Mix fruit vegetables and become juice device
Technical Field
The invention belongs to the field of deep processing of agricultural and sideline products, and particularly relates to a device for mixing fruits and vegetables into juice.
Background
With the development of modern agriculture and the gradual improvement of the requirements of people on food nutrition and mouthfeel, the deep processing of agricultural and sideline products is increasingly concerned by researchers. The existing juice-forming operation of fruits and vegetables is divided into large-scale equipment and small-scale equipment according to application places, wherein the large-scale equipment is mainly used in a production workshop, and the small-scale equipment is mainly used by families; according to the juice forming form, the method comprises the steps of forming juice of concentrated juice, forming juice of fruit and vegetable juice and mixing fruit and vegetable pulp. However, with the expansion of the application places of fruit and vegetable products, the application requirements of the fruit and vegetable products are also met in crowded places such as many special fruit and vegetable product shops and markets, in these places, large-scale equipment cannot be realized, the limited fruit and vegetable processing amount of small-scale equipment cannot meet the application requirements, and the medium-sized mixed fruit and vegetable juicing equipment is urgently needed to be provided. In these application places, the concentrated fruit and vegetable juice cannot be used (and the nutrition and additives of the concentrated juice cannot meet the current requirements of people), while the pure fruit juice filtered out of pulp is very high in cost, meanwhile, the filtered pulp also contains rich nutrient substances, and is also very wasted when being used as impurities to be removed, the cost is also increased when the pulp is treated, and the fruit and vegetable pulp formed by adopting a stirring mode has poor taste due to large particles, so that the number of acceptable users is limited. And whether pure fruit juice or fruit and vegetable pulp is easily oxidized and deteriorated in a short time after being freshly squeezed. Therefore, how to solve the problems becomes a focus of researchers.
Disclosure of Invention
The invention provides a device for mixing fruits and vegetables into juice.
The method is realized by the following technical means:
a mixed fruit and vegetable juice making device comprises a crushing chamber, a deep crushing chamber, a separation chamber, an organic acid ice making chamber and a finished product chamber.
The crushing chamber comprises a crushing chamber shell, a first crushing shaft, a second crushing shaft, a first spiral blade, a second spiral blade, a first fruit and vegetable inlet, a second fruit and vegetable inlet, an ice water inlet, a first rolling roller, a second rolling roller and a crushing chamber outlet; the first crushing shaft and the second crushing shaft are transversely arranged at the top in the crushing chamber shell oppositely, a first spiral blade and a second spiral blade are arranged on the first crushing shaft and the second crushing shaft respectively, the spiral directions of the first spiral blade and the second spiral blade are opposite, a first fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the first spiral blade, a second fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the second spiral blade, an ice water inlet is arranged at the top of the crushing chamber shell at the joint of the first crushing shaft and the second crushing shaft, the bottom wall of the crushing chamber shell extends downwards in an arc shape from the initial end of the first crushing shaft and the initial end of the second crushing shaft respectively until the bottom center forms a crushing chamber outlet, and a first rolling roller and a second rolling roller are arranged right above the crushing chamber outlet (and also right below the joint of the first crushing shaft and the second crushing shaft), the first rolling roller and the second rolling roller are used for rolling and downwards transmitting the materials after the first crushing shaft and the second crushing shaft are crushed.
The deep breaking chamber comprises a deep breaking outer cylinder, a deep breaking inner cylinder, a deep breaking chamber inlet, an ice block inlet, a steel ball and a deep breaking chamber outlet; the deep breaking outer cylinder and the deep breaking inner cylinder are coaxial hollow cylinders which are transversely arranged, the deep breaking inner cylinder can rotate around a common axis, a plurality of steel balls are arranged in the deep breaking inner cylinder, the steel balls collide up and down through the rotation of the deep breaking inner cylinder, deep breaking of materials is achieved, a deep breaking chamber inlet is formed in one end of the upper portion of the deep breaking inner cylinder, an ice block inlet is formed in the other end of the upper portion of the deep breaking inner cylinder, a deep breaking chamber outlet is formed in one end of the lower portion of the deep breaking inner cylinder, and the deep breaking chamber inlet is communicated with the breaking chamber outlet.
