CN115944012A - Double-petal rose separation process equipment and method for producing scented tea by using same - Google Patents

Abstract

The invention discloses a separation process device for double-petal roses and a method for producing scented tea by applying the device, and mainly relates to the field of tea scenting. The device comprises separation equipment and mixing equipment, wherein the separation equipment is in butt joint with the mixing equipment and controls the separation equipment and the mixing equipment through a control terminal. The invention has the beneficial effects that: under the condition that workers do not need to manually separate the double-petal roses, carrying out petal separation on the roses, and further separating to obtain the roses at different layer positions; and when the scenting between the rose petals and the tea is carried out subsequently, the inner layer rose petals and the outer layer rose petals can be ensured to be mixed with the tea from different parts, so that the aromatic alcohol and aldehyde in the rose petals are effectively blended into the tea, and the scenting requirement between the rose petals and the tea is met.

Description

Double-petal rose separation process equipment and method for producing scented tea by using same

Technical Field

The invention relates to the field of tea scenting, in particular to a process and equipment for separating double-petal roses and a method for producing scented tea by applying the equipment.

Background

For roses, the roses contain various chemical components, such as aromatic alcohol, aldehyde and other chemical substances, and the roses are often eaten in rose products to soften liver, wake stomach, relax qi, activate blood circulation, maintain beauty, keep young and refresh people. The flowers and roots of the rose can be used as medicine, has the functions of regulating qi, promoting blood circulation, astringing and the like, and is mainly used for treating irregular menstruation, traumatic injury, liver qi and stomach pain, breast swelling and pain and other symptoms. The fruit pulp of rose fruit can be made into jam, and has special flavor, and the fruit contains abundant vitamin C and vitamin P, and can be used for preventing acute and chronic infectious diseases, coronary heart disease, liver disease and carcinogen. Of course, the most common method for making roses is to make rose tea, because the roses to be picked need to be cleaned and disinfected during the making of rose tea, and then the roses are scented with traditional tea after the cleaning is finished, so that the rose tea is prepared.

In the traditional preparation operation of the rose tea, the whole rose is used for preparing, the obtained whole flower of the rose is obtained, and workers need to carry out the split treatment of the rose, clean and disinfect the rose and tea leaves, and then the rose tea for brewing is prepared. However, the way that workers manually remove the rose petals completely is time-consuming, and the salary efficiency which can be achieved is also low; in addition, for roses, the types of aromatic alcohol and aromatic aldehyde contained between the inner petals and the outer petals are different, so that when the roses are subjected to scenting with the same temperature and tea leaves, the aromatic alcohol and aromatic aldehyde contained in one petal cannot be fully blended into the prepared tea leaves, and the flavor contained in the scented tea leaves is slightly lost. Meanwhile, for roses, the petals of the roses are easily damaged in a dry state, when the scenting is carried out between the roses and tea, a tea flower ventilation process is needed, when the temperature of a scenting stack rises to a certain height, the scenting stack is spread to dissipate heat and cool, and then the scenting stack is collected to continue the scenting; the problem of crushing and thinning of the rose petals easily occurs, incomplete rose petal scraps can be contained in the prepared tea, and further, when the prepared scented tea is brewed, a lot of petal scraps float on the upper layer of the water surface, so that the drinking experience of a drinker is influenced when the tea water is drunk.

Based on the problems, the method for separating the double-petal rose and the equipment for producing the scented tea by using the equipment are arranged, and under the condition that workers do not need to manually separate the double-petal rose, the rose petals are separated, so that the rose petals at different levels are obtained through separation; and when the scenting between the rose petals and the tea is carried out subsequently, the inner layer rose petals and the outer layer rose petals can be ensured to be mixed with the tea from different parts, so that the aromatic alcohol and aldehyde in the rose petals are effectively blended into the tea, and the scenting requirement between the rose petals and the tea is met.

