CN109548898B

CN109548898B - Reciprocating circulation frying machine

Info

Publication number: CN109548898B
Application number: CN201811503763.2A
Authority: CN
Inventors: 温兴军
Original assignee: Lishui Wenji Tea Sales Co ltd
Current assignee: Lishui Wenji Tea Sales Co ltd
Priority date: 2018-12-10
Filing date: 2018-12-10
Publication date: 2024-06-28
Anticipated expiration: 2038-12-10
Also published as: CN109548898A

Abstract

The invention discloses a reciprocating circulation frying machine, which comprises a control cabinet, a frying machine main body, a particle burner and a conveying mechanism, wherein the frying machine main body comprises a support frame, a heat preservation cylinder, a support roller, a transmission gear, a gearbox, a transmission motor and a frying cylinder with transmission teeth at the front end, the inner wall of the frying cylinder is provided with a sectional spiral convex pattern, the wall of the frying cylinder is also provided with an interlayer, a temperature sensor is arranged in the interlayer positioned at the front end of the particle burner, and the front end of the frying cylinder is also provided with a signal transmitter connected with the temperature sensor; the invention can carry out reciprocating multiple automatic stir-frying on tea leaves, so that the stir-fried tea leaves have unique flavor, and can be suitable for stir-frying of various tea leaves.

Description

Reciprocating circulation frying machine

Technical Field

The invention relates to a reciprocating circulation frying machine.

Background

The stir-frying barrel of the drum-type stir-frying machine in the prior art is generally of an integral uniform heating structure, tea continuously rolls in a high-temperature area, vitamins and minerals in the tea can be destroyed while water in the tea is evaporated, the stir-fried tea has poor flavor, different types of tea can be processed, the stir-frying time and the heating temperature can be judged only according to the experience of a tea frying person, and the requirements on the tea frying process level of the tea frying person are high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a reciprocating circulation frying machine.

The technical scheme of the invention is as follows: a reciprocating circulation frying machine comprises a control cabinet, a frying machine main body, a particle burner and a conveying mechanism,

The main body of the frying machine comprises a supporting frame, a heat preservation cylinder, supporting rollers, a transmission gear, a gearbox, a transmission motor and a frying cylinder with transmission teeth at the front end, wherein the supporting frame is fixed at the lower end of the heat preservation cylinder, the supporting rollers are arranged at the tops of two ends of the supporting frame, the frying cylinder is inserted into the heat preservation cylinder and is rotationally connected above the two supporting rollers, the transmission gear is connected with the transmission motor through the gearbox, the transmission gear is meshed with the transmission teeth, a tea inlet and a tea outlet are respectively arranged at the front end and the rear end of the frying cylinder, a spiral convex line is further arranged on the inner wall of the frying cylinder, a feed hopper is arranged at the outer end of the feed hopper, a first fan is arranged at the tea inlet, a porous plate with a feed inlet is further arranged at the inner end of the feed hopper, the feed hopper is inserted into the frying cylinder through the feed inlet on the porous plate, a concave burner jack is arranged at the front end of the frying cylinder, a particle burner is inserted into the burner jack, a temperature sensor is further arranged at the wall of the frying cylinder, and the temperature sensor is further arranged at the front end of the sandwich layer, and the temperature sensor is further connected with the front end of the frying cylinder;

The particle burner comprises a burner chassis, a cover plate, an air inlet disc and a slag discharging cover, wherein the top and the bottom of the burner chassis are all open, through holes are densely distributed on the cover plate and are buckled on the top of the burner chassis, the air inlet disc is an annular air inlet disc and is fixed on the bottom of the burner chassis, the air inlet disc is connected with a fan, the slag discharging cover is a conical ring, the bottom of the slag discharging cover is inserted in the middle of the air inlet disc, a certain gap is kept between the top of the slag discharging cover and the cover plate, a particle fuel accommodating ring is obliquely arranged between the slag discharging cover and the burner chassis, the particle fuel accommodating ring is an arc-shaped ring formed by a steel wire net, a plurality of air outlets are arrayed on the top of the air inlet disc, each air outlet is arranged below the particle fuel accommodating ring, a feeding port of a spiral feeder is arranged on the side wall of the burner chassis on the higher side of the particle fuel accommodating ring, and an ignition needle is arranged on the side wall of the burner chassis on the lower side of the particle fuel accommodating ring;

the particle burner with the structure is arranged in the frying machine to directly heat the roller, so that heat loss is avoided, and the particle burner has the advantages of high combustion rate and quick heating;

