CN107333952B - White chrysanthemum device that completes - Google Patents

Abstract

The invention relates to the technical field of tea substitute manufacturing, in particular to a white chrysanthemum water-removing device which comprises a box body, wherein a stirring unit, a steam unit and a rolling unit are arranged in the box body; the stirring unit comprises an outer sleeve, an inner sleeve, a stirring motor and a screw rod for stirring the white chrysanthemum; the bottom of the inner sleeve is connected with a screen plate in a sliding way, and an isolation layer is formed between the screen plate and the inner sleeve; the steam unit comprises a heating box for heating water and a steam guide mechanism; the twisting unit comprises a rotating motor, an eccentric wheel, a swinging mechanism and a discharging channel. The technical scheme can effectively prevent white chrysanthemum petals from rolling and contracting into conglobate particles, improve the shape of the white chrysanthemum, and promote the fragrance of the white chrysanthemum, thereby improving the quality of the white chrysanthemum.

Description

White chrysanthemum device that completes

Technical Field

The invention relates to the technical field of tea substitute manufacturing, in particular to a white chrysanthemum enzyme deactivating device.

Background

The flos Chrysanthemi has effects of dispelling pathogenic wind heat, removing liver fire for improving eyesight, and removing toxic substance, and can be used for preventing and treating wind-heat type common cold, headache, giddiness, conjunctival congestion, swelling and pain, etc. The flavonoids substances contained in the white chrysanthemum have the effects of expanding blood vessels and reducing blood pressure, so the chrysanthemum tea is more suitable for patients with hypertension, and has mild and lasting blood pressure reducing effect and extremely high drinking value after being drunk for a long time. The traditional processing method of the white chrysanthemum comprises three steps: first, upper dam: steaming dam flower uniformly; secondly, steaming: placing dam steamed food in a cooker, covering the cooker, and steaming uniformly with fire; and thirdly, solarization: and (4) placing the steamed flowers on a solarization tool for solarization. The traditional processing method not only consumes a large amount of manpower and operation sites, but also has lower working efficiency and is not suitable for mass production.

In order to solve the problems, a mechanized processing method of the white chrysanthemum gradually appears: picking, checking and accepting, screening, subpackaging, deactivating enzyme, drying, grading, selecting, packaging, ex-factory inspection and warehousing, wherein the processing procedure which has the greatest influence on the quality of the white chrysanthemum is the deactivating step. The main purpose of the water-removing step is to destroy and inactivate the oxidase activity in the petals at high temperature, inhibit the enzymatic oxidation of tea polyphenol and the like in the petals, evaporate water in the petal parts, soften the petals and promote the formation of good fragrance. At present, the white chrysanthemum is mostly a roller fixation machine in the equipment that the step of completing, installs many spiral guide vane plates in the barrel of current roller fixation, installs the heating blower device outside the barrel, and at the rotatory in-process of barrel, the white chrysanthemum is stirred and hot-blast heating is in order to reach the biological enzyme in the passivation petal and the purpose of completing of dehydration.

However, when the existing roller water removing machine is adopted for water removing, petals of the white chrysanthemum are easy to be rolled and contracted into conglobate particles along with stamens, the shape of the white chrysanthemum is influenced, the subsequent drying process is difficult, moisture in the white chrysanthemum is not easy to be diffused, yellowing or water stuffiness are easy to occur, the prepared white chrysanthemum has heavy fragrance and low quality.

Disclosure of Invention

The invention aims to provide a white chrysanthemum de-enzyming device which can effectively prevent white chrysanthemum petals from rolling and contracting into conglobate particles, improve the shape of the white chrysanthemum and promote the fragrance of the white chrysanthemum, thereby improving the quality of the white chrysanthemum.

