CN105806055A

CN105806055A - Tea roasting device

Info

Publication number: CN105806055A
Application number: CN201610275751.3A
Authority: CN
Inventors: 陈美成
Original assignee: ZHENJIANG SUFENG TEA INDUSTRY TECHNOLOGY Co Ltd
Current assignee: Chongqing Xiushan Zhongling Tea Industry Co.,Ltd.
Priority date: 2016-04-29
Filing date: 2016-04-29
Publication date: 2016-07-27
Anticipated expiration: 2036-04-29
Also published as: CN105806055B

Abstract

The invention discloses a tea roasting device. In the tea roasting device, four supporting rolling wheels are rotationally connected to the two ends of a supporting frame in a pairwise mode; a heat preservation barrel is connected to the supporting frame; a roasting barrel is rotationally arranged inside the heat preservation barrel, and the two ends of the roasting barrel extend out of the heat preservation barrel and are supported on the supporting rolling wheels; an output shaft of a transmission motor is connected with a transmission gear; the transmission gear is engaged with a transmission tooth; a heat transmission pipe is arranged inside the roasting barrel, and the left end of the heat transmission pipe is arranged inside a heat source box body; connecting pipes are arranged on the circumferential wall of the heat transmission pipe, and an inner cavity of the heat transmission pipe communicates with a heating cavity through the connecting pipes; the heat source box body is arranged on the left side of the supporting frame; an air outlet of a draught fan communicates with an inner cavity of the heat source box body; and an electromagnetic heating unit and a steam heat exchanging unit are both arranged inside the heat source box body. According to the tea roasting device, the structure is simple, using and mass manufacturing are convenient, the moisture of fresh tea is evaporated, and meanwhile the damage to beneficial substances in the fresh tea is also reduced, so that the taste of the tea is better.

Description

A kind of Folium Camelliae sinensis fried dry device

Technical field:

The present invention relates to a kind of Folium Camelliae sinensis fried dry device.

Background technology:

Folium Camelliae sinensis fried dry is by the moisture in high temperature evaporation fresh Folium Camelliae sinensis so that Folium Camelliae sinensis deliquescing, it is simple to manages bar, shaping or kneads, being distributed by the not mature taste in fresh Folium Camelliae sinensis simultaneously, also can destroy and be passivated the oxidase active in fresh Folium Camelliae sinensis simultaneously.

The existing tea leaf frying machine overwhelming majority is drum-type, by Electric heating, the cylinder of this roasting machine is heated, thus the fried dry of the Folium Camelliae sinensis realized.The inlet temperature of existing cylinder type roosting machine, discharging opening temperature and bucket cavity temperature are roughly the same, and Folium Camelliae sinensis rolls in high-temperature region continuously, also can destroy the vitamin in Folium Camelliae sinensis and mineral while evaporation fresh Folium Camelliae sinensis moisture.

Therefore, necessary prior art improves to solve the deficiency of prior art.

Summary of the invention:

The present invention provides a kind of Folium Camelliae sinensis fried dry device to solve above-mentioned prior art Problems existing.

The technical solution adopted in the present invention has: a kind of Folium Camelliae sinensis fried dry device, including bracing frame, heat-preserving container, heat-transfer pipe, connecting tube, support roller, travelling gear, driving motor, blower fan, thermal source casing, Electromagnetic Heating unit, steam heat-exchanging unit and circumferential wall are provided with the fried dry bucket of driving cog, four described support rollers are one group between two is rotatably connected on the two ends, left and right of bracing frame respectively, heat-preserving container is fixedly connected on bracing frame, fried dry bucket rotates to be located in heat-preserving container, and the two ends of fried dry bucket stretch in respectively outside heat-preserving container and are supported on described support roller, driving motor is fixedly connected on the right-hand member of bracing frame, and output shaft and travelling gear are fixing is connected, travelling gear is meshed with described driving cog；It is formed with heating chamber between described fried dry bucket and heat-preserving container, heat-transfer pipe is placed in fried dry bucket, and left end stretches out and is placed in heat source case body outside fried dry bucket, connecting tube is fixedly connected in the circumferential wall of heat-transfer pipe, and the inner chamber of heat-transfer pipe is connected with described heating chamber by connecting tube；The left side of bracing frame is located at by described thermal source casing, and the intracavity inter-connection of the air outlet of blower fan and thermal source casing, Electromagnetic Heating unit and steam heat-exchanging unit are all located in heat source case body, and steam heat-exchanging unit is positioned at the right side of Electromagnetic Heating unit；

