CN113941276A - Milk powder nutrition enhancer compounding packing plant - Google Patents

Milk powder nutrition enhancer compounding packing plant Download PDF

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Publication number
CN113941276A
CN113941276A CN202111557951.5A CN202111557951A CN113941276A CN 113941276 A CN113941276 A CN 113941276A CN 202111557951 A CN202111557951 A CN 202111557951A CN 113941276 A CN113941276 A CN 113941276A
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mixing
powder
packaging
valve
elastic
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CN202111557951.5A
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CN113941276B (en
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段杨峰
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Puhui Ruixin Changzhou Nutrition Technology Co ltd
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Puhui Ruixin Changzhou Nutrition Technology Co ltd
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Abstract

The invention belongs to the technical field of powder mixing and packaging, and particularly relates to a mixing and packaging device for a milk powder nutrition enhancer. The device comprises: at least two mixing mechanisms; the compounding mechanism includes: an elliptical guide rail; a pair of revolution components; and an elastic balloon; and a pair of discharge valve assemblies; a discharge valve component of the current mixing mechanism is connected with a discharge valve component of the next mixing mechanism so as to send the powder into the elastic balloon of the next mixing mechanism and mix the powder with the powder in the elastic balloon; and at least one packaging mechanism which is arranged below any one of the mixing mechanisms and is suitable for receiving and packaging the powder. The device can disperse the nutrition enhancer in the current elastic balloon, and then sends the dispersed nutrition enhancer into another elastic balloon to be mixed with the dispersed milk powder in the elastic balloon, so that the mixing uniformity is greatly improved, and the mixed milk powder can be immediately packaged by a packaging mechanism.

Description

Milk powder nutrition enhancer compounding packing plant
Technical Field
The invention belongs to the technical field of powder mixing and packaging, and particularly relates to a mixing and packaging device for a milk powder nutrition enhancer.
Background
The nutrition enhancer is a natural or artificial food additive added into food for enhancing nutrient components or compensating the nutritional defects of the food, and as the most common nutritional supplement food, the milk powder also needs to be added with a plurality of nutrition enhancers.
The milk powder is generally spray-dried, and thus the temperature-sensitive nutrition enhancer can be added only to the dried milk powder. Compared with the method for mixing materials in a liquid state, when the solid nutrition enhancer is added into milk powder, because the mass ratio of the two is generally larger, a small amount of nutrition enhancer is usually added into a large amount of milk powder, and a large stirring device is usually adopted for mixing materials, local uneven mixing is very easy to occur, so that after packaging, more nutrition enhancers are contained in some packages, and less nutrition enhancers are contained in some packages, so that the product quality is influenced. The reason for this uneven mixing is that the milk powder is not completely dispersed and the fortifier cannot be dispersed into the dispersed milk powder.
Disclosure of Invention
The invention aims to provide a mixing and packaging device for a milk powder nutrition enhancer, which can add corresponding nutrition enhancers into dispersed milk powder, so that the milk powder and the nutrition enhancers are mixed more uniformly, and the nutrition enhancers in each package are uniform in proportion after the packages are packaged.
In order to solve the technical problems, the invention provides a mixing and packaging device for a milk powder nutrition enhancer, which comprises: at least two mixing mechanisms; the compounding mechanism includes: an elliptical guide rail; a pair of revolution components which are arranged on the elliptical guide rail and are symmetrical about the center of the elliptical guide rail; and a resilient bladder to which a pair of mixing valve assemblies are connected across the axis thereof for feeding through either mixing valve assembly; the mixing valve assemblies are respectively sleeved on the revolution assembly so that the elastic saccule can rotate when the revolution assembly revolves to shrink and expand, and powder in the elastic saccule is dispersed; the pair of discharge valve assemblies are connected to the elastic saccule and are positioned on the rotating shaft of the elastic saccule; a discharge valve component of the current mixing mechanism is connected with a discharge valve component of the next mixing mechanism so as to send the powder into the elastic balloon of the next mixing mechanism and mix the powder with the powder in the elastic balloon; and at least one packaging mechanism which is arranged below any one of the mixing mechanisms and is suitable for receiving and packaging the powder.