In order to achieve the above purpose, the basic scheme of the invention is as follows: a white chrysanthemum enzyme deactivating device comprises a box body, wherein a stirring unit, a steam unit and a rolling unit are arranged in the box body; the stirring unit comprises an outer sleeve, an inner sleeve, a stirring motor and a screw rod for stirring the white chrysanthemum; an interlayer for containing steam is formed between the outer sleeve and the inner sleeve, and a feeding port and a discharging port are arranged between the outer sleeve and the inner sleeve; the bottom of the inner sleeve is connected with a screen plate in a sliding way, and an isolation layer is formed between the screen plate and the inner sleeve; an output shaft of the stirring motor is connected with the screw rod, and the screw rod penetrates through the inner sleeve; the steam unit comprises a heating box for heating water and a steam guide mechanism for guiding steam in the heating box into the interlayer or the isolation layer, and the steam guide mechanism can enable the screen plate to move upwards; the rolling unit comprises a rotating motor, an eccentric wheel, a swinging mechanism and a discharging channel; an output shaft of the rotating motor is connected with the eccentric wheel; a twisting area is formed between the eccentric wheel and the inner wall of the box body; one end of the swinging mechanism is connected with the eccentric wheel, the other end of the swinging mechanism is connected with the heating box, and the swinging mechanism is used for converting the circular motion of the eccentric wheel into the up-and-down motion of the heating box; one end of the discharge channel is communicated with the discharge port, and the other end of the discharge channel is used for feeding the white chrysanthemum into the rolling area.

The working principle of the technical scheme is as follows: firstly, operating a heating box, heating water until steam is generated, and then throwing the white chrysanthemum to be enzyme-deactivated into an inner sleeve from a feed inlet; starting a stirring motor and a rotating motor, wherein the stirring motor works to drive a screw rod to rotate, and the rotating motor works to drive an eccentric wheel to rotate; circular motion is made to the eccentric wheel, through swing mechanism's transmission for the heater box is done and is reciprocated, and the vapour mechanism that leads who is connected with the heater box also follows and does and reciprocate, and when leading vapour mechanism rebound, the otter board rebound, the steam that produces in the heater box gets into the isolation layer from leading vapour mechanism, and when leading vapour mechanism rebound, the steam that produces in the heater box gets into the intermediate layer from leading vapour mechanism, and the otter board moves down under self action of gravity. Steam entering the interlayer heats the inner sleeve by steam, and the steam entering the isolation layer passes through the mesh plate and enters the inner sleeve to contact and attach to the feverfew in the inner sleeve. After the white chrysanthemum is de-enzymed in the inner sleeve, the white chrysanthemum is led out to a discharge hole by a screw rod and then enters a rolling area from a discharge channel; the eccentric wheel rotates to slightly knead and loosen the white chrysanthemum entering the kneading and twisting area; and after the rolling is finished, the white chrysanthemum falls into the bottom of the box body, and the water-removing process is finished.

The beneficial effects of the above technical scheme are that:

1. adopt hot-blast direct contact feverfew to carry out the mode of heating among the prior art to compare, this technical scheme adopts the steam heating inner skleeve in the intermediate layer, and the high temperature of rethread inner skleeve carries out indirect heating up, heating to the feverfew, can effectively avoid the feverfew to take place to lose water, the shrink is curled under hot-blast effect, realizes reaching the purpose of losing water, completing under the high temperature effect, effectively prevents simultaneously that the feverfew from taking place the shrink curly and conglobation, helps promoting the feverfew quality.

2. Thereby compare with the mode that adopts among the prior art to let sleeve direct rotation derive the feverfew, this technical scheme lets the hob that runs through the inner skleeve rotate, utilizes the screw action of hob to make the feverfew derive from the discharge gate, and under the stirring effect of hob, the feverfew is difficult to take place the shrink owing to receive the physical collision effect and curls, helps promoting the feverfew quality.

3. Some steam among this technical scheme can pass through the isolation layer, the otter board gets into contact feverfew in the inner skleeve, let feverfew's surface attachment steam, can further prevent the feverfew because inside excessive desiccation warp, the shrink, the agglomeration, simultaneously because the setting of isolation layer, make the steam that comes out from steam guide mechanism can not contact with the feverfew at once, and contact the feverfew in the buffering reentrant inner skleeve through the isolation layer, can prevent effectively that the feverfew from adsorbing the too much influence effect of completing of steam, help promoting the feverfew quality.

4. Get into behind discharging channel from the feverfew of discharge gate derivation among this technical scheme and knead the district, when the eccentric wheel rotated, can slightly extrude, massage the feverfew that lies in between box inner wall and the eccentric wheel, let the volume of feverfew to a certain extent grow, further effectively prevent the feverfew conglobation, still help subsequent stoving work to go on smoothly, prevent that feverfew moisture is difficult for giving off and produce vexed yellow etc. the feverfew of preparation is fragrant.