The tea leaf drying machine is characterized in that the conveying mechanism consists of a parallel conveying crawler machine, a slope crawler machine and a vibrating conveyor which are sequentially connected into an inverted concave shape, the parallel conveying crawler machine is longitudinally arranged below a tea outlet of the drying barrel, the lower end of the slope crawler machine is arranged below a tea outlet end of the parallel conveying crawler machine, the lower end of the slope crawler machine and the other end of the parallel conveying crawler machine are also provided with a baffle plate which is obliquely arranged, the bottom of the baffle plate is provided with a hairbrush, the vibrating conveyor consists of a frame, a conveying groove and a vibration starting mechanism, the upper end of the conveying groove is arranged below the tea outlet end of the slope crawler machine and is rotationally connected with the frame, the lower end of the conveying groove is connected with the frame through a spring, the vibration starting mechanism is composed of a driving motor, an eccentric disc and a connecting rod, the eccentric disc is fixed below the frame, the output shaft of the motor is fixed on the frame, the output shaft of the eccentric disc is obliquely arranged on the frame, the output shaft of the motor is also connected with the eccentric disc is further connected with the fan through the eccentric disc, and the fan is further connected with the fan on the frame through the eccentric disc, and the fan is further connected with the bottom of the frame through the eccentric disc, and the fan is arranged on the frame, and the fan is connected with the position of the second fan;

The conveying mechanism with the structure can circularly convey the tea leaves into the frying machine for frying, and can discharge the scraps out of the machine body in the conveying process, so that the final quality of the tea leaves is improved;

The gearbox, the first fan, the particle burner, the signal transmitter, the fan, the spiral feeder, the parallel conveying crawler, the slope crawler conveyor, the vibration conveyor, the second fan and the third fan are all connected with the control cabinet.

Further, the particle burner further comprises a shielding cover, the shielding cover is composed of a cylindrical shielding cover main body and a peripheral shielding disc, the shielding cover main body and the peripheral shielding disc are both composed of fine steel wire meshes, the shielding cover main body is abutted between the slag discharging cover and the cover plate, the outer side of the peripheral shielding disc is abutted with the inner wall of the burner chassis, and the ignition needle and the feeding port are arranged below the peripheral shielding disc.

Further, the apertures of the shield body and the peripheral shield disk are smaller than the apertures of the pellet fuel containment ring.

Further, the two sides of the baffle are fixed on the parallel conveying crawler belt conveyor or the slope crawler belt conveyor through the adjusting knob, and the hairbrush is abutted with the crawler belt of the parallel conveying crawler belt conveyor or the slope crawler belt conveyor.

The beneficial effects of the invention are as follows: compared with the existing frying machine with the whole frying cylinder uniformly heated, the invention only heats the front end of the frying cylinder, so that the tea has the continuous processes of quick frying, heat preservation and cooling in the single frying process, simulates the traditional tea frying method, and can carry out reciprocating and multiple times of automatic frying on the tea, so that the fried tea has unique flavor, and can be suitable for frying of various tea types.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a schematic structural view of a main body of the frying machine according to the present invention;

FIG. 3 is a schematic view of the structure of the pellet burner of the present invention;

FIG. 4 is a schematic view of the vibrating conveyor of the present invention;

fig. 5 is a schematic view of the structure of the baffle plate of the present invention.

Detailed Description

The technical scheme of the invention is further specifically described below through examples and with reference to the accompanying drawings.

As shown in fig. 1, a reciprocating circulation frying machine comprises a control cabinet, a frying machine body 1, a particle burner 2 and a conveying mechanism,

The main body of the frying machine is shown in fig. 2, and comprises a supporting frame 3, a heat-preserving cylinder 4, supporting rollers 5, a transmission gear 6, a gearbox 7, a transmission motor 8 and a frying cylinder 9 with transmission teeth at the front end, wherein the supporting frame 3 is fixed at the lower end of the heat-preserving cylinder 4, the supporting rollers 5 are arranged at the tops of the two ends of the supporting frame 3, the frying cylinder 8 is inserted into the heat-preserving cylinder 4 and is rotationally connected above the two supporting rollers 5, the transmission gear 6 is connected with the transmission motor 8 through the gearbox 7, the transmission gear 6 is meshed with the transmission teeth, a tea inlet and a tea outlet are respectively arranged at the front end and the rear end of the frying cylinder 9, a spiral convex pattern 10 is also arranged on the inner wall of the frying cylinder 9, a feed hopper 11 is arranged at the outer end of the feed hopper 11, a porous plate 13 with a feed inlet is also arranged on the tea inlet, the inner end of the feed hopper 11 is inserted into the frying cylinder 9 through the feed inlet on the porous plate 13, a combustor 14 is also arranged at the front end of the combustor 15 of the combustor, a combustor 15 is also arranged at the combustor 15, and the combustor 15 is arranged at the front end of the combustor 15 of the combustor liner is also connected with the combustor 15;