Disclosure of Invention

The invention aims to provide a process device for separating double-petal roses and a method for producing scented tea by using the device, which can separate the petals of the rose without manual separation of the double-petal roses by workers, and further separate the petals of the rose to obtain different levels; and when the scenting between the rose petals and the tea is carried out subsequently, the inner layer rose petals and the outer layer rose petals can be ensured to be mixed with the tea from different parts, so that the aromatic alcohol and aldehyde in the rose petals are effectively blended into the tea, and the scenting requirement between the rose petals and the tea is met.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the separating equipment comprises separating equipment and mixing equipment, wherein the separating equipment is in butt joint connection with the mixing equipment, and the separating equipment and the mixing equipment are controlled by a control terminal;

separation equipment: the rose petal separating device comprises a separating chamber, wherein a heavy petal separating structure assembly is arranged in the separating chamber, the heavy petal separating structure assembly comprises a separating heating element and a separating acting element, the separating heating element heats the heavy petal rose, and acting force is generated on the outer layer of the heavy petal rose through the separating acting element to separate the petals of the heavy petal rose;

mixing equipment: the camellia mixing structure assembly is arranged in the mixing cavity and comprises a temperature control structure component and a mixing and stirring mechanism, wherein the temperature control structure component is arranged in the mixing cavity and is used for carrying out constant temperature control on the temperature in the mixing cavity; the camellia in the mixing chamber is mixed by the mixing and stirring mechanism.

The separation acting piece comprises a bearing substrate assembly and a distribution structure assembly; the bearing substrate assembly comprises a base substrate and an extrusion substrate, and the base substrate is connected with the feed inlet of the separation chamber; the extrusion substrate is arranged above the bearing substrate and is connected with a driving piece; the base plate is provided with a plurality of suction holes at equal intervals, the extrusion base plate is matched with the suction holes and provided with extrusion protrusions, and when the driving piece drives the extrusion base plate to move up and down, the extrusion protrusions are extruded to enter the positions of the suction holes.

A suction cavity is arranged below the base substrate in a matching manner, and a suction piece is connected to the suction cavity in a matching manner; when the rose falls into the suction hole of the base plate, the suction piece sucks air in the suction cavity, so that the rose at the suction hole is sucked into the suction cavity.

The distribution structure assembly comprises a distribution shell and an air inlet port, the upper end position of the distribution shell is connected with the lower port of the suction cavity, and the lower end position of the distribution shell is provided with a discharging port; the air inlet port is arranged on one side of the distribution shell, a discharge port is formed in the other side of the air inlet port, and a material receiving plate is arranged at the position of the discharge port in a matched mode; the air inlet port is connected with a blower mechanism, and after the rose petals fall from the suction cavity, the blower mechanism blows air into the distribution shell from the air inlet port to distribute the falling rose petals.

One side of the base substrate is provided with a traction push plate, the traction push plate is connected to the electric push rod, and the traction push plate is matched with the base substrate to be arranged.

The separation heating element is arranged in the separation chamber and is connected with a control terminal, and the separation heating element is controlled by the control terminal; the separation heating member is constant temperature heating electric heating wire, constant temperature heating electric heating wire evenly distributed sets up inside the separation cavity.

Mix the rabbling mechanism and set up in the mixing chamber, mix the rabbling mechanism including drive pivot, the stirring vane who is connected with the motor, stirring vane is helical structure, and two stirring vane be central symmetry with the drive pivot is connected.

The temperature control structural component is a constant temperature resistance wire, and the constant temperature resistance wire is arranged in the mixing chamber in an equidistant covering mode.

The method for producing the scented tea by using the double-petal rose separation process equipment is characterized by comprising the following steps of: the method comprises the following steps:

s1, adding rose flowers into a separation chamber, and heating the interior of the separation chamber by a separation heating element to keep the interior of the separation chamber at a certain temperature;

s2, the rose falls onto a base substrate in the separation chamber, and the electric push rod drives the traction push plate to move, so that the rose on the base of the substrate is pushed into a suction hole of the base substrate;

s3, when the rose is heated in the separation chamber for a period of time, the rose is in an open state, the extrusion base plate is pressed downwards, the extrusion bulge falls into the suction hole in the base plate of the base, and the rose in the suction hole is extruded;

s4, the suction piece generates suction force on the rose in the suction hole at the moment, the rose in the suction hole is sucked into the suction cavity, and the outer layer of the rose petals is separated from the rose by acting force during suction;

s5, when the outer petals and the inner flowers of the roses fall into the distribution shell, the air blowing mechanism blows air into the distribution shell from the inlet port position, so that the outer petals and the inner flowers of the roses in the falling state are subjected to the acting force of the flowing air;