5. When the steam guide mechanism in the technical scheme enables the screen plate to move upwards, the screen plate drives the white chrysanthemum in the inner sleeve above the screen plate to move upwards; when the steam guide mechanism moves downwards, the screen plate drives the white chrysanthemum in the inner sleeve above the screen plate to move downwards under the action of the self gravity; the above steps are repeated in a circulating way, so that a certain vibration effect is exerted on the white chrysanthemum, and the white chrysanthemum can be further prevented from shrinking and agglomerating.

The first preferred scheme is as follows: as the preferred scheme of the basic scheme, the swing mechanism comprises a swing beat, a connecting piece, a supporting table and a swing rod, wherein one end of the swing beat is connected with the eccentric wheel in a circumferential rotation manner, and the other end of the swing beat is hinged with the connecting piece; one end of the connecting piece is hinged with the box body, and the other end of the connecting piece is hinged with the supporting platform; one end of the swing rod is hinged with the box body, and the other end of the swing rod is hinged with the supporting platform; the support table is connected with the heating box in a sliding mode. The eccentric wheel rotates, drives the swing bat and swings, and the connecting piece also swings then, and the brace table reciprocates under the effect of connecting piece, swinging arms to make the heating cabinet also follow reciprocating motion. The rotation of the eccentric wheel is ingeniously utilized through the connection of the swing mechanism, so that the heating box and the steam guide mechanism carry out reciprocating motion, and the use of a power device is effective.

The preferred scheme II is as follows: as the preferable scheme of the basic scheme, the discharge channel comprises a vertical channel and an inclined plate arranged in the box body; the vertical channel is communicated with the discharge hole; one end of the inclined plate is communicated with the vertical channel, and the other end of the inclined plate is positioned above the twisting area. The white chrysanthemum is led out from the discharge hole, enters the inclined plate from the vertical channel under the action of self gravity, slides to the upper part of the twisting area from the inclined plate and falls into the twisting area for twisting. The vertical channel has a certain guiding effect on the white chrysanthemum, the inclined plates play a certain sorting effect on the white chrysanthemum, the white chrysanthemum falling from the discharge port can be prevented from being gathered into a pile to enter a rolling area, and the rolling effect is better.

The preferable scheme is three: as a preferred scheme of the first preferred scheme, the steam guide mechanism comprises a gas guide pipe, a nozzle and a push rod which are connected in sequence; the air guide pipe is communicated with the heating box and is in up-and-down sliding connection with the bottom of the outer sleeve; the bottom of the inner sleeve is provided with a through hole, and the nozzle can enter the interlayer or the isolation layer through the through hole; the free end of the mandril can make the mesh plate move upwards. Steam in the heating box enters the nozzle from the air duct and then is sprayed out from the nozzle, so that the steam is easier to lead out; the bottom of the air duct and the bottom of the outer sleeve are connected in a vertically sliding mode, the air duct can slide vertically along the outer sleeve under the action of the swing mechanism, and therefore the ejector rod enables the screen plate to move vertically upwards, the screen plate cannot be inclined upwards to push against the screen plate, and the screen plate is stable in operation.

The preferable scheme is four: as a preferable scheme of the basic scheme, the preferable scheme one, the preferable scheme two and the preferable scheme three, a plurality of stirring strips are arranged on the screw rod. The stirring strip has better stirring effect on the white chrysanthemum, better fixation effect and better effect of preventing the white chrysanthemum from aggregating.

The preferable scheme is five: as a preferable mode of the fourth preferable mode, a soft brush is arranged at the end part of the stirring bar. The soft brush can smooth and comb the petals of the white chrysanthemum to a certain degree, so that the petals of the white chrysanthemum are prevented from being knotted, and the formed white chrysanthemum has a better shape.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a feverfew enzyme deactivation device of the invention.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a box body 1, an outer sleeve 2, an inner sleeve 20, an interlayer 21, a stirring motor 3, a screw rod 30, a stirring bar 300, a soft brush 301, a feeding port 22, a discharging port 23, a screen plate 4, an isolation layer 40, an air guide pipe 41, a nozzle 42, a top rod 43, a heating box 44, an eccentric wheel 5, a swinging racket 50, a connecting piece 51, a supporting platform 52, a swinging rod 53, a vertical channel 6 and an inclined plate 60.