Described steam heat-exchanging unit includes steam input pipe road, condensate output transistor road, bending copper pipe and radiating fin, described radiating fin is fixed on bending copper pipe, what some described bending copper pipes were parallel to each other is located in heat source case body, and the two ends of every bending copper pipe are connected with steam input pipe road and condensate output transistor road respectively.

Further, described Electromagnetic Heating unit includes electromagnetic induction heater, sensing steel plate and conducting strip, the layering that some described conducting strips are parallel to each other is fixedly connected on sensing steel plate, two electromagnetic induction heaters are symmetrically fixed in heat source case body, sense Interal fixation described in two between two electromagnetic induction heaters.

Further, the circumferential wall of described heat-transfer pipe being fixedly connected with eight connecting tubes, every four connecting tubes are one group is fixedly connected on the left and right sides of heat-transfer pipe respectively.

Further, the internal chamber wall of described fried dry bucket is provided with helical form guide muscle.

Further, the left end port wall of described fried dry bucket is evenly equipped with four stock guides.

Further, described fried dry bucket is provided with heat radiation slotted eye, and described heat radiation slotted eye is provided with filter screen.

Further, described fried dry bucket is provided with roller groove.

Further, support frame as described above being fixedly connected with charging frame, the discharging opening of this charging frame stretches in fried dry bucket.

Further, described heat-preserving container outer circle wall is enclosed with insulating foam.

There is advantages that

Present configuration is simple, easy to use, it is simple to batch micro operations；The present invention also reduces the destruction of benefit materials in fresh Folium Camelliae sinensis while evaporation fresh Folium Camelliae sinensis moisture, so that the taste of Folium Camelliae sinensis is more preferably.

Accompanying drawing illustrates:

Fig. 1 is fried dry structure drawing of device of the present invention.

Fig. 2 is thermal source box house structure chart in fried dry device of the present invention.

Fig. 3 is the sectional view of Electromagnetic Heating unit in Fig. 2.

Fig. 4 is heat-preserving container cut-away view in fried dry device of the present invention.

Fig. 5 is the left view of Fig. 4 heat-preserving container internal structure.

Fig. 6 is the tomograph of fried dry bucket in fried dry device of the present invention.

Detailed description of the invention:

Below in conjunction with accompanying drawing, the present invention is further illustrated.

As shown in Figure 1, one Folium Camelliae sinensis fried dry device of the present invention, including bracing frame 1, heat-preserving container 21, heat-transfer pipe 23, support roller 31, travelling gear 32, driving motor 33, blower fan 51, thermal source casing 52, Electromagnetic Heating unit 6, steam heat-exchanging unit 7 and circumferential wall are provided with the fried dry bucket 22 of driving cog 220, four two ends, left and right supporting roller 31 to be a group between two be rotatably connected on respectively bracing frame 1, heat-preserving container 21 is fixedly connected on bracing frame 1, fried dry bucket 22 rotates to be located in heat-preserving container 21, and the two ends, left and right of fried dry bucket 22 all stretch in outside heat-preserving container 21, and be supported on the support roller 31 at bracing frame 1 two ends.Driving motor 33 is fixedly connected on the right-hand member of bracing frame 1, and the output shaft of driving motor 33 is fixed with travelling gear 32 and is connected, and travelling gear 32 is meshed with the driving cog 220 on fried dry bucket 22 and drives fried dry bucket 22 to rotate in heat-preserving container 21.The coaxial heart of heat-transfer pipe 23 stretches in fried dry bucket 22, and the left end of heat-transfer pipe 23 stretches out in the inner chamber being placed in thermal source casing 52 outside fried dry bucket 22.The intracavity inter-connection of the left side of bracing frame 1, the air outlet of blower fan 51 and thermal source casing 52 is located at by thermal source casing 52, and Electromagnetic Heating unit 6 and steam heat-exchanging unit 7 are all located in heat source case body 52, and steam heat-exchanging unit 7 is positioned at the right side of Electromagnetic Heating unit 6.In the present invention, the left end of fried dry bucket 22 is discharging opening, and right-hand member is charging aperture.