the raised lines on the inner wall of the frying cylinder 9 are divided into an area A, an area B and an area C according to the tightness degree, the tightness degree of the area A, the tightness degree of the area B and the tightness degree of the area C are gradually decreased, and the higher the tightness degree of the raised lines, the longer the tea leaves stay in the area; the area A is arranged above the particle burner 2, and tea leaves roll rapidly in the area to be heated uniformly, dehydrated rapidly and excite the fragrance of the tea leaves; the position of the B area close to the particle burner 2 is a heat preservation area for preventing the high-heat tea from getting damp and softening; the C area is an output area, tea leaves pass through the area quickly and exchange heat with the wall of the frying cylinder 9 with relatively low temperature, and the tea leaves are output after being cooled;

The particle burner is shown in fig. 3, and comprises a burner chassis 17, a cover plate 18, an air inlet disc 19 and a slag cover 20, wherein the top and the bottom of the burner chassis 17 are all open, through holes are densely distributed on the cover plate 18 and are buckled on the top of the burner chassis 17, the air inlet disc 19 is an annular air inlet disc and is fixed on the bottom of the burner chassis 17, the air inlet disc 19 is connected with a fan, the slag cover 20 is a conical ring, the bottom of the slag cover 20 is inserted in the middle of the air inlet disc 19, a certain gap is kept between the top of the slag cover 20 and the cover plate 18, a particle fuel accommodating ring 21 is obliquely arranged between the slag cover 20 and the burner chassis 17, the particle fuel accommodating ring 21 is an arc-shaped ring formed by a steel wire mesh, a plurality of air outlets 22 are arrayed on the top of the air inlet disc 19, each air outlet 22 is arranged below the particle fuel accommodating ring 21, a feeding screw 24 is arranged on the side wall of the burner chassis 17 on the higher side of the particle fuel accommodating ring 21, and a firing pin 25 is arranged on the side wall of the burner chassis 17 on the lower side of the particle fuel accommodating ring 21;

Referring to fig. 1, fig. 4, and fig. 5, the conveying mechanism is composed of a parallel conveying crawler 26, a slope crawler 27 and a vibration conveyor 28 which are sequentially connected in an inverted concave shape, the parallel conveying crawler 26 is longitudinally arranged below a tea outlet of the stir-frying drum 9, one end of the slope crawler 27 is arranged below a tea outlet end of the parallel conveying crawler 26, one end of the slope crawler 27 and the other end of the parallel conveying crawler 26 are both provided with a baffle 29 which is obliquely arranged, the bottom of the baffle 29 is provided with a brush 38, the vibration conveyor 28 is composed of a frame 30, a conveying groove 31 which is obliquely arranged on the frame 30, and a vibration starting mechanism, one end of the conveying groove 31 is arranged below the tea outlet end of the slope crawler 31 and is rotationally connected with the frame 30, one end of the conveying groove 31 is connected with the frame 30 through a spring 32 and is arranged above the tea outlet end of the feed hopper 11, the vibration starting mechanism is composed of a motor 33 and a driving table 34 which is fixedly connected with the frame 34, the eccentric table 34 is fixedly arranged above the frame 30 through a driving table 34, and the eccentric table 34 is fixedly connected with the frame 30 through a driving table 39, and the eccentric table 34 is fixedly arranged above the frame 30, and is fixedly connected with the eccentric table 34, and the eccentric table 34 is fixedly arranged on the frame 30 through the eccentric table 30, and the eccentric table is fixedly arranged at the eccentric table 30, and is positioned at the eccentric table 30, and is fixed with the eccentric table 34, and is fixed by the eccentric table is positioned at the eccentric table 30;

The gearbox 7, the first fan 12, the pellet burner 2, the signal emitter 16, the fan, the screw feeder 23, the parallel conveyor belt 26, the ramp belt conveyor 27, the vibrating conveyor 28, the second fan 39 and the third fan 41 are all connected to a control cabinet.