Further, the elliptical guide rail comprises: the device comprises an oval groove body and a track arranged on the outer side wall of the oval groove body; the revolution component comprises: the connecting block is connected with an electric sliding block matched with the track and a rolling shaft matched with the oval groove body; the rolling shaft extends into the elliptical groove body to form a pincer-shaped structure with the electric sliding block; and the electric sliding blocks of the revolution assemblies are electrically connected with the control module to synchronously slide and keep the central symmetry of the elliptic guide rails.
Further, milk power nutrition enhancer compounding packing plant still includes: the temporary storage tanks are arranged above the corresponding mixing mechanisms, and discharge ends of the temporary storage tanks are provided with discharge hoses and discharge electromagnetic rings arranged at ports of the discharge hoses; the connecting block is rotatably connected with a mixing valve sleeve; and said compounding valve assembly comprising: one end of the mixing pipe is communicated with the elastic balloon; the pair of limiting rings are arranged on the mixing pipe so as to limit the mixing pipe and the mixing valve sleeve; the mixing electromagnetic valve is arranged in the mixing pipe; the mixing hose is connected to the other end of the mixing pipe; the mixing magnetic ring is arranged at the port of the mixing hose; the control module is suitable for controlling the emptying electromagnetic ring to be electrified, adsorbing the material mixing magnetic ring and controlling the material mixing electromagnetic valve to be opened so that powder falls into the elastic balloon.
Further, the bleeder valve assembly comprises: one end of the discharge pipe is communicated with the elastic balloon, and the discharge pipe is coaxial with the rotation shaft of the elastic balloon; a discharge solenoid valve disposed in the discharge pipe; a discharge valve component of the current mixing mechanism is connected with a discharge valve component of the next mixing mechanism through a rotary joint; the control module is suitable for controlling the discharging electromagnetic valve of the current mixing mechanism and the adjacent discharging electromagnetic valve in the next mixing mechanism to be opened when the current elastic saccule contracts so as to send powder into the elastic saccule of the next mixing mechanism.
Further, the packaging mechanism includes: the packaging machine is provided with a packaging hose and a packaging electromagnetic ring arranged at the port of the packaging hose; the control module is suitable for controlling the packaging electromagnetic ring to be electrified, adsorbing the adjacent mixing magnetic ring and controlling the adjacent mixing electromagnetic valve to be opened so that the packaging machine can receive and package the powder.
Further, a feeding hose and a feeding electromagnetic ring arranged at the port of the feeding hose are arranged at the feeding end of the temporary storage tank; the feeding electromagnetic ring of the current mixing mechanism is suitable for being connected with the mixing magnetic ring of the previous mixing mechanism in an abutting mode; the control module is suitable for controlling the feeding electromagnetic ring to be electrified so as to adsorb the material mixing magnetic ring of the previous material mixing mechanism and control the material mixing electromagnetic valve to be opened so as to enable powder to fall into the temporary storage tank.
The invention has the advantages that the elastic saccule can be periodically contracted and expanded through the elliptical guide rail and the revolution component, the nutrition enhancers in the current elastic saccule are dispersed, and then the dispersed nutrition enhancers are sent into the other elastic saccule to be mixed with the milk powder dispersed in the elastic saccule, so that the nutrition enhancers can be dispersed into the dispersed milk powder, the mixing uniformity is greatly improved, and the mixed milk powder can be immediately packaged through a packaging mechanism.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.