The embodiment is basically as shown in the attached figure 1: a white chrysanthemum green removing device comprises a box body 1, wherein a stirring unit, a steam unit and a rolling unit are arranged in the box body 1. The stirring unit comprises an outer sleeve 2, an inner sleeve 20, a stirring motor 3 and a screw rod 30 for stirring the white chrysanthemum; an interlayer 21 for containing steam is formed between the outer sleeve 2 and the inner sleeve 20, and a feeding port 22 and a discharging port 23 are arranged between the outer sleeve 2 and the inner sleeve 20; the bottom of the inner sleeve 20 is connected with a mesh plate 4 in a sliding way, an isolation layer 40 is formed between the mesh plate 4 and the inner sleeve 20, wherein the mesh plate 4 and the inner sleeve 20 are connected in a sliding way: grooves are formed in two ends of the inner wall of the inner sleeve 20, and convex strips are additionally arranged at two ends of the screen plate 4 and are connected with the grooves in a sliding mode; a tension spring is arranged between the screen plate 4 and the inner sleeve 20 so that the screen plate 4 can be positioned at the bottom of the groove; the output shaft and the hob 30 of agitator motor 3 are connected, and hob 30 transversely runs through inner skleeve 20 to derive the feverfew from inner skleeve 20, is equipped with a plurality of stirring strips 300 on hob 30, and the tip of stirring strip 300 is equipped with soft brush 301, carries out compliance of certain degree, combs with the petal to the feverfew.

The steam unit comprises a heating box 44 for heating water and a steam guide mechanism, wherein an electric heater is arranged in the heating box 44, and a water source is externally connected; the number of the steam guide mechanisms can be set according to the size of the barrel of the inner sleeve 20, and four steam guide mechanisms are arranged in the embodiment. The steam guide mechanism is used for guiding steam in the heating box 44 into the interlayer 21 or the isolation layer 40 and comprises a gas guide pipe 41, a nozzle 42 and a push rod 43 which are connected in sequence; the air duct 41 is communicated with the heating box 44, and the bottom of the outer sleeve 2 is provided with a hole, so that the air duct 41 can be connected with the outer sleeve 2 in a vertical sliding manner; the bottom of the inner sleeve 20 is provided with a through hole, and the nozzle 42 can pass through the through hole from the interlayer 21 to the isolation layer 40 or from the isolation layer 40 to the interlayer 21; the free end of the jack 43 can move the net plate 4 upward.

The rolling unit comprises a rotating motor, an eccentric wheel 5, a swinging mechanism and a discharging channel; the output shaft of the rotating motor is connected with the eccentric wheel 5; the eccentric wheel 5 is parallel to the inner wall of the box body 1, and a twisting area is formed between the eccentric wheel and the inner wall of the box body 1; the swinging mechanism comprises a swinging racket 50, a connecting piece 51, a supporting table 52 and a swinging rod 53, one end of the swinging racket 50 is connected with the edge of the eccentric wheel 5 in a circumferential rotating way, and the other end of the swinging racket is hinged with the connecting piece 51; one end of the connecting piece 51 is hinged with the box body 1, and the other end is hinged with the supporting platform 52; one end of the swinging rod 53 is hinged with the box body 1, and the other end is hinged with the supporting platform 52; a quadrangle is formed among the connecting piece 51, the supporting platform 52, the swinging rod 53 and the inner wall of the box body 1; the support table 52 is slidably connected to the heating box 44, so that the circular motion of the eccentric wheel 5 is converted into the up-and-down motion of the heating box 44 by the swing mechanism. The discharging channel comprises a vertical channel 6 and an inclined plate 60 arranged in the box body 1; the vertical channel 6 is communicated with the discharge hole 23; the inclined plate 60 has one end communicating with the vertical channel 6 and the other end positioned above the kneading zone, thereby feeding the feverfew discharged from the discharge port 23 into the kneading zone.