Further, the particle burner 2 further comprises a shielding cover, the shielding cover is composed of a cylindrical shielding cover main body 42 and a peripheral shielding disc 43, the shielding cover main body 42 and the peripheral shielding disc 43 are both composed of fine steel wire meshes, the shielding cover main body 42 is abutted between the slag discharging cover 20 and the cover plate 18, the outer side of the peripheral shielding disc 42 is abutted with the inner wall of the burner chassis 17, and the ignition needle 25 and the feeding port 24 are arranged below the peripheral shielding disc 43.

Further, the apertures of the shield body 42 and the peripheral shield disk 43 are smaller than the apertures of the pellet fuel containment ring 21.

Further, both sides of the baffle 29 are fixed on the parallel conveying crawler 26 or the slope crawler 27 through adjusting knobs, and the brush 38 is abutted against the crawler of the parallel conveying crawler 26 or the slope crawler 27.

When the automatic tea leaf drying machine works, the parallel conveying crawler, the slope crawler conveyor and the vibrating conveyor circularly convey tea leaves into the drying machine, the fan blows the tea leaves on the feeding hopper to the drying barrel, the tea leaves uniformly fall into the rotating drying barrel through the tea falling port, the burner is arranged at the front end of the drying barrel, so that the drying barrel is provided with obvious temperature segmentation, the air blown by the fan can quickly blow out damp and hot air through the small Kong Chuiguo drying barrel on the porous plate, the second fan is arranged at one side of the tea outlet of the drying machine, on one hand, the tea leaves are quickly cooled, the tea leaves are blown away as much as possible, and part of scattered chips are blown to one side of the parallel conveying crawler machine provided with the baffle plate, and the chips are blown out of the parallel conveying crawler machine along with the gradient of the baffle plate, and the brush at the bottom of the baffle plate can effectively prevent complete tea leaves from being blown out from the bottom of the baffle plate; the baffle plate on the slope crawler conveyor also mainly plays a role in blocking tea leaves from falling along with the gradient of the crawler; when the tea leaves are conveyed onto the vibrating conveyor, the tea leaves are basically and completely cooled and slide down onto a feed hopper of the frying machine along with the vibration of the conveying groove, when the tea leaves shake up and down along with the vibration of the conveying groove, the adhered chips are shaken off, the first fan blows the chips out of the conveying groove, the tea leaves with higher quality enter the frying machine for repeated frying,

The working principle of the particle burner is as follows: the granular fuel rolls from the feeding port to the granular fuel containing ring, the granular fuel is gradually piled up from lower to higher, the ignition needle ignites the granular fuel, meanwhile, the air outlet of the fan is used for upward air-out to support combustion, the granular fuel is blown up by the air to roll in an annular cavity formed by the granular fuel containing ring, the burner chassis, the slag cover and the baffle cover to fully burn, the flame is directly sprayed upwards from the cover plate to heat the roller, the fuel particles in the combustion are impacted and crushed until the fuel particles become powdery waste residues, the powder waste residues are blown up by the air to be discharged out of the burner through the slag cover or the cover plate,

Meanwhile, the control cabinet can control the conveying speed of the conveyor, the rotating speed of the frying cylinder and the wind speed of the fan, and adjust the feeding speed of the electric fuel conveyor according to the data fed back by the temperature sensor to control the frying temperature,

Compared with the existing frying machine with the whole frying barrel uniformly heated, the invention can fry the tea repeatedly, imitates the traditional tea frying method, ensures that the fried tea has unique flavor, and can be suitable for frying various tea types.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The utility model provides a reciprocal circulation fry dry machine, includes switch board, fry dry machine main part, granule combustor and conveying mechanism, its characterized in that:

the gearbox, the first fan, the particle burner, the signal transmitter, the fan, the spiral feeder, the parallel conveying crawler, the slope crawler conveyor, the vibration conveyor, the second fan and the third fan are all connected with the control cabinet;

The particle burner further comprises a shielding cover, the shielding cover is composed of a cylindrical shielding cover main body and a peripheral shielding disc, the shielding cover main body and the peripheral shielding disc are both composed of fine steel wire meshes, the shielding cover main body is abutted between the slag discharging cover and the cover plate, the outer side of the peripheral shielding disc is abutted with the inner wall of the burner chassis, and the ignition needle and the feeding port are arranged below the peripheral shielding disc;

The two sides of the baffle are fixed on the parallel conveying crawler belt conveyor or the slope crawler belt conveyor through the adjusting knob, and the hairbrush is abutted with the crawler belt of the parallel conveying crawler belt conveyor or the slope crawler belt conveyor.

2. A reciprocating cycle fryer according to claim 1, wherein: the aperture on the shield body and the peripheral shield disk is smaller than the aperture on the particulate fuel containment ring.