The separation chamber comprises a separation outer cylinder, a separation inner cylinder, a central column, a cone block, a residue outlet, a separation chamber inlet, a residue storage tank and a separation chamber liquid outlet; the separation urceolus is vertical hollow circular cylinder, the separation inner tube is the vertical cavity round platform body coaxial with the separation urceolus the vertical center post that is provided with of bottom wall central authorities in the separation inner tube, is provided with the cone piece of cone on the center post top be provided with the separation chamber entry on the separation inner tube roof directly over the cone piece, the separation chamber entry with the chamber export that breaks deeply is linked together, separation inner tube, center post and cone piece can use the center post to rotate at a high speed as the axle jointly, the lateral wall of separation inner tube is densely covered through-hole structure the separation inner tube diapire outside is provided with the residue export that can open and shut residue export below is provided with the residue bin separation urceolus lateral wall below is provided with the separation chamber liquid outlet.
The organic acid ice making chamber is arranged right above the finished product chamber and used for cooling the organic acid solution to make ice blocks, and the organic acid ice making chamber is provided with an ice making chamber outlet.
The finished product chamber comprises a mixing chamber, a negative pressure chamber and a liquid storage chamber, wherein the mixing chamber comprises a mixing chamber shell, a mixing chamber feeding port, a mixing chamber ice inlet and a central vertical pipe; the mixing chamber shell is a vertical hollow cylinder, a mixing chamber ice inlet is formed in the top end of the mixing chamber shell, the mixing chamber ice inlet is communicated with an outlet of the ice making chamber, a mixing chamber feeding inlet is formed in the upper portion of the side wall of the mixing chamber shell, the mixing chamber feeding inlet is communicated with a liquid outlet of the separation chamber through a pipeline, a central vertical pipe is vertically arranged in the center of the inner bottom wall of the mixing chamber shell, the top wall and the side wall of the central vertical pipe are both provided with densely distributed through holes, a central vertical pipe inlet is formed by the densely distributed through holes, a hollow rotating shaft is vertically arranged to longitudinally penetrate through the central vertical pipe, the negative pressure chamber and the liquid storage chamber, the top opening of the hollow rotating shaft is closed in the bottom, and the top opening is; the negative pressure chamber is arranged at the lower part of the mixing chamber and is of a flat hollow cylinder structure, a propeller blade is arranged in the negative pressure chamber and fixedly connected to the hollow rotating shaft, and the liquid storage chamber comprises a liquid storage chamber shell, a plurality of upper branch pipes, a plurality of lower branch pipes and a drinking liquid outlet; the liquid storage chamber shell is of a hollow cylinder structure as a whole, a drinking liquid outlet is transversely arranged at the bottom end of the side wall of the liquid storage chamber shell, the upper branch pipes and the lower branch pipes are fixedly connected to the middle part and the lower part of the hollow rotating shaft respectively, the upper branch pipes are all arranged in a hollow mode, one ends of the upper branch pipes are communicated with the hollow rotating shaft, the other ends of the upper branch pipes are provided with densely distributed through holes, the densely distributed through holes form the liquid outlet of the upper branch pipes, the lower branch pipes are all solid cylinders, and one ends of the lower branch pipes are; the hollow rotating shaft, the propeller blades, the upper branch pipes and the lower branch pipes rotate by taking the hollow rotating shaft as a shaft.
Preferably, the surfaces of the first rolling roller and the second rolling roller are subjected to roughening treatment.
Preferably, a transverse baffle is arranged at the bottom of the first crushing shaft and the second crushing shaft, extends from the starting ends of the two crushing shafts to the joint of the two crushing shafts, and is provided with a downward opening at the joint.
Preferably, the steel ball is a 304 stainless steel ball.
Preferably, the rotation speed of the deep-breaking inner cylinder is set to enable the steel ball to move upwards along with the inner side wall of the deep-breaking inner cylinder and to be separated from the inner side wall of the deep-breaking inner cylinder to fall freely when the steel ball moves to the highest position.
Preferably, the deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet are fixedly connected with the deep breaking outer cylinder and clamped with corresponding parts of the deep breaking inner cylinder, all the inlets and the outlets are closed when the deep breaking inner cylinder rotates, and after the rotation is stopped, all the inlets and the openings are respectively in clamping communication with the deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet which are fixedly connected with the deep breaking outer cylinder.
Preferably, a steel mesh is arranged at the upper part of the outlet of the deep breaking chamber, and the diameter of the mesh of the steel mesh is smaller than that of the steel ball.
Preferably, the residue outlet is annular.
Preferably, the number of the upper branch pipes is 6 (2 rows, 3 in each row), and the number of the lower branch pipes is 6 (2 rows, 3 in each row).
Preferably, the inner top wall of the mixing chamber shell is also provided with a vertical stirring shaft.
