of the invention to provide cooling forming method and the cooling forming device of a kind of high speed steady production soft gelatin capsule,
It can solve the problem that the deficiencies in the prior art, and it engages current stabilization assembly and flow accelerator part, stabilizes cooling circulation liquid stream
While speed, also accelerate the flow velocity of circulation fluid.
Technical scheme: the cooling forming method of a kind of high speed steady production soft gelatin capsule, it is characterised in that it includes
Following steps:
(1) content liquid and glue form concentric fluidization tower, drop in cooling container molding, cool down container molding simultaneously
In have endlessly coolant enter, flow downward along cooling column;
(2) glue can be moved downwardly to flow accelerator part along with the flowing of coolant;
(3) glue moved together along with coolant is entered flow accelerator by the primary flow path of flow accelerator part, with
Time by accelerate stream entrance introduce coolant, coolant enter flow accelerator inner chamber after, due to flowing exit be
The least gap, can make flow velocity accelerate so liquid flows through at gap, and then adds the flow velocity of primary flow path from top to bottom,
So that primary flow path liquid produces acceleration, create pulling force;
(4) accelerated by the flow rate of liquid accelerating mouth entrance primary flow path, and then produce pulling force, glue is thoroughly broken, continues
Move downward and be shrunk to pellet.
Coolant in the cooling container molding flowed in described step (1) is flowed into by overflow vessel, cools down molding
Container is installed in overflow vessel, and cools down the upper edge less than overflow vessel, the upper edge of container molding, enters endlessly
Coolant in overflow vessel and then enter endlessly in cooling container molding, and liquid level keeps balance;Flow into overflow
Coolant unnecessary in container can overflow in reflux vessel.
Described content liquid is essence, cod-liver oil, vitamin, nutrient or medicinal liquid.
A kind of cooling forming method realizing above-mentioned high speed steady production soft gelatin capsule and cooling forming device, it is characterised in that it
It is made up of current stabilization assembly and flow accelerator;Described current stabilization assembly includes the cooling container molding installed the most successively, overflows
Stream container and reflux vessel, the upper edge of described cooling container molding is less than the upper edge of overflow vessel;Have in described flow accelerator
Through primary flow path, and it is internally provided with sealed internal chamber at flow accelerator, inner chamber is connected with primary flow path by accelerating mouth, interior
Chamber has acceleration path inlet;The entrance of described primary flow path connects the outlet of cooling container molding.
Described flow accelerator is threaded connection by two parts and constitutes, and has through primary flow path in two parts, and two
Sealed internal chamber is formed between individual part.
Described flow accelerator is connected by pipe with current stabilization assembly.
Described cooling container molding, overflow vessel and reflux vessel use glue bonding bottom surface to connect;Described overflow vessel
On have coolant inlet, reflux vessel has coolant refluxing opening.
The superiority of the present invention: the present invention engages current stabilization assembly and flow accelerator part, is stabilizing cooling circulation
While flow velocity, also accelerate the flow velocity of circulating cooling liquid, thus reached soft gelatin capsule and produced the most at a high speed but also stable effect.
(4) accompanying drawing explanation:
Fig. 1 is the structural representation of cooling forming device involved by the present invention.
Fig. 2 is the structural representation of current stabilization assembly in cooling forming device involved by the present invention.
Fig. 3 is the structural representation of current stabilization assembly in cooling forming device involved by the present invention.
Wherein, 1 is cooling container molding, and 2 is overflow vessel, and 3 is reflux vessel, and A is coolant refluxing opening, and B is cooling
Liquid entrance, C is primary flow path entrance, and D is for accelerating path inlet.
(5) detailed description of the invention:
Embodiment: the cooling forming method (see Fig. 1 to Fig. 3) of a kind of high speed steady production soft gelatin capsule, it is characterised in that its bag
Include following steps:
(1) content liquid and glue form concentric fluidization tower, drop in cooling container molding 1, and cooling molding simultaneously is held
Device 1 there is coolant endlessly enter, flow downward along cooling column;
(2) glue can be moved downwardly to flow accelerator part along with the flowing of coolant;
(3) glue moved together along with coolant is entered flow accelerator by the primary flow path of flow accelerator part, with
Time by accelerate stream entrance introduce coolant, coolant enter flow accelerator inner chamber after, due to flowing exit be
The least gap, can make flow velocity accelerate so liquid flows through at gap, and then adds the flow velocity of primary flow path from top to bottom,
So that primary flow path liquid produces acceleration, produce and risen pulling force;
(4) accelerated by the flow rate of liquid accelerating mouth entrance primary flow path, and then produce pulling force, glue is thoroughly broken, continues
Move downward and be shrunk to pellet.
Coolant in the cooling container molding 1 flowed in described step (1) is flowed into by overflow vessel 2, is cooled to
Type container 1 is installed in overflow vessel 2, and cools down the upper edge less than overflow vessel 2, the upper edge of container molding 1, continually
The coolant entered in overflow vessel 2 so that enter endlessly in cooling container molding 1, and liquid level keeps balance;
Flow into unnecessary coolant in overflow vessel 2 can overflow in reflux vessel 3.
Described content liquid is essence, cod-liver oil, vitamin, nutrient or medicinal liquid.
A kind of cooling forming device (see Fig. 1 to Fig. 3) of the cooling forming method realizing above-mentioned high speed steady production soft gelatin capsule,
It is characterized in that it is made up of current stabilization assembly 4 and flow accelerator 5;It is cold that described current stabilization assembly includes installing the most successively
But container molding 1, overflow vessel 2 and reflux vessel 3, the upper edge of described cooling container molding 1 is less than the upper edge of overflow vessel 2;
Having through primary flow path in described flow accelerator 5, and be internally provided with sealed internal chamber at flow accelerator 5, inner chamber passes through
Accelerating mouth to be connected with primary flow path, inner chamber has acceleration path inlet D;The entrance C of described primary flow path connects cooling container molding 1
Outlet.
Described flow accelerator 5 is threaded connection by two parts and constitutes, and has through primary flow path in two parts, and two
Sealed internal chamber is formed between individual part.
Described flow accelerator 5 is connected by pipe 4 with current stabilization assembly.
Described cooling container molding 1, overflow vessel 2 and reflux vessel 3 use glue bonding bottom surface to connect;Described overflow is held
There is coolant inlet B on device 2, reflux vessel 3 has coolant refluxing opening A.