s6, the light rose outer petals fall into a material receiving plate in the distribution shell and are distributed from a material outlet on one side of the distribution shell; while the heavier rose flowers on the inner layer are distributed at the position of a discharging port arranged at the lower end of the distributing shell;

s7, enabling the distributed rose petals to enter a mixing chamber, and enabling the mixing chamber to keep a certain temperature through setting a temperature control structure component;

s8, the motor drives the two stirring blades to rotate, when the stirring blades turn the tea leaves, the tea leaves slowly ascend along with the spiral stirring blades, when the tea leaves reach the highest position of the stirring blades, the spiral blades continuously rotate to enable the tea leaves to fall from the topmost position of the spiral blades and continuously cover the other spiral blade, and therefore the tea leaves continuously ascend and fall along with the other stirring blades, the overturning and stirring effect of the tea leaves is achieved, and the tea scenting operation is completed.

Compared with the prior art, the invention has the beneficial effects that:

1. this device is when setting up, and the setting through carrying out splitter separates the operation to the petal of rose for separate between the outer petal of rose and the inlayer petal, thereby make inlayer petal and outer petal can carry out the basement system with tealeaves respectively, in order to ensure that the tealeaves fragrance of rose petal basement system can reach the best, thereby make the tealeaves of rose petal basement system satisfy consumer's demand more, make the consumer experience better.

2. This device passes through mixing apparatus's setting, realizes that the scenting system between rose petal and the tealeaves mixes, through the setting of stirring mixing mechanism, can ensure when stirring the tealeaves of scenting system, can not cause destruction to tealeaves to ensure that more piece phenomenon can not appear in tealeaves, make tealeaves have better the appearance of steeping when steeping.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic diagram of the separation chamber structure of the present invention.

FIG. 3 is a schematic diagram of the separation chamber of the present invention.

FIG. 4 is a schematic diagram of the separation chamber of the present invention.

FIG. 5 is a schematic view of the matching structure of the pressing substrate and the base substrate according to the present invention.

Fig. 6 is a schematic structural view of the dispensing housing of the present invention.

Fig. 7 is a schematic structural view of the dispensing housing of the present invention.

Fig. 8 is a schematic structural view of the dispensing housing of the present invention.

FIG. 9 is a schematic view of the internal structure of the mixing chamber of the present invention.

FIG. 10 is a schematic view of the internal structure of the mixing chamber of the present invention.

Reference numerals shown in the drawings:

1. a separation chamber; 2. a mixing chamber; 3. a carrier substrate assembly; 4. a distribution structure component; 5. a base substrate; 6. extruding the substrate; 7. a feed inlet; 8. a drive member; 9. a suction hole; 10. extruding the bulge; 11. a suction lumen; 12. a distribution shell; 13. an air inlet port; 14. a blanking port; 15. a discharge port; 16. a material receiving plate; 17. pulling the push plate; 18. an electric push rod; 20. a stirring blade.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

The invention relates to a heavy rose separation process device, which comprises a main structure and a separation device, wherein the separation device is in butt joint with a mixing device, and is controlled by a control terminal; the separation equipment is used for carrying out the distinguishing and separating operation of the multiple layers of rose petals; the mixing equipment is used for mixing the rose petals and the tea leaves so as to meet the condition requirement of scenting the tea leaves; and for the control terminal, the separation equipment and the mixing equipment are controlled, so that the separation equipment and the mixing equipment meet the requirement of processing the rose petals.

The main technical problems to be solved for the separation apparatus are as follows:

traditional rose tea needs the staff to separate the petal of rose when preparing to central point in the rose is got rid of, and central point mainly is the stamen, shows for the filiform thing mostly. When the rose tea is prepared, the stamen filaments are removed as much as possible, so that the stamens of the filaments are prevented from scenting with the tea, and the stamens in the prepared rose tea are avoided. The pistils can float on the water surface when being brewed, so that very poor drinking mouthfeel can be brought when the rose tea is brewed; and when the separation operation of the rose petals is carried out, the phenomenon that the rose petals go out and are broken is avoided as much as possible, so that the scented tea is more complete after the rose petals and the tea are scented in sequence, and the drinking taste of the brewed tea cannot be influenced due to the existence of scraps. In the separation operation of the rose petals, the traditional manual operation mode does not need to consider the problem of flower breakage, because workers can twist the rose flowers with weak hand strength and then perform the separation operation of the rose flowers; however, in the mechanical separation method of the rose flowers, this is a first problem to be considered, because the mechanical separation method is difficult to twist the flowers apart by using a mild acting force like a manual work, and the crushing phenomenon of the rose petals is easily caused, so that the device for separating the rose petals needs to be arranged here, thereby meeting the requirement of multi-layer separation of the rose petals.