The invention has the following effects:
1, through setting up two-way broken axle (helical blade), grinding roller and dark broken room, not only squeeze out fruit juice, also grind the pulp breakage simultaneously for very tiny granule, make the drinker not only drink fruit vegetables juice still simultaneously with the pulp entry, and because the granule is very tiny, therefore the taste is effectual. By setting each part, the production efficiency and the fruit and vegetable processing amount can realize the application place of the medium-sized equipment. And through setting up two-way broken axle, can adjust different fruit vegetables ratio in real time as required, improve and drink the taste.
2, through set up the frozen water entry at the crushing room, set up the ice-cube entry at the deep crushing room, set up organic acid on the finished product room and make the ice-cube room and set up the mixing chamber and go into the ice mouth, make the existence that all has "ice" in the whole course of production, these "ice" existence not only can be for water or organic acid solution in the processing procedure, simultaneously because the process that the icing becomes water needs to absorb a large amount of heat, thereby absorb a large amount of heat with the material, thereby make the material be in the low temperature state in whole process (because crushing, roll, the coarse process of breaking is accompanied with a large amount of frictions, thereby normally can produce the heat, and the process that the ice becomes water has not only absorbed the heat that the friction produced, still can suitable reduction material temperature). The molten water can increase the fluidity of the materials, and the molten organic acid can not only prevent the materials from being oxidized and deteriorated, but also increase the mouthfeel of drinkers.
And 3, the mixture (certainly water and organic acid) of the juice and the extremely crushed pulp is stored in the liquid storage chamber, and the finished drink product is a solid-liquid mixture, so that the solid-liquid mixture can be more fully mixed by continuous stirring (how fast the stirring speed is needed is not needed, and the stirring speed is low), and the pulp is prevented from being precipitated at the bottom. The material that has been covered with the organic acid ice-cube in the upper portion mixing chamber and has got into from the separator chamber, and through setting up the through-hole on central standpipe and the central standpipe, will be less than the material suction center standpipe in through-hole aperture, and the material of keeping in the mixing chamber still can contact with the organic acid ice-cube, and gradually with organic acid ice-cube surface melting, both progressively combine organic acid with the material, also cool down the material once more simultaneously. Rotation through the cavity pivot, it rotates to drive the propeller blade, thereby it forms the negative pressure to make the vortex in the negative pressure chamber, simultaneously because the upper branch pipe also rotates along with the cavity pivot, and the upper branch pipe terminal all is the through-hole, the material that will go up in the upper branch pipe is thrown away in the stock solution room, thereby form the negative pressure in upper branch pipe and the idle axle, dual negative pressure is about to the material in the mixing chamber and inhales central standpipe through the through-hole on the central standpipe then and inhales the cavity pivot in, then throw away the stock solution room through the upper branch pipe in, the purpose of stirring the material has been reached, material flow velocity between also can control mixing chamber and the stock solution room at any time simultaneously. When the height of the material in the liquid storage chamber is higher than that of the upper branch pipe, the negative pressure effect is rapidly reduced, so that the flowing speed of the material from the mixing chamber to the liquid storage chamber is reduced. The materials are fully contacted and mixed with the organic acid in the mixing chamber, when the materials in the liquid storage chamber are very few, the negative pressure effect is strengthened, and the materials flow from the mixing chamber to the liquid storage chamber quickly. And the through-hole of center standpipe has played the effect of filtering the material once more again, plays multiple purposes.
By arranging a unique structure for the separation chamber, arranging the circular cone shape of the inner cylinder, arranging the central column and the cone block to rotate with the inner cylinder at high speed simultaneously, when the material descends from the inlet, the material inevitably contacts the cone block, the cone block is also rotated, so that the materials are thrown onto the side wall of the inner cylinder and cannot be further scattered, when the inner cylinder rotates at a high speed, the materials with the diameter smaller than that of the through hole of the wall of the inner cylinder flow to the outer cylinder sufficiently, and part of the materials which can not be crushed after multiple crushing (if nuclear slag, part of fruit peel and the like), namely, the lowest part of the side wall of the inner cylinder is finally enriched, and the inner cylinder in the shape of a circular truncated cone is arranged, so that the inner cylinder is separated into a lower solid and an upper liquid, due to the gravity factor, the blockage of the through holes is completely avoided, so the specific arrangement mode of the separation chamber, closely matched with and coordinated with a specific structural form of a finished product chamber, so that the separation and mixing efficiency is greatly improved.