When the water-saving pot is used, the heating box 44 works firstly, water is heated until steam is generated, and then the white chrysanthemum needing to be de-enzymed is thrown into the inner sleeve 20 from the feeding port 22; starting the stirring motor 3 and the rotating motor, wherein the stirring motor 3 works to drive the screw rod 30 to rotate, and the rotating motor works to drive the eccentric wheel 5 to rotate. The eccentric wheel 5 does circular motion to drive the swinging racket 50 to swing, the connecting piece 51 swings, and the supporting platform 52 swings back and forth under the action of the connecting piece 51 and the swinging rod 53, so that the heating box 44 and the steam guide mechanism move up and down; when the ejector rod 43 of the steam guide mechanism moves upwards, the screen plate 4 moves upwards, the nozzle 42 moves upwards to the isolation layer 40, steam generated in the heating box 44 enters the isolation layer 40 through the air guide pipe 41 and the nozzle 42, when the heating box 44 moves downwards, the nozzle 42 moves downwards to the interlayer 21, steam generated in the heating box 44 enters the interlayer 21, and the screen plate 4 moves downwards under the dual functions of self gravity and the tension spring. The steam entering the interlayer 21 heats the inner sleeve 20 with steam, and the steam entering the insulation layer 40 passes through the mesh plate 4 and enters the inner sleeve 20 to contact and adhere to the feverfew in the inner sleeve 20. The white chrysanthemum is stirred by the stirring strips 300 in the inner sleeve 20, combed by the soft brush 301, stirred by the screw rod 30 and heated by the inner sleeve 20, and then de-enzymed, finally guided out to the discharge port 23 by the screw rod 30, and guided out from the discharge port 23, enters the inclined plate 60 from the vertical channel 6 under the action of self gravity, slides to the upper part of the rolling area from the inclined plate 60, and falls into the rolling area for rolling; the eccentric wheel 5 rotates to slightly knead and loosen the white chrysanthemum entering the kneading and twisting area; after the rolling is finished, the white chrysanthemum falls into the bottom of the box body 1, and the water-removing process is finished.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (6)

1. A white chrysanthemum green removing device comprises a box body, and is characterized in that a stirring unit, a steam unit and a rolling unit are arranged in the box body; the stirring unit comprises an outer sleeve, an inner sleeve, a stirring motor and a screw rod for stirring the white chrysanthemum; an interlayer for containing steam is formed between the outer sleeve and the inner sleeve, and a feeding port and a discharging port are formed between the outer sleeve and the inner sleeve; the bottom of the inner sleeve is connected with a screen plate in a sliding manner, and an isolation layer is formed between the screen plate and the inner sleeve; an output shaft of the stirring motor is connected with a screw rod, and the screw rod penetrates through the inner sleeve; the steam unit comprises a heating box for heating water and a steam guide mechanism for guiding steam in the heating box into the interlayer or the isolation layer, and the steam guide mechanism can enable the mesh plate to move upwards; the rolling unit comprises a rotating motor, an eccentric wheel, a swinging mechanism and a discharging channel; an output shaft of the rotating motor is connected with an eccentric wheel; a twisting area is formed between the eccentric wheel and the inner wall of the box body; one end of the swinging mechanism is connected with the eccentric wheel, the other end of the swinging mechanism is connected with the heating box, and the swinging mechanism is used for converting the circular motion of the eccentric wheel into the up-and-down motion of the heating box; one end of the discharge channel is communicated with the discharge hole, and the other end of the discharge channel is used for feeding the white chrysanthemum into the rolling area.

2. The chrysanthemum morifolium water-removing device as claimed in claim 1, wherein the swing mechanism comprises a swing paddle, a connecting piece, a supporting platform and a swing rod, one end of the swing paddle is connected with the eccentric wheel in a circumferential rotation manner, and the other end of the swing paddle is hinged with the connecting piece; one end of the connecting piece is hinged with the box body, and the other end of the connecting piece is hinged with the supporting platform; one end of the swinging rod is hinged with the box body, and the other end of the swinging rod is hinged with the supporting platform; the supporting table is connected with the heating box in a sliding mode.

3. The feverfew enzyme deactivating device according to claim 1, wherein the discharging channel comprises a vertical channel and an inclined plate arranged in the box body; the vertical channel is communicated with the discharge hole; one end of the inclined plate is communicated with the vertical channel, and the other end of the inclined plate is positioned above the twisting area.

4. The feverfew enzyme deactivating device according to claim 2, wherein the steam guide mechanism comprises a gas guide pipe, a nozzle and a top rod which are connected in sequence; the air guide pipe is communicated with the heating box and is connected with the bottom of the outer sleeve in a vertical sliding manner; the bottom of the inner sleeve is provided with a through hole, and the nozzle can enter the interlayer or the isolation layer through the through hole; the free end of the ejector rod can enable the mesh plate to move upwards.

5. The feverfew enzyme deactivating device according to any one of claims 1 to 4, wherein the screw rod is provided with a plurality of stirring bars.

6. The feverfew enzyme deactivating device according to claim 5, wherein a soft brush is provided at an end of the stirring bar.

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