CN106417726B

CN106417726B - Automatic rolling machine set without falling to ground

Info

Publication number: CN106417726B
Application number: CN201610854634.2A
Authority: CN
Inventors: 姚朝响
Original assignee: Fujian Qilinshan Tea Industry Development Co ltd
Current assignee: Fujian Qilinshan Tea Industry Development Co ltd
Priority date: 2016-09-27
Filing date: 2016-09-27
Publication date: 2023-08-01
Anticipated expiration: 2036-09-27
Also published as: CN106417726A

Abstract

The invention relates to an automatic floor-free rolling machine set, which comprises a rolling mechanism, a feeding mechanism and a drying mechanism; the twisting mechanism comprises a roller, wherein the roller comprises a plurality of rotary drums which are sequentially clamped up and down and rotate independently; the opening at the upper end of the rotary drum is positioned below the discharge hole of the feeding mechanism, and a rubber ring is sleeved on the outer surface of the rotary drum; the rotating shaft is positioned at the periphery of the rotating drum; a plurality of rotors with different diameters are sleeved on the rotating shaft corresponding to the rotating drum; the rotor is abutted against the outer side surfaces of the rubber rings with different thicknesses; the rotating shaft is connected with the driving motor; the driving motor is in electrical signal connection with a controller; a plurality of wind blades are vertically arranged on the inner wall of the rotary drum; a main conveyor belt is arranged below the roller; the rolling mechanism and the drying mechanism are sequentially positioned in the feeding direction of the main conveyor belt; the drying mechanism is positioned above the main conveyor belt.

Description

Automatic rolling machine set without falling to ground

Technical Field

The invention relates to an automatic floor-falling-preventing rolling machine set, and belongs to the field of tea machinery.

Background

In the existing tea leaf rubbing and sorting machine, the circular motion of the rubbing and sorting barrel is adopted to enable tea leaves to complete rubbing and sorting strip forming operation between the rubbing and sorting disc and the pressing disc, the pressure of part of tea leaves cannot be well