FIG. 1 is a schematic structural diagram of a mixing and packaging device for a milk powder nutrition enhancer according to the present invention, which has two mixing mechanisms;
FIG. 2 is a close-up view of a mixing valve assembly of the milk powder fortifier mixing packaging unit of the present invention;
FIG. 3 is a partial enlarged view of the discharge valve assembly of the milk powder fortifier mixing packaging device of the present invention;
FIG. 4 is a schematic diagram of the contraction and expansion of the elastic balloon of the mixing and packaging device for milk powder nutrition enhancer of the invention;
FIG. 5 is a schematic diagram of an arrangement of the present invention where more than two mixing mechanisms are provided with the milk powder fortifier mixing packaging apparatus;
FIG. 6 is a control block diagram of the mixing and packaging device for milk powder nutrition enhancer of the present invention;
in the figure:
a material mixing mechanism 100;
an elliptical guide rail 200, an elliptical trough body 210, a track 220;
the revolving assembly 300, the connecting block 310, the electric slider 320, the roller 330 and the mixing valve sleeve 340;
an elastic balloon 400;
the mixing valve assembly 500, the mixing pipe 510, the limiting ring 520, the mixing electromagnetic valve 530, the mixing hose 540 and the mixing magnetic ring 550;
a discharge valve assembly 600, a discharge pipe 610, a discharge solenoid valve 620, and a rotary joint 630;
a packaging mechanism 700, a packaging machine 710, a packaging hose 720 and a packaging electromagnetic ring 730;
the temporary storage tank 800, a discharging hose 810, a discharging electromagnetic ring 820, a feeding hose 830 and a feeding electromagnetic ring 840;
the first mixing mechanism 910, the second mixing mechanism 920, the third mixing mechanism 930, the fourth mixing mechanism 940, the fifth mixing mechanism 950, the sixth mixing mechanism 960, the seventh mixing mechanism 970, and the eighth mixing mechanism 980.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments based on the embodiments of the present invention, which can be realized by a person skilled in the art without any inventive step, are within the scope of the present invention.
As shown in figure 1, the invention provides a milk powder nutrition enhancer mixing and packaging device, which comprises: at least two mixing mechanisms 100; the mixing mechanism 100 may include: an elliptical guide rail 200; a pair of revolution assemblies 300 provided on the elliptical guide rail 200, and symmetrical with respect to the center of the elliptical guide rail 200; and a resilient bladder 400 to which a pair of mixing valve assemblies 500 are attached across their axes for feeding through either mixing valve assembly 500; the pair of mixing valve assemblies 500 are respectively sleeved on one revolution assembly 300, so that the elastic saccule 400 rotates during revolution of the revolution assembly 300 to contract and expand, and powder in the elastic saccule 400 is dispersed; and a pair of bleeder valve assemblies 600 connected to the resilient bladder 400 and positioned on the rotation axis of the resilient bladder 400; a discharge valve assembly 600 of the current mixing mechanism 100 is connected with a discharge valve assembly 600 of the next mixing mechanism 100 to send the powder into the elastic balloon 400 of the next mixing mechanism 100 to be mixed with the powder therein; and at least one packing mechanism 700 disposed below any one of the mixing mechanisms 100 and adapted to receive and pack the powder. Each mixing mechanism 100 is provided with an elliptical guide rail 200 and two revolution assemblies 300, in this embodiment, the initial positions of the two revolution assemblies 300 are respectively located at twelve and six points as shown in fig. 1, the mixing valve assembly 500 sleeved on each revolution assembly 300 is also respectively located at twelve and six points as shown in fig. 4, the distance between the two revolution assemblies 300 is farthest, at this time, the elastic balloon 400 is in a stretched limit state, and the elastic balloon 400 is also contracted to a minimum state; when the two revolution assemblies 300 simultaneously run clockwise along the elliptical guide rail 200, the distance between the two revolution assemblies 300 is gradually reduced, the tensile force applied to the elastic balloon 400 is reduced, and the elastic balloon 400 starts to expand relative to the minimum state, and expands to the maximum state when the two revolution assemblies 300 are respectively positioned at three points and nine points, in this embodiment, the initial volume of the elastic balloon 400 is greater than the volume when the elastic balloon 400 expands to the maximum state, that is, the elastic balloon 400 is always in a stretched state, so as to ensure that the elastic balloon 400 smoothly expands to the maximum state; the two revolution assemblies 300 continue to clockwise move along the elliptical guide rails 200, the distance between the two revolution assemblies 300 is gradually enlarged, the tensile force borne by the elastic balloon 400 is increased, the elastic balloon starts to contract relative to the maximum state, and the elastic balloon contracts to the minimum state when the two revolution assemblies 300 are respectively positioned at six points and twelve points; similarly, in the process that the two revolution assemblies 300 continue to run clockwise along the elliptical guide rail 200, the elastic balloon 400 goes through the expansion process and the contraction process, and in the process that the two revolution assemblies 300 run for one circle, namely, revolution, the elastic balloon 400 also rotates along with the rotation, namely, rotates for two times, expands for two times, contracts for two times, and reverses for two times; the elastic balloon 400 is periodically contracted and expanded to disperse the nutrition enhancers in the current elastic balloon 400, and then the dispersed nutrition enhancers are sent into the other elastic balloon 400 to be mixed with the dispersed milk powder, so that the nutrition enhancers can be dispersed into the dispersed milk powder, the mixing uniformity is greatly improved, and the mixed milk powder can be packaged by the packaging mechanism 700.