Such as Fig. 2 and Fig. 3, Electromagnetic Heating unit 6 in the present invention includes electromagnetic induction heater 61, sensing steel plate 62 and conducting strip 63, the layering that some conducting strips 63 are parallel to each other is fixedly connected on sensing steel plate 62, two electromagnetic induction heater 61 symmetries are fixed on the internal chamber wall of thermal source casing 52, and two blocks of sensing steel plates 62 being connected to conducting strip 63 are fixed on the internal chamber wall of thermal source casing 52 and between two electromagnetic induction heaters 61.The operation principle of the electromagnetic induction heater 61 in the present invention is identical with electromagnetic induction heater operation principle of the prior art, therefore no longer electromagnetic induction heater in the present invention 61 structure and principle of heating is repeated.

Steam heat-exchanging unit 7 in the present invention includes steam input pipe road 71, condensate output transistor road 72, bending copper pipe 73 and radiating fin 74, radiating fin 74 is fixedly connected on bending copper pipe 73, the layering that several bending copper pipes 73 being connected to radiating fin 74 are parallel to each other is fixedly connected in the inner chamber of thermal source casing 52, and the two ends of every bending copper pipe 73 are connected with steam input pipe road 71 and condensate output transistor road 72 respectively.

Such as Fig. 4, it is formed with heating chamber 200 between fried dry bucket 22 and heat-preserving container 21 in the present invention, for ease of the heat in heat-transfer pipe 23 is transferred in heating chamber 200, the circumferential wall of heat-transfer pipe 23 is fixed with eight connecting tubes 24, every four of these eight connecting tubes 24 are in one group of circumferential wall being distributed on heat-transfer pipe 23 side, and the intracavity inter-connection of one end of every connecting tube 24 and heat-transfer pipe 23, the other end is connected with heating chamber 200.Four connecting tubes 24 of heat-transfer pipe 23 upper left side form first thermal treatment zone I, and four connecting tubes 24 on right side form the 3rd thermal treatment zone III, form second thermal treatment zone II between left side connecting tube 24 and right side connecting tube 24.

The left end of heat-transfer pipe 23 is connected with thermal source casing 52, heat in thermal source casing 52 is transferred in fried dry bucket 22 through heat-transfer pipe 23, and in fried dry bucket 22, form the above three thermal treatment zone, wherein, the temperature of the 3rd thermal treatment zone III is lower than the temperature of second thermal treatment zone II, and the temperature of second thermal treatment zone II is lower than the temperature of first thermal treatment zone I.Fried dry device of the present invention is in use, Folium Camelliae sinensis is poured into from the right-hand member of fried dry bucket 22, fried dry bucket 22 rotates, Folium Camelliae sinensis sequentially passes through the three, the two, a thermal treatment zone, namely Folium Camelliae sinensis goes forward one by one from low to high in proper order through the temperature of the thermal treatment zone, also the destruction of benefit materials in fresh Folium Camelliae sinensis is reduced, so that the taste of Folium Camelliae sinensis is more preferably while evaporation fresh Folium Camelliae sinensis moisture.

Such as Fig. 5 and Fig. 6, the present invention moves to discharging opening direction in fried dry bucket 22 for ease of Folium Camelliae sinensis, is provided with helical form guide muscle 223 on the internal chamber wall of fried dry bucket 22.

The present invention draws off for ease of the Folium Camelliae sinensis in fried dry bucket 22, is evenly equipped with four stock guides 224 on the left end port wall of fried dry bucket 22.

Being provided with heat radiation slotted eye 225 on fried dry bucket 22, connecting tube 24 is connected with heating chamber 200 by this heat radiation slotted eye 225.For preventing the Folium Camelliae sinensis in fried dry bucket 22 from leaking to heating chamber 200, heat radiation slotted eye 225 is provided with filter screen (not shown in FIG.).

Contact with supporting roller 31 for ease of fried dry bucket 22, fried dry bucket 22 is provided with roller groove 226.