The main structural arrangements for the separation apparatus are as follows: including separation chamber 1 be provided with heavy lamella separation structure assembly in the separation chamber 1, heavy lamella separation structure assembly is including separating heating member, separation effect spare, the separation heating member heats heavy lamella rose, and passes through separation effect spare produces the effort to heavy lamella rose outer, with the separation of heavy lamella rose petal. The purpose of separating the multilayer roses from the rose petals is achieved by arranging the heavy petal separation structure assembly in the separation chamber 1, and the specific principle and structure arrangement is as follows: because the inner parts of the rose petals are provided with water, the water content of the inner petals is different from that of the outer petals, and when the rose petals lose water, the rose petals are shrunken, so that the bending strength of the rose petals is weakened, and the dehydrated rose petals are easier to bend under the action of external force; because the moisture content in the inner layer petals is different from that in the outer layer petals, and when the rose petals are heated to a certain degree, the moisture in the outer layer rose petals is evaporated firstly, so that the bending strength of the outer layer rose petals is lower than that of the inner layer rose petals; and when the rose flower received external environment heating, the state that the rose petal can appear blooming because being heated this moment, and the state that the flower was opened is slow moreover to receive ambient temperature to influence, consequently when heating the rose flower slowly, the bending strength of outer layer flower reduces and the flower is in the slow state of opening, so to this characteristic problem of rose, the setting of separating heating member and separation acting part is carried out. After the separation heating element is arranged, the rose flowers are heated by the separation heating element, so that water in the outer-layer rose petals is evaporated firstly, and the bending strength of the outer-layer rose petals is reduced; compared with the outer layer rose petals, the moisture in the inner layer rose petals is more difficult to evaporate outwards, and the bending strength is higher than that of the outer layer rose petals; and the rose is in an open state when heated, these require a separate heating element to determine the rate of evaporation of water from the outer rose petals. And after the separation heating element heats the rose petals for a period of time at a certain temperature, the rose petals are in the state, the separation acting element generates acting force on the rose petals, and the characteristic that the bending strength of the outer petals is higher than that of the inner petals is utilized to apply a certain acting force to the outer petals or the rose petals so as to separate the outer petals from the rose petals, so that the aim of separating the outer petals of the rose is fulfilled at first. The separation principle of the roses on the outer layers of the rose petals is that the following structures of the separation heating element and the separation acting element in the separation chamber 1 are arranged:

for the separation heating element, the separation heating element is arranged in the separation chamber 1, and the separation heating element is connected with a control terminal through which the separation heating element is controlled; more specifically, because the separation heating member needs stable messenger to keep certain temperature in the separation chamber 1 to make the separation heating member can be stable heat in the separation chamber 1, thereby make the outer petal of rose flower can effectively carry out the moisture evaporation in a certain time. Therefore, the separation heating element is a constant temperature heating electric heating wire which is uniformly distributed in the separation chamber 1; when setting up, need ensure that the rose in the separation cavity 1 is effectively heated to make the rose be in certain open mode within a certain period of time, consequently must here set up constant temperature heating resistor silk evenly distributed inside the separation cavity 1, and then ensure that each position temperature in the separation cavity 1 keeps under certain state, thereby avoid the rose of a certain position because the problem of being heated, and the unable or too big phenomenon of open mode of rose appears. The provision of the thermostatic heating resistance wire enables a certain constant temperature to be maintained in the separation chamber 1, and the thermostatic control of the separation heating element by the control terminal is also very common and easy to implement, and will not be explained in more detail here. Of course, as for the separate heating element here, other constant temperature heating devices can be adopted for setting so as to achieve the purpose of heating the rose flowers at constant temperature.

For the separating acting element, the separating operation is mainly carried out on the outer petals of the roses opened by the separating heating element. Under normal conditions, the mechanical equipment is difficult to realize the sectioning treatment on the rose petals, and the damage problem of the rose petals is easily caused; after the rose is heated by the separating and heating element, the rose is in an open state, and the separation action element is more convenient to perform petal separation operation on the rose.