Drawings
FIG. 1 is a schematic structural diagram of a fruit and vegetable mixing and juicing device of the invention.
Wherein: 11-a first crushing shaft, 12-a second crushing shaft, 13-a first spiral blade, 14-a second spiral blade, 15-a first fruit and vegetable inlet, 16-a second fruit and vegetable inlet, 17-an ice water inlet, 181-a first rolling roller, 182-a second rolling roller, 19-a crushing chamber outlet, 21-a deep-breaking outer cylinder, 22-a deep-breaking inner cylinder, 23-an ice block inlet, 24-a steel ball, 25-a deep-breaking chamber outlet, 31-a separation outer cylinder, 32-a separation inner cylinder, 33-a central column, 34-a cone block, 35-a residue outlet, 36-a separation chamber inlet, 37-a residue storage tank, 38-a separation chamber liquid outlet, 41-an organic acid ice making chamber, 42-an ice making chamber outlet, 51-a mixing chamber and 52-a central vertical pipe, 521-central standpipe inlet, 53-negative pressure chamber, 54-propeller blade, 55-upper branch pipe, 551-upper branch pipe liquid outlet, 56-lower branch pipe, 57-liquid storage chamber, 58-drinking liquid outlet and 59-hollow rotating shaft. .
Detailed Description
Example 1
As shown in figure 1, the mixed fruit and vegetable juice making device comprises a crushing chamber, a deep crushing chamber, a separation chamber, an organic acid ice making chamber and a finished product chamber.
The crushing chamber comprises a crushing chamber shell, a first crushing shaft, a second crushing shaft, a first spiral blade, a second spiral blade, a first fruit and vegetable inlet, a second fruit and vegetable inlet, an ice water inlet, a first rolling roller, a second rolling roller and a crushing chamber outlet; the first crushing shaft and the second crushing shaft are transversely arranged at the top in the crushing chamber shell oppositely, a first spiral blade and a second spiral blade are arranged on the first crushing shaft and the second crushing shaft respectively, the spiral directions of the first spiral blade and the second spiral blade are opposite, a first fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the first spiral blade, a second fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the second spiral blade, an ice water inlet is arranged at the top of the crushing chamber shell at the joint of the first crushing shaft and the second crushing shaft, the bottom wall of the crushing chamber shell extends downwards in an arc shape from the initial end of the first crushing shaft and the initial end of the second crushing shaft respectively until the bottom center forms a crushing chamber outlet, and a first rolling roller and a second rolling roller are arranged right above the crushing chamber outlet (and also right below the joint of the first crushing shaft and the second crushing shaft), the first rolling roller and the second rolling roller are used for rolling and downwards transmitting the materials after the first crushing shaft and the second crushing shaft are crushed.
The surfaces of the first rolling roller and the second rolling roller are subjected to roughening treatment, and materials are relatively rolled and conveyed downwards through rough surface rotation.
And the bottom parts of the first crushing shaft and the second crushing shaft are provided with transverse baffles, the transverse baffles extend to the joint of the two crushing shafts from the initial ends of the two crushing shafts, and downward openings are formed in the joint.
The deep breaking chamber comprises a deep breaking outer cylinder, a deep breaking inner cylinder, a deep breaking chamber inlet, an ice block inlet, a steel ball and a deep breaking chamber outlet; the deep breaking outer cylinder and the deep breaking inner cylinder are coaxial hollow cylinders which are transversely arranged, the deep breaking inner cylinder can rotate around a common axis, a plurality of steel balls are arranged in the deep breaking inner cylinder, the steel balls collide up and down through the rotation of the deep breaking inner cylinder, deep breaking of materials is achieved, a deep breaking chamber inlet is formed in one end of the upper portion of the deep breaking inner cylinder, an ice block inlet is formed in the other end of the upper portion of the deep breaking inner cylinder, a deep breaking chamber outlet is formed in one end of the lower portion of the deep breaking inner cylinder, and the deep breaking chamber inlet is communicated with the breaking chamber outlet.
The steel ball is a 304 stainless steel ball.
The rotating speed of the deep broken inner cylinder is set to enable the steel ball to move upwards along with the inner side wall of the deep broken inner cylinder and to be separated from the inner side wall of the deep broken inner cylinder to fall freely when moving to the highest position.
The deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet are fixedly connected with the deep breaking outer barrel and are clamped with the corresponding part of the deep breaking inner barrel, all inlets and outlets are closed when the deep breaking inner barrel rotates, and after the rotation stops, all inlets and openings are respectively in clamping connection and communication with the deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet which are fixedly connected with the deep breaking outer barrel.