As shown in fig. 2, the elliptical guide rail 200 may include: an oval slot body 210 and a track 220 disposed on an outer sidewall thereof; the revolution component 300 may include: a connecting block 310, on which an electric slider 320 adapted to the track 220 and a roller 330 adapted to the oval slot 210 are connected; the rolling shaft 330 extends into the oval groove 210 to form a pincer-shaped structure with the electric sliding block 320; as shown in fig. 6, the pair of electric sliders 320 of the revolution assembly 300 are electrically connected to the control module to slide synchronously, maintaining the central symmetry about the elliptical guide rail 200. In the present embodiment, the control module can be, but is not limited to, a PLC module, and the electric slider 320 can be, but is not limited to, a MR35 roller slider.
As shown in fig. 2, the milk powder nutrition enhancer mixing packaging device further comprises: at least two temporary storage tanks 800 which are arranged above the corresponding mixing mechanism 100, and discharge ends of the temporary storage tanks are provided with discharge hoses 810 and discharge electromagnetic rings 820 arranged at the ports of the discharge hoses 810; a mixing valve sleeve 340 is rotatably connected to the connecting block 310; and said mixing valve assembly 500 comprises: a mixing tube 510, one end of which communicates with the elastic balloon 400; a pair of limiting rings 520, which are arranged on the mixing pipe 510 to limit the mixing pipe 510 and the mixing valve sleeve 340; a mixing solenoid valve 530 disposed in the mixing pipe 510; a mixing hose 540 connected to the other end of the mixing pipe 510; a mixing magnetic ring 550 disposed at an end of the mixing hose 540; the control module is adapted to control the discharge electromagnetic ring 820 to be electrified, to adsorb the mixing magnetic ring 550, and to control the mixing electromagnetic valve 530 to be opened, so that the powder falls into the elastic balloon 400. In this embodiment, the mixing tube 510, the mixing valve sleeve 340 and the stop collar 520 are sized and positioned to ensure that the rotational axis of the resilient bladder 400 passes through the center of the elliptical guide track 200; the mixing valve sleeves 340 are rotatably connected with the connecting block 310, and the two electric sliding blocks 320 run on the track 220, namely, when revolving, the two mixing valve sleeves 340 can be ensured to be always aligned with the center of the elliptical guide rail 200, so that the elastic ball bag 400 is prevented from being torn when the electric sliding blocks 320 run to the position with larger radian of the elliptical guide rail 200; as shown in fig. 2, when the two electric sliders 320 move to twelve and six positions, the control module controls the two electric sliders 320 to stop, controls the discharge electromagnetic ring 820 to be electrified to adsorb the material mixing magnetic ring 550, controls the material mixing electromagnetic valve 530 to be opened, allows the powder in the temporary storage tank 800 to fall into the elastic balloon 400, controls the material mixing electromagnetic valve 530 to be closed, controls the discharge electromagnetic ring 820 to be powered off, separates the material mixing magnetic ring 550 from the discharge electromagnetic ring 820, and controls the two electric sliders 320 to move, as mentioned above, the elastic balloon 400 expands, and causes the gas in the elastic balloon to flow, so that the powder is dispersed in the expanded elastic balloon 400, and when the elastic balloon 400 contracts, the powder in the elastic balloon 400 gathers again, and the effect of scattering the agglomerated powder is achieved; and because the elastic balloon 400 can be turned upside down continuously, the powder can be turned over continuously.
As shown in fig. 3, the outlet valve assembly 600 may include: one end of the discharge pipe 610 is communicated with the elastic balloon 400, and the discharge pipe 610 is coaxial with the rotation shaft of the elastic balloon 400; a discharge solenoid valve 620 disposed in the discharge pipe 610; and a discharge valve assembly 600 of the current mixing mechanism 100 is connected with a discharge valve assembly 600 of the next mixing mechanism 100 through the rotary joint 630; the control module is adapted to control the discharging solenoid valve 620 of the current mixing mechanism 100 and the adjacent discharging solenoid valve 620 in the next mixing mechanism 100 to be opened when the current elastic balloon 400 contracts, so as to feed the powder into the elastic balloon 400 of the next mixing mechanism 100 without an additional conveying device. In this embodiment, referring to fig. 3, the elliptical guide rail 200 of the left mixing mechanism 100 is vertically arranged, the elliptical guide rail 200 of the right mixing mechanism 100 is horizontally arranged, the control module only needs to control the respective electric sliders 320 of the two mixing mechanisms 100 to respectively operate at the same speed from the initial positions of twelve points and six points, and after a preset number of turns of operation, when the elastic balloon 400 in the left mixing mechanism 100 contracts and the elastic balloon 400 in the right mixing mechanism 100 expands in the next turn, the control module controls the corresponding discharge solenoid valves 620 in the two mixing mechanisms 100 to open, so that the powder in the elastic balloon 400 in the left mixing mechanism 100, such as a nutrition enhancer, enters the elastic balloon 400 in the right mixing mechanism 100 along with the air flow, and is dispersed together with the powder gradually dispersed in the elastic balloon 400 during the expansion process, such as milk powder, when the elastic saccule 400 in the right mixing mechanism 100 contracts, the nutrition enhancer and the milk powder gather together; the control module controls the corresponding discharging electromagnetic valves 620 in the two mixing mechanisms 100 to be closed after the elastic saccule 400 in the left mixing mechanism 100 is shrunk to the minimum, and controls the electric sliding block 320 in the right mixing mechanism 100 to operate for a preset number of turns, so that the milk powder and the nutrition enhancer in the elastic saccule 400 are dispersed, gathered and turned for multiple times and are further mixed uniformly.
As shown in fig. 3, the packing mechanism 700 may include: a packaging machine 710, a packaging hose 720 and a packaging electromagnetic ring 730 arranged at the port of the packaging hose 720 are arranged at the feeding port of the packaging machine 710; the control module is adapted to control the wrapping solenoid 730 to be energized, to attract the adjacent mixing solenoid 550, and to control the adjacent mixing solenoid 530 to be opened, so that the wrapping machine 710 receives and wraps the powder. The packing machine 710 may directly employ a powdered milk packing machine.
As shown in fig. 2, a feeding hose 830 and a feeding electromagnetic ring 840 arranged at the end of the feeding hose 830 are arranged at the feeding end of the temporary storage tank 800; the feeding electromagnetic ring 840 of the current mixing mechanism 100 is adapted to be butted with the mixing magnetic ring 550 of the previous mixing mechanism 100; the control module is adapted to control the feeding electromagnetic ring 840 to be powered on so as to adsorb the material mixing magnetic ring 550 of the previous material mixing mechanism 100, and control the material mixing electromagnetic valve 530 to be opened so as to enable the powder to fall into the temporary storage tank 800. Fig. 5 shows an arrangement schematic diagram of the device when more than two mixing mechanisms are provided, in fig. 5, milk powder can be placed in the temporary storage tank 800 of the second mixing mechanism 920, multiple nutrition enhancers to be added can be placed in the temporary storage tanks 800 of the first mixing mechanism 910, the third mixing mechanism 930 and the fourth mixing mechanism 940, the control module can control the second mixing mechanism 920 and the third mixing mechanism 930 to receive the milk powder and the nutrition enhancers in the aforementioned manner, and then control the electric slider 320 to operate in the aforementioned manner, and when the elastic balloon 400 in the second mixing mechanism 920 contracts and the elastic balloon 400 in the third mixing mechanism expands, the control module controls the corresponding discharge electromagnetic valves 620 in the second mixing mechanism 920 and the third mixing mechanism 930 to open, so that the milk powder in the second mixing mechanism 920 is sent to the nutrition enhancers dispersed in the third mixing mechanism 930, and then disperses, and, Gathering, turning over, and mixing. When different types of milk powder are produced, according to the nutrition enhancer required to be added, the milk powder mixed with the nutrition enhancer in the third mixing mechanism 930 can be sent into the fourth mixing mechanism 940 in the same manner and mixed with the nutrition enhancer therein, and also can be directly sent into the temporary storage tank 800 of the seventh mixing mechanism 970 through the feeding hose 830 and the feeding electromagnetic ring 840 of the seventh mixing mechanism 970, and then mixed with the nutrition enhancer in the eighth mixing mechanism 980 and packaged. Milk powder in the second mixing mechanism 920 can also enter the fifth mixing mechanism 950 through the first mixing mechanism 910, and a corresponding nutrition enhancer can also be stored in the temporary storage tank 800 of the sixth mixing mechanism 960 to be added into the milk powder in the fifth mixing mechanism 950 for packaging. It should be noted that, if only the nutrition enhancer of the temporary storage tank 800 in the third mixing mechanism 930 needs to be added according to the production requirement, the elastic balloon 400 in the fourth mixing mechanism 940 may not receive the nutrition enhancer in the temporary storage tank 800 in the fourth mixing mechanism 940, and the milk powder is directly packaged after entering the fourth mixing mechanism 940.