Specifically, the separation acting element comprises a bearing substrate assembly 3 and a distribution structure assembly 4; the bearing substrate assembly 3 comprises a base substrate 5 and an extrusion substrate 6, wherein the base substrate 5 is connected with a feed port 7 of the separation chamber 1; the extrusion substrate 6 is arranged above the bearing substrate and is connected with a driving piece 8; the base plate 5 is provided with a plurality of suction holes 9 at equal intervals, the extrusion base plate 6 is matched with the suction holes 9 and provided with extrusion bulges 10, and when the driving piece 8 drives the extrusion base plate 6 to move up and down, the extrusion bulges 10 extrude to enter the suction holes 9. After the rose is heated by the separating heating element, the bending strength of the outer layer rose of the rose is reduced, so that the petals of the rose are easy to fall off from the main body of the rose after the rose is subjected to external force; when the rose petals fall off, the rose petals need to receive a certain acting force, the acting force is adaptive to the magnitude of the acting force of the outer layer of the rose petals to break away, the acting force is not adaptive to the magnitude of the acting force of the inner layer of the rose petals to break away, the outer layer of the rose petals can be broken away, and the inner layer of the rose petals cannot break away. Through carrying out the setting of bearing substrate subassembly 3, the realization carries out the application of effort to the rose petal after the drying, when setting up, and here is through connecting driving piece 8 on the extrusion base plate 6 for drive extrusion base plate 6 reciprocates, and bear and produce the effort between the base plate. After the rose flowers enter the bearing substrate from the position of the feed inlet 7 of the separation chamber 1 and fall into the suction hole 9 of the bearing substrate, the driving part 8 drives the extrusion substrate 6 to fall, so that the extrusion protrusion 10 on the extrusion substrate 6 falls into the suction hole 9 of the bearing substrate, and the extrusion protrusion 10 extrudes the rose flowers in the suction hole 9. Further, a suction cavity 11 is arranged below the base substrate 5 in a matching manner, and a suction member is connected to the suction cavity 11 in a matching manner; when the rose falls into the suction hole 9 of the base substrate 5, the suction member sucks air in the suction chamber 11, so that the rose at the suction hole 9 is sucked into the suction chamber 11. At this time, because the outer petals of the rose flower are easily bent after being heated, the rose flower passes through the suction hole 9 under the action of the suction piece, the squeezed rose flower is squeezed and pulled, the outer petals of the rose flower fall off and are simultaneously sucked into the suction cavity 11, and therefore the outer petals of the rose flower are separated from the rose flower. The structure is further arranged, when the suction holes 9 are arranged, the inner end face of each suction hole is arranged to be of a cambered surface structure, when the rose enters the positions of the suction holes 9 and passes through the positions of the suction holes 9, the outer petals of the rose can buffer the sucked acting force, and therefore the outer petals of the rose are prevented from being pulled by a large acting force to cause damage to the rose; simultaneously this moment also set up extrusion arch 10 into arc surface structure to after extrusion arch 10 falls into suction hole 9 inside, also retained certain clearance, in order to avoid the rose to receive the extrusion compression completely, thereby avoid causing the destruction problem to the inlayer petal of rose.