And a steel mesh is arranged at the upper part of the outlet of the deep breaking chamber, and the diameter of the mesh of the steel mesh is smaller than that of the steel ball.
The separation chamber comprises a separation outer cylinder, a separation inner cylinder, a central column, a cone block, a residue outlet, a separation chamber inlet, a residue storage tank and a separation chamber liquid outlet; the separation urceolus is vertical hollow circular cylinder, the separation inner tube is the vertical cavity round platform body coaxial with the separation urceolus the vertical center post that is provided with of bottom wall central authorities in the separation inner tube, is provided with the cone piece of cone on the center post top be provided with the separation chamber entry on the separation inner tube roof directly over the cone piece, the separation chamber entry with the chamber export that breaks deeply is linked together, separation inner tube, center post and cone piece can use the center post to rotate at a high speed as the axle jointly, the lateral wall of separation inner tube is densely covered through-hole structure the separation inner tube diapire outside is provided with the residue export that can open and shut residue export below is provided with the residue bin separation urceolus lateral wall below is provided with the separation chamber liquid outlet.
The residue outlet is in a ring shape.
The organic acid ice making chamber is arranged right above the finished product chamber and used for cooling the organic acid solution to make ice blocks, and the organic acid ice making chamber is provided with an ice making chamber outlet.
The finished product chamber comprises a mixing chamber, a negative pressure chamber and a liquid storage chamber, wherein the mixing chamber comprises a mixing chamber shell, a mixing chamber feeding port, a mixing chamber ice inlet and a central vertical pipe; the mixing chamber shell is a vertical hollow cylinder, a mixing chamber ice inlet is formed in the top end of the mixing chamber shell, the mixing chamber ice inlet is communicated with an outlet of the ice making chamber, a mixing chamber feeding inlet is formed in the upper portion of the side wall of the mixing chamber shell, the mixing chamber feeding inlet is communicated with a liquid outlet of the separation chamber through a pipeline, a central vertical pipe is vertically arranged in the center of the inner bottom wall of the mixing chamber shell, the top wall and the side wall of the central vertical pipe are both provided with densely distributed through holes, a central vertical pipe inlet is formed by the densely distributed through holes, a hollow rotating shaft is vertically arranged to longitudinally penetrate through the central vertical pipe, the negative pressure chamber and the liquid storage chamber, the top opening of the hollow rotating shaft is closed in the bottom, and the top opening is; the negative pressure chamber is arranged at the lower part of the mixing chamber and is of a flat hollow cylinder structure, a propeller blade is arranged in the negative pressure chamber and fixedly connected to the hollow rotating shaft, and the liquid storage chamber comprises a liquid storage chamber shell, 6 upper branch pipes, 6 lower branch pipes and a drinking liquid outlet; the liquid storage chamber shell is of a hollow cylinder structure as a whole, a drinking liquid outlet is transversely arranged at the bottom end of the side wall of the liquid storage chamber shell, the upper branch pipes and the lower branch pipes are respectively and fixedly connected to the middle part and the lower part of the hollow rotating shaft, the 6 upper branch pipes are all arranged in a hollow mode, one end of each upper branch pipe is communicated with the hollow rotating shaft, the other end of each upper branch pipe is provided with densely distributed through holes, the densely distributed through holes form the liquid outlet of the upper branch pipe, the 6 lower branch pipes are all solid cylinders, and one end of each lower; the hollow rotating shaft, the propeller blades, the 6 upper branch pipes and the 6 lower branch pipes rotate by taking the hollow rotating shaft as a shaft.
The upper branch pipes are arranged in 2 rows, each row is 3, and the lower branch pipes are arranged in 2 rows, each row is 3.
The top wall still is provided with vertical (mixing) shaft in the mixing chamber shell. The organic acid is citric acid.
Example 2
A mixed fruit and vegetable juice making device comprises a crushing chamber, a deep crushing chamber, a separation chamber, an organic acid ice making chamber and a finished product chamber.
The crushing chamber comprises a crushing chamber shell, a first crushing shaft, a second crushing shaft, a first spiral blade, a second spiral blade, a first fruit and vegetable inlet, a second fruit and vegetable inlet, an ice water inlet, a first rolling roller, a second rolling roller and a crushing chamber outlet; the first crushing shaft and the second crushing shaft are transversely arranged at the top in the crushing chamber shell oppositely, a first spiral blade and a second spiral blade are arranged on the first crushing shaft and the second crushing shaft respectively, the spiral directions of the first spiral blade and the second spiral blade are opposite, a first fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the first spiral blade, a second fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the second spiral blade, an ice water inlet is arranged at the top of the crushing chamber shell at the joint of the first crushing shaft and the second crushing shaft, the bottom wall of the crushing chamber shell extends downwards in an arc shape from the initial end of the first crushing shaft and the initial end of the second crushing shaft respectively until the bottom center forms a crushing chamber outlet, and a first rolling roller and a second rolling roller are arranged right above the crushing chamber outlet (and also right below the joint of the first crushing shaft and the second crushing shaft), the first rolling roller and the second rolling roller are used for rolling and downwards transmitting the materials after the first crushing shaft and the second crushing shaft are crushed.
The surfaces of the first rolling roller and the second rolling roller are subjected to roughening treatment. The material of first roller and second roller is wear-resisting steel.
And the bottom parts of the first crushing shaft and the second crushing shaft are provided with transverse baffles, the transverse baffles extend to the joint of the two crushing shafts from the initial ends of the two crushing shafts, and downward openings are formed in the joint.
The deep breaking chamber comprises a deep breaking outer cylinder, a deep breaking inner cylinder, a deep breaking chamber inlet, an ice block inlet, a steel ball and a deep breaking chamber outlet; the deep breaking outer cylinder and the deep breaking inner cylinder are coaxial hollow cylinders which are transversely arranged, the deep breaking inner cylinder can rotate around a common axis, a plurality of steel balls are arranged in the deep breaking inner cylinder, the steel balls collide up and down through the rotation of the deep breaking inner cylinder, deep breaking of materials is achieved, a deep breaking chamber inlet is formed in one end of the upper portion of the deep breaking inner cylinder, an ice block inlet is formed in the other end of the upper portion of the deep breaking inner cylinder, a deep breaking chamber outlet is formed in one end of the lower portion of the deep breaking inner cylinder, and the deep breaking chamber inlet is communicated with the breaking chamber outlet.
The steel ball is a 304 stainless steel ball.
The rotating speed of the deep broken inner cylinder is set to enable the steel ball to move upwards along with the inner side wall of the deep broken inner cylinder and to be separated from the inner side wall of the deep broken inner cylinder to fall freely when moving to the highest position.
The deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet are fixedly connected with the deep breaking outer barrel and are clamped with the corresponding part of the deep breaking inner barrel, all inlets and outlets are closed when the deep breaking inner barrel rotates, and after the rotation stops, all inlets and openings are respectively in clamping connection and communication with the deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet which are fixedly connected with the deep breaking outer barrel.
And a steel mesh is arranged at the upper part of the outlet of the deep breaking chamber, and the diameter of the mesh of the steel mesh is smaller than that of the steel ball.
The separation chamber comprises a separation outer cylinder, a separation inner cylinder, a central column, a cone block, a residue outlet, a separation chamber inlet, a residue storage tank and a separation chamber liquid outlet; the separation urceolus is vertical hollow circular cylinder, the separation inner tube is the vertical cavity round platform body coaxial with the separation urceolus the vertical center post that is provided with of bottom wall central authorities in the separation inner tube, is provided with the cone piece of cone on the center post top be provided with the separation chamber entry on the separation inner tube roof directly over the cone piece, the separation chamber entry with the chamber export that breaks deeply is linked together, separation inner tube, center post and cone piece can use the center post to rotate at a high speed as the axle jointly, the lateral wall of separation inner tube is densely covered through-hole structure the separation inner tube diapire outside is provided with the residue export that can open and shut residue export below is provided with the residue bin separation urceolus lateral wall below is provided with the separation chamber liquid outlet.
The residue outlet is in a ring shape.
The organic acid ice making chamber is arranged right above the finished product chamber and used for cooling the organic acid solution to make ice blocks, and the organic acid ice making chamber is provided with an ice making chamber outlet.
The finished product chamber comprises a mixing chamber, a negative pressure chamber and a liquid storage chamber, wherein the mixing chamber comprises a mixing chamber shell, a mixing chamber feeding port, a mixing chamber ice inlet and a central vertical pipe; the mixing chamber shell is a vertical hollow cylinder, a mixing chamber ice inlet is formed in the top end of the mixing chamber shell, the mixing chamber ice inlet is communicated with an outlet of the ice making chamber, a mixing chamber feeding inlet is formed in the upper portion of the side wall of the mixing chamber shell, the mixing chamber feeding inlet is communicated with a liquid outlet of the separation chamber through a pipeline, a central vertical pipe is vertically arranged in the center of the inner bottom wall of the mixing chamber shell, the top wall and the side wall of the central vertical pipe are both provided with densely distributed through holes, a central vertical pipe inlet is formed by the densely distributed through holes, a hollow rotating shaft is vertically arranged to longitudinally penetrate through the central vertical pipe, the negative pressure chamber and the liquid storage chamber, the top opening of the hollow rotating shaft is closed in the bottom, and the top opening is; the negative pressure chamber is arranged at the lower part of the mixing chamber and is of a flat hollow cylinder structure, a propeller blade is arranged in the negative pressure chamber and fixedly connected to the hollow rotating shaft, and the liquid storage chamber comprises a liquid storage chamber shell, 3 upper branch pipes, 3 lower branch pipes and a drinking liquid outlet; the liquid storage chamber shell is of a hollow cylinder structure as a whole, a drinking liquid outlet is transversely arranged at the bottom end of the side wall of the liquid storage chamber shell, the 3 upper branch pipes and the plurality of lower branch pipes are respectively and fixedly connected to the middle part and the lower part of the hollow rotating shaft, the 3 upper branch pipes are all arranged in a hollow mode, one end of each upper branch pipe is communicated with the hollow rotating shaft, the other end of each upper branch pipe is provided with densely distributed through holes, the densely distributed through holes form the liquid outlet of the upper branch pipe, the plurality of lower branch pipes are all solid cylinders, and one; the hollow rotating shaft, the propeller blades, the 3 upper branch pipes and the 3 lower branch pipes rotate by taking the hollow rotating shaft as a shaft.
The top wall still is provided with vertical (mixing) shaft in the mixing chamber shell. The organic acid is malic acid.
Example 3
A mixed fruit and vegetable juice making device comprises a crushing chamber, a deep crushing chamber, a separation chamber, an organic acid ice making chamber and a finished product chamber.
The crushing chamber comprises a crushing chamber shell, a first crushing shaft, a second crushing shaft, a first spiral blade, a second spiral blade, a first fruit and vegetable inlet, a second fruit and vegetable inlet, an ice water inlet, a first rolling roller, a second rolling roller and a crushing chamber outlet; the first crushing shaft and the second crushing shaft are transversely arranged at the top in the crushing chamber shell oppositely, a first spiral blade and a second spiral blade are arranged on the first crushing shaft and the second crushing shaft respectively, the spiral directions of the first spiral blade and the second spiral blade are opposite, a first fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the first spiral blade, a second fruit and vegetable inlet is arranged at the top of the crushing chamber shell at the initial end of the second spiral blade, an ice water inlet is arranged at the top of the crushing chamber shell at the joint of the first crushing shaft and the second crushing shaft, the bottom wall of the crushing chamber shell extends downwards in an arc shape from the initial end of the first crushing shaft and the initial end of the second crushing shaft respectively until the bottom center forms a crushing chamber outlet, and a first rolling roller and a second rolling roller are arranged right above the crushing chamber outlet (and also right below the joint of the first crushing shaft and the second crushing shaft), the first rolling roller and the second rolling roller are used for rolling and downwards transmitting the materials after the first crushing shaft and the second crushing shaft are crushed.
The surfaces of the first rolling roller and the second rolling roller are subjected to roughening treatment.
And the bottom parts of the first crushing shaft and the second crushing shaft are provided with transverse baffles, the transverse baffles extend to the joint of the two crushing shafts from the initial ends of the two crushing shafts, and downward openings are formed in the joint.
The deep breaking chamber comprises a deep breaking outer cylinder, a deep breaking inner cylinder, a deep breaking chamber inlet, an ice block inlet, a steel ball and a deep breaking chamber outlet; the deep breaking outer cylinder and the deep breaking inner cylinder are coaxial hollow cylinders which are transversely arranged, the deep breaking inner cylinder can rotate around a common axis, a plurality of steel balls are arranged in the deep breaking inner cylinder, the steel balls collide up and down through the rotation of the deep breaking inner cylinder, deep breaking of materials is achieved, a deep breaking chamber inlet is formed in one end of the upper portion of the deep breaking inner cylinder, an ice block inlet is formed in the other end of the upper portion of the deep breaking inner cylinder, a deep breaking chamber outlet is formed in one end of the lower portion of the deep breaking inner cylinder, and the deep breaking chamber inlet is communicated with the breaking chamber outlet.
The steel ball is a 304 stainless steel ball.
The rotating speed of the deep broken inner cylinder is set to enable the steel ball to move upwards along with the inner side wall of the deep broken inner cylinder and to be separated from the inner side wall of the deep broken inner cylinder to fall freely when moving to the highest position.
The deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet are fixedly connected with the deep breaking outer barrel and are clamped with the corresponding part of the deep breaking inner barrel, all inlets and outlets are closed when the deep breaking inner barrel rotates, and after the rotation stops, all inlets and openings are respectively in clamping connection and communication with the deep breaking chamber inlet, the ice block inlet and the deep breaking chamber outlet which are fixedly connected with the deep breaking outer barrel.
And a steel mesh is arranged at the upper part of the outlet of the deep breaking chamber, and the diameter of the mesh of the steel mesh is smaller than that of the steel ball.
The separation chamber comprises a separation outer cylinder, a separation inner cylinder, a central column, a cone block, a residue outlet, a separation chamber inlet, a residue storage tank and a separation chamber liquid outlet; the separation urceolus is vertical hollow circular cylinder, the separation inner tube is the vertical cavity round platform body coaxial with the separation urceolus the vertical center post that is provided with of bottom wall central authorities in the separation inner tube, is provided with the cone piece of cone on the center post top be provided with the separation chamber entry on the separation inner tube roof directly over the cone piece, the separation chamber entry with the chamber export that breaks deeply is linked together, separation inner tube, center post and cone piece can use the center post to rotate at a high speed as the axle jointly, the lateral wall of separation inner tube is densely covered through-hole structure the separation inner tube diapire outside is provided with the residue export that can open and shut residue export below is provided with the residue bin separation urceolus lateral wall below is provided with the separation chamber liquid outlet.
The residue outlet is in a ring shape.
The organic acid ice making chamber is arranged right above the finished product chamber and used for cooling the organic acid solution to make ice blocks, and the organic acid ice making chamber is provided with an ice making chamber outlet.
The finished product chamber comprises a mixing chamber, a negative pressure chamber and a liquid storage chamber, wherein the mixing chamber comprises a mixing chamber shell, a mixing chamber feeding port, a mixing chamber ice inlet and a central vertical pipe; the mixing chamber shell is a vertical hollow cylinder, a mixing chamber ice inlet is formed in the top end of the mixing chamber shell, the mixing chamber ice inlet is communicated with an outlet of the ice making chamber, a mixing chamber feeding inlet is formed in the upper portion of the side wall of the mixing chamber shell, the mixing chamber feeding inlet is communicated with a liquid outlet of the separation chamber through a pipeline, a central vertical pipe is vertically arranged in the center of the inner bottom wall of the mixing chamber shell, the top wall and the side wall of the central vertical pipe are both provided with densely distributed through holes, a central vertical pipe inlet is formed by the densely distributed through holes, a hollow rotating shaft is vertically arranged to longitudinally penetrate through the central vertical pipe, the negative pressure chamber and the liquid storage chamber, the top opening of the hollow rotating shaft is closed in the bottom, and the top opening is; the negative pressure chamber is arranged at the lower part of the mixing chamber and is of a flat hollow cylinder structure, a propeller blade is arranged in the negative pressure chamber and fixedly connected to the hollow rotating shaft, and the liquid storage chamber comprises a liquid storage chamber shell, 9 upper branch pipes, 3 lower branch pipes and a drinking liquid outlet; the liquid storage chamber shell is of a hollow cylinder structure as a whole, a drinking liquid outlet is transversely arranged at the bottom end of the side wall of the liquid storage chamber shell, the upper branch pipes and the lower branch pipes are fixedly connected to the middle part and the lower part of the hollow rotating shaft respectively, the 9 upper branch pipes are arranged in a hollow mode, one end of each upper branch pipe is communicated with the hollow rotating shaft, the other end of each upper branch pipe is provided with densely distributed through holes, the densely distributed through holes form the liquid outlet of the upper branch pipe, the 3 lower branch pipes are solid cylinders, and one end of each lower branch pipe is; the hollow rotating shaft, the propeller blades, the 9 upper branch pipes and the 3 lower branch pipes rotate by taking the hollow rotating shaft as a shaft.
The upper branch pipes are 3 rows, each row is 3, and the lower branch pipes are 1 row, each row is 3.
The top wall still is provided with vertical (mixing) shaft in the mixing chamber shell.
The drinking liquid outlet is provided with an opening and closing valve. The organic acid is a mixture of citric acid and malic acid.