In conclusion, the mixed material packaging device for the milk powder nutrition enhancer provided by the invention can make the elastic sacculus 400 generate periodic contraction and expansion through the elliptical guide rail 200 and the revolution component 300 so as to drive the powder in the elastic sacculus 400 to be correspondingly dispersed and gathered, break up the agglomerated powder, send the powder in the contracted elastic sacculus 400 into the expanded elastic sacculus 400 when one elastic sacculus 400 contracts and the other elastic sacculus 400 expands, disperse the two powder together, gather, disperse, reverse and fully mix the powder in the elastic sacculus 400; the powder after the mixing can also continue to get into another elasticity sacculus 400 with same mode in, with the powder mixing in it, this device possess high expansibility promptly, can set up a plurality of compounding mechanism 100 according to production needs, realizes the mixing of milk powder and the nutrition enhancer of required interpolation, can directly pack after the mixing, guarantees that nutrition enhancer proportion is unanimous in the milk powder of each packing.
In the embodiments provided in the present application, it should be understood that the disclosed system and apparatus may be implemented in other ways. The above-described embodiments are merely illustrative, and for example, the division of the mechanism is merely a logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In light of the foregoing description of the preferred embodiments of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a milk power nutrition enhancer compounding packing plant which characterized in that includes:
at least two mixing mechanisms (100);
the mixing mechanism (100) comprises:
an elliptical guide rail (200);
a pair of revolution assemblies (300) which are arranged on the elliptical guide rail (200) and are symmetrical about the center of the elliptical guide rail (200); and
a resilient bladder (400) to which a pair of mixing valve assemblies (500) are attached across their axes for feeding through either mixing valve assembly (500);
the mixing valve assemblies (500) are respectively sleeved on the revolution assembly (300) so that the elastic saccule (400) rotates when the revolution assembly (300) revolves to contract and expand, and powder in the elastic saccule (400) is dispersed; and
a pair of discharging valve assemblies (600) connected to the elastic saccule (400) and positioned on the rotation shaft of the elastic saccule (400);
a discharge valve component (600) of the current mixing mechanism (100) is connected with a discharge valve component (600) of the next mixing mechanism (100) so as to send the powder into the elastic ball bag (400) of the next mixing mechanism (100) and mix the powder with the powder in the elastic ball bag; and
at least one packaging mechanism (700) disposed below any one of the mixing mechanisms (100) and adapted to receive and package the powder.
2. The mixing and packaging device of milk powder nutrition enhancer as claimed in claim 1,
the elliptical guide rail (200) comprises:
an oval groove body (210) and a track (220) arranged on the outer side wall of the oval groove body;
the revolution component (300) comprises:
the connecting block (310) is connected with an electric sliding block (320) matched with the track (220) and a rolling shaft (330) matched with the oval groove body (210);
the rolling shaft (330) extends into the oval groove body (210) to form a pincer-shaped structure with the electric sliding block (320);
the electric sliding blocks (320) of the revolution component (300) are electrically connected with the control module to synchronously slide and keep the central symmetry of the elliptic guide rail (200).
3. The mixing and packaging device of milk powder nutrition enhancer as claimed in claim 2,
milk power nutrition enhancer compounding packing plant still includes: at least two temporary storage tanks (800) which are arranged above the corresponding mixing mechanism (100), and discharge ends of the temporary storage tanks are provided with discharge hoses (810) and discharge electromagnetic rings (820) arranged at the ports of the discharge hoses (810); and
a mixing valve sleeve (340) is rotatably connected to the connecting block (310); and
the mixing valve assembly (500) comprises:
a mixing tube (510) having one end communicating with the elastic balloon (400);
the pair of limiting rings (520) are arranged on the mixing pipe (510) so that the mixing pipe (510) and the mixing valve sleeve (340) form limiting;
a mixing solenoid valve (530) disposed in the mixing pipe (510);
a mixing hose (540) connected to the other end of the mixing pipe (510);
a mixing magnetic ring (550) disposed at a port of the mixing hose (540);
the control module is suitable for controlling the emptying electromagnetic ring (820) to be electrified, adsorbing the mixing magnetic ring (550) and controlling the mixing electromagnetic valve (530) to be opened, so that powder falls into the elastic balloon (400).
4. The mixing and packaging device of milk powder nutrition enhancer as claimed in claim 3,
the outfeed valve assembly (600) comprising:
one end of the discharge pipe (610) is communicated with the elastic balloon (400), and the discharge pipe (610) is coaxial with the rotation shaft of the elastic balloon (400);
a discharge solenoid valve (620) disposed in the discharge pipe (610); and
a discharge valve component (600) of the current mixing mechanism (100) is connected with a discharge valve component (600) of the next mixing mechanism (100) through a rotary joint (630);
the control module is suitable for controlling the discharging electromagnetic valve (620) of the current mixing mechanism (100) and the adjacent discharging electromagnetic valve (620) in the next mixing mechanism (100) to be opened when the current elastic saccule (400) contracts so as to send the powder into the elastic saccule (400) of the next mixing mechanism (100).
5. The mixing and packaging device of milk powder nutrition enhancer as claimed in claim 4,
the packaging mechanism (700) comprises:
the packaging machine (710) is provided with a packaging hose (720) and a packaging electromagnetic ring (730) arranged at the port of the packaging hose (720) at the feeding port;
the control module is suitable for controlling the packaging electromagnetic ring (730) to be electrified, adsorbing the adjacent mixing magnetic ring (550) and controlling the adjacent mixing electromagnetic valve (530) to be opened so that the packaging machine (710) receives and packages the powder.
6. The mixing and packaging device of milk powder nutrition enhancer as claimed in claim 5,
a feeding hose (830) and a feeding electromagnetic ring (840) arranged at the port of the feeding hose (830) are arranged at the feeding end of the temporary storage tank (800);
the feeding electromagnetic ring (840) of the current mixing mechanism (100) is suitable for being butted with the mixing magnetic ring (550) of the previous mixing mechanism (100);
the control module is suitable for controlling the feeding electromagnetic ring (840) to be electrified so as to adsorb the material mixing magnetic ring (550) of the previous material mixing mechanism (100) and controlling the material mixing electromagnetic valve (530) to be opened so as to enable powder to fall into the temporary storage tank (800).
CN202111557951.5A 2021-12-20 2021-12-20 Milk powder nutrition enhancer compounding packing plant Active CN113941276B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202111557951.5A CN113941276B (en) 2021-12-20 2021-12-20 Milk powder nutrition enhancer compounding packing plant

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Application Number Priority Date Filing Date Title
CN202111557951.5A CN113941276B (en) 2021-12-20 2021-12-20 Milk powder nutrition enhancer compounding packing plant

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CN113941276B CN113941276B (en) 2022-07-05

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN207760301U (en) * 2017-12-29 2018-08-24 平舆县益民洁净煤生产配送有限公司 It is a kind of to produce clean honeycomb device for coal using stalk mixture
CN112791660A (en) * 2021-04-16 2021-05-14 广州加泰医药科技有限公司 Vitamin effervescent tablet preparation raw material mixing and stirring equipment

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN207760301U (en) * 2017-12-29 2018-08-24 平舆县益民洁净煤生产配送有限公司 It is a kind of to produce clean honeycomb device for coal using stalk mixture
CN112791660A (en) * 2021-04-16 2021-05-14 广州加泰医药科技有限公司 Vitamin effervescent tablet preparation raw material mixing and stirring equipment

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