For the distribution structure component 4, the above-mentioned separated outer layer rose petals and inner layer petals are distributed by the distribution structure component 4. The specific structure of the distribution structure component 4 is set as follows: the distribution structure component 4 comprises a distribution shell 12 and an air inlet port 13, the upper end position of the distribution shell 12 is connected with the lower end port of the suction cavity 11, and the lower end position of the distribution shell 12 is provided with a discharging port 14; the air inlet port 13 is arranged on one side of the distribution shell 12, a discharge port 15 is formed in the other side of the air inlet port 13, and a material receiving plate 16 is arranged at the position of the discharge port 15 in a matched mode; the air inlet port 13 is connected with a blower mechanism, and after the rose petals fall down from the suction cavity 11, the blower mechanism blows air into the distribution shell 12 from the air inlet port 13 to distribute the falling rose petals. When the outer petals and the inner petals of the roses fall into the distributing shell 12, the air is blown into the distributing shell 12 from the inlet port by the blowing mechanism, the outer petals and the inner petals of the roses in the falling state are acted by flowing air, and the inner petals of the roses are gathered together due to the fact that the moisture content in the inner petals of the roses is high, and the weight of the inner petals of the roses is heavy; when the acting force of the outer petals of the rose is consistent with that of the inner flowers of the rose, the lighter outer petals of the rose and the inner flowers of the rose all perform parabolic motion, so that the lighter outer petals of the rose fall into the position of the material receiving plate 16 inside the distributing shell 12 and are distributed from the position of the material outlet 15 at one side of the distributing shell 12; while the heavier inner layer rose flowers are distributed at the position of a discharge port 14 arranged at the lower end of the distributing shell 12, thereby realizing the distributing function between the outer layer petals of the rose and the inner layer flowers of the rose. It should be noted here that, in the above-mentioned problem, how to make the rose flower effectively cover the position of the suction hole 9 of the base substrate 5, the following structural arrangement is made for this problem: a traction push plate 17 is arranged on one side of the base substrate 5, the traction push plate 17 is connected to an electric push rod 18, and the traction push plate 17 is matched with the base substrate 5 for arrangement. Because when the roses fall on the base substrate 5, the electric push rod 18 brings the traction push plate 17 to move, the traction push plate 17 pushes the roses to move on the base substrate 5, and when the roses are pushed to move, the roses fall into the suction holes 9 on the base substrate 5, so that the roses are uniformly distributed on the base substrate 5. For the extra rose, the base substrate 5 can be pushed out directly and received, and the rose in the received rose can be added to the inside of the separation chamber 1 again in a short time.

After the inner and outer petals of the rose flower are distinguished and separated, the scenting operation of the rose tea can be carried out. Because the scenting of tea needs to be performed at a certain temperature, and after the roses are distinguished, the inner and outer petals of the roses need to be scented at different temperatures respectively. However, when the scenting of the tea leaves is carried out, the tea leaves need to be turned over and mixed, and the tea leaves are easy to break after being dried to a certain degree, and the problem of uneven mixing is easy to occur. Therefore, the mixing equipment is arranged and comprises a mixing chamber 2, wherein a camellia mixing structure assembly is arranged in the mixing chamber 2 and comprises a temperature control structure component and a mixing and stirring mechanism, and the temperature control structure component is arranged in the mixing chamber 2 and is used for carrying out constant temperature control on the temperature in the mixing chamber 2; the camellia in the mixing chamber 2 is mixed by the mixing and stirring mechanism. When the mixing equipment is arranged, the temperature control structure component is arranged to keep a certain temperature in the mixing chamber 2, so that the temperature control structure component is a constant-temperature resistance wire which is arranged in the mixing chamber 2 in an evenly-spaced covering manner to ensure that the scenting requirement of the tea leaves is met at a constant temperature in the mixing chamber 2.

Further, mix rabbling mechanism and set up in mixing chamber 2, mix rabbling mechanism including the drive pivot, the stirring vane 20 that are connected with the motor, stirring vane 20 is helical structure, and two stirring vane 20 be central symmetry with the drive pivot is connected. Because the scented tea is very easy to break under the action of external force after the humidity reaches a certain degree, the two helical stirring blades 20 are arranged and the two stirring blades 20 are arranged in a central symmetry way; when the stirring blade 20 is used for stirring the tea leaves, the tea leaves slowly ascend along with the spiral stirring blade 20, and the problem of crushing cannot occur due to the fact that friction force on the tea leaves is small. When the tea leaves reach the highest position of the stirring blade 20, the spiral blade continuously rotates to enable the tea leaves to fall from the uppermost end position of the spiral blade and continuously cover the other spiral blade, so that the tea leaves continuously rise and fall along with the other stirring blade 20, and the tea leaves are turned and stirred under the condition that the tea leaves are not subjected to expansion friction.

9. A method for producing scented tea by using the double-petal rose separation process equipment of any one of claims 1 to 8, which is characterized in that: the method comprises the following steps:

s1, adding rose flowers into a separation chamber 1, and heating the separation chamber 1 by a separation heating element to keep the interior of the separation chamber 1 at a certain temperature;

s2, the rose falls down onto the base substrate 5 in the separation chamber 1, and at the moment, the electric push rod 18 drives the traction push plate 17 to move, so that the rose on the substrate base is pushed into the suction hole 9 of the base substrate 5;

s3, when the rose flowers are heated in the separation chamber 1 for a period of time, the rose flowers are in an open state, the extrusion base plate 6 is pressed downwards, the extrusion bulge 10 falls into the suction hole 9 on the base plate 5, and the rose flowers in the suction hole 9 are extruded;

s4, the suction piece generates suction force on the rose in the suction hole 9 at the moment, the rose in the suction hole 9 is sucked into the suction cavity 11, and the outer layer of the rose petals is separated from the rose by acting force during suction;

s5, when the outer petals and the inner flowers of the roses fall into the distribution shell 12, the air blowing mechanism blows air into the distribution shell 12 from the inlet port, so that the outer petals and the inner flowers of the roses in the falling state are subjected to the acting force of the flowing air;

s6, the lighter roses on the outer layer fall into a material receiving plate 16 inside the distribution shell 12 and are distributed from a material outlet 15 on one side of the distribution shell 12; while the heavier rose flowers on the inner layer are distributed at a discharging port 14 arranged at the lower end of the distributing shell 12;

s7, the distributed rose petals enter the mixing chamber 2, and a certain temperature is kept in the mixing chamber 2 through the arrangement of the temperature control structure component;

s8, the motor drives the two stirring blades 20 to rotate, when the stirring blades 20 turn the tea leaves, the tea leaves slowly ascend along with the spiral stirring blades 20, when the tea leaves reach the highest position of the stirring blades 20, the spiral blades continuously rotate to enable the tea leaves to fall from the topmost position of the spiral blades and continuously cover the other spiral blades, and therefore the tea leaves continuously ascend and fall along with the other stirring blades 20, the overturning and stirring effects of the tea leaves are achieved, and the tea scenting operation is completed.

Therefore, the arrangement of the double-petal rose separation process equipment and the method for producing scented tea by using the equipment can separate the petals of the rose without manual separation of the double-petal rose by workers, and then separate the petals of the rose to obtain the petals of the rose at different levels; and when the scenting between the rose petals and the tea is carried out subsequently, the inner layer and the outer layer of the rose petals and the tea can be ensured to be mixed from part to part, so that the aromatic alcohol and aldehyde in the rose petals are effectively blended into the tea, and the scenting requirement between the rose petals and the tea is met.

Claims (9)

1. Heavy lamella rose separation process equipment which characterized in that: the device comprises separation equipment and mixing equipment, wherein the separation equipment is in butt joint with the mixing equipment and controls the separation equipment and the mixing equipment through a control terminal;

separation equipment:

the rose petal separation device comprises a separation chamber (1), wherein a heavy petal separation structure assembly is arranged in the separation chamber (1), the heavy petal separation structure assembly comprises a separation heating element and a separation acting element, the separation heating element heats the heavy petal roses, and acting force is generated on the outer layers of the heavy petal roses through the separation acting element to separate the heavy petal roses;

mixing equipment:

the camellia mixing structure comprises a mixing chamber (2), wherein a camellia mixing structure assembly is arranged in the mixing chamber (2), the camellia mixing structure assembly comprises a temperature control structure component and a mixing and stirring mechanism, and the temperature control structure component is arranged in the mixing chamber (2) and is used for carrying out constant temperature control on the temperature in the mixing chamber (2); the camellia in the mixing chamber (2) is mixed by the mixing and stirring mechanism.

2. The rose petal separation process equipment of claim 1, wherein: the separation acting piece comprises a bearing base plate assembly (3) and a distribution structure assembly (4); the bearing substrate assembly (3) comprises a base substrate (5) and an extrusion substrate (6), wherein the base substrate (5) is connected with a feed port (7) of the separation chamber (1); the extrusion substrate (6) is arranged above the bearing substrate and is connected with a driving piece (8);

base plate (5) equidistant a plurality of suction holes (9) of being provided with, just the cooperation is in on extrusion base plate (6) suction hole (9) are provided with extrusion arch (10), work as driving piece (8) drive extrusion base plate (6) when reciprocating, extrusion arch (10) extrusion enters into suction hole (9) position.

3. The rose petal separation process equipment of claim 2, wherein: a suction cavity (11) is arranged below the base substrate (5) in a matching way, and a suction piece is connected to the suction cavity (11) in a matching way;

when the rose falls into the position of the suction hole (9) of the base substrate (5), the suction piece sucks air in the suction cavity (11), so that the rose at the position of the suction hole (9) is sucked into the suction cavity (11).

4. The double petal rose separation process equipment according to claim 3, wherein: the distribution structure component (4) comprises a distribution shell (12) and an air inlet port (13), the upper end position of the distribution shell (12) is connected with the lower port of the suction cavity (11), and the lower end position of the distribution shell (12) is provided with a discharging port (14);

the air inlet port (13) is arranged on one side of the distribution shell (12), a discharge port (15) is formed in the other side of the air inlet port (13), and a material receiving plate (16) is arranged at the position of the discharge port (15) in a matched mode;

air inlet port (13) are connected with the blast mechanism, and after the rose petal falls down from suction chamber (11), the blast mechanism blows in gas from air inlet port (13) position to allocate casing (12) inside, allocates the rose petal of whereabouts.

5. The rose separating process apparatus according to claim 4, wherein: one side of the base substrate (5) is provided with a traction push plate (17), the traction push plate (17) is connected to an electric push rod (18), and the traction push plate (17) is matched with the base substrate (5) to be arranged.

6. The rose separating process apparatus according to claim 5, wherein: the separation heating element is arranged in the separation chamber (1), and is connected with a control terminal, and the separation heating element is controlled by the control terminal; the separation heating member is constant temperature heating wire, constant temperature heating wire evenly distributed sets up inside separation cavity (1).

7. The rose separating process apparatus according to claim 1 or 6, characterized in that: mix rabbling mechanism and set up in mixing chamber (2), mix rabbling mechanism including the drive pivot, stirring vane (20) that are connected with the motor, stirring vane (20) are helical structure, and two stirring vane (20) be central symmetry with the drive pivot is connected.

8. The rose separating process apparatus of claim 7, wherein: the temperature control structural component is a constant temperature resistance wire, and the constant temperature resistance wire is arranged inside the mixing chamber (2) in an equidistant covering mode.

9. The method for producing scented tea by using the double petal rose separation process equipment of any one of claims 1 to 8, is characterized in that: the method comprises the following steps:

s1, adding rose flowers into a separation chamber (1), and heating the separation chamber (1) by a separation heating element to keep the interior of the separation chamber (1) at a certain temperature;

s2, the rose flowers fall onto a base substrate (5) in the separation chamber (1), at the moment, an electric push rod (18) drives a traction push plate (17) to move, and the rose flowers on the base of the substrate are pushed into a suction hole (9) of the base substrate (5);

s3, when the rose flowers are heated in the separation chamber (1) for a period of time, the rose flowers are in an open state, the extrusion base plate (6) is pressed downwards, the extrusion bulge (10) falls into the suction hole (9) on the base plate (5), and the rose flowers in the suction hole (9) are extruded;

s4, the suction piece generates suction force on the rose in the suction hole (9), the rose in the suction hole (9) is sucked into the suction cavity (11), and the outer layer of the rose petals is separated from the rose by acting force during suction;

s5, when the outer petals and the inner petals of the roses fall into the distribution shell (12), the air blowing mechanism blows air into the distribution shell (12) from the inlet port position, so that the outer petals and the inner petals of the roses in the falling state are subjected to the acting force of the flowing air;

s6, the light roses on the outer layer fall into a material receiving plate (16) in the distributing shell (12) and are distributed from a material outlet (15) on one side of the distributing shell (12); while the heavier rose flowers on the inner layer are distributed at a position of a feeding port (14) arranged at the lower end of the distributing shell (12);

s7, the distributed rose petals enter the mixing chamber (2), and a certain temperature is kept in the mixing chamber (2) through the arrangement of a temperature control structure component;

s8, the motor drives the two stirring blades (20) to rotate, when the stirring blades (20) turn over the tea, the tea slowly rises along with the spiral stirring blades (20), and when the tea reaches the highest position of the stirring blades (20), the spiral blades continuously rotate to enable the tea to fall from the topmost position of the spiral blades and continuously cover the other spiral blades, so that the tea continuously rises and falls along with the other stirring blades (20), the overturning and stirring effects of the tea are realized, and the tea scenting operation is completed.

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