Being fixedly connected with charging frame 8 on bracing frame 1, the discharging opening of this charging frame 8 stretches in fried dry bucket 22.

The present invention increases the heat insulation effect of heat-preserving container 21, is enclosed with insulating foam (not shown in FIG.) on the outer circle wall of heat-preserving container 21.

The above is only the preferred embodiment of the present invention, it is noted that for those skilled in the art, can also make some improvement under the premise without departing from the principles of the invention, and these improvement also should be regarded as protection scope of the present invention.

Claims

null1. a Folium Camelliae sinensis fried dry device，It is characterized in that: include bracing frame (1)、Heat-preserving container (21)、Heat-transfer pipe (23)、Connecting tube (24)、Support roller (31)、Travelling gear (32)、Driving motor (33)、Blower fan (51)、Thermal source casing (52)、Electromagnetic Heating unit (6)、Steam heat-exchanging unit (7) and circumferential wall are provided with the fried dry bucket (22) of driving cog (220)，Four described support rollers (31) are one group between two is rotatably connected on the two ends, left and right of bracing frame (1) respectively，Heat-preserving container (21) is fixedly connected on bracing frame (1)，Fried dry bucket (22) rotates and is located in heat-preserving container (21)，And the two ends of fried dry bucket stretch in heat-preserving container (21) respectively and outward and are supported on described support roller (31)，Driving motor (33) is fixedly connected on the right-hand member of bracing frame (1)，And output shaft and travelling gear (32) are fixing is connected，Travelling gear (32) is meshed with described driving cog (220)；It is formed with heating chamber (200) between described fried dry bucket (22) and heat-preserving container (21), heat-transfer pipe (23) is placed in fried dry bucket (22), and left end stretches out and is placed in thermal source casing (52) outside fried dry bucket, connecting tube (24) is fixedly connected in the circumferential wall of heat-transfer pipe (23), and the inner chamber of heat-transfer pipe (23) is connected with described heating chamber (200) by connecting tube (24)；Described thermal source casing (52) is located at the left side of bracing frame (1), the intracavity inter-connection of the air outlet of blower fan (51) and thermal source casing (52), Electromagnetic Heating unit (6) and steam heat-exchanging unit (7) are all located in heat source case body (52), and steam heat-exchanging unit (7) is positioned at the right side of Electromagnetic Heating unit (6)；

Described steam heat-exchanging unit (7) includes steam input pipe road (71), condensate output transistor road (72), bending copper pipe (73) and radiating fin (74), described radiating fin (74) is fixed in bending copper pipe (73), what some described bending copper pipes (73) were parallel to each other is located in thermal source casing (52), and the two ends of every bending copper pipe (73) are connected with steam input pipe road (71) and condensate output transistor road (72) respectively.
2. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterized in that: described Electromagnetic Heating unit (6) includes electromagnetic induction heater (61), sensing steel plate (62) and conducting strip (63), the layering that some described conducting strips (63) are parallel to each other is fixedly connected in sensing steel plate (62), two electromagnetic induction heaters (61) are symmetrically fixed in thermal source casing (52), sense steel plate (62) and be fixed between two electromagnetic induction heaters (61) described in two.
3. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: being fixedly connected with eight connecting tubes (24) in the circumferential wall of described heat-transfer pipe (23), every four connecting tubes (24) are one group is fixedly connected on the left and right sides of heat-transfer pipe (23) respectively.
4. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: the internal chamber wall of described fried dry bucket (22) is provided with helical form guide muscle (223).
5. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: the left end port wall of described fried dry bucket (22) is evenly equipped with four stock guides (224).
6. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: described fried dry bucket (22) is provided with heat radiation slotted eye (225), and described heat radiation slotted eye (225) is provided with filter screen.
7. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: described fried dry bucket (22) is provided with roller groove (226).
8. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: being fixedly connected with charging frame (8) on support frame as described above (1), the discharging opening of this charging frame (8) stretches in fried dry bucket (22).
9. Folium Camelliae sinensis fried dry device as claimed in claim 1, it is characterised in that: described heat-preserving container (21) outer circle wall is enclosed with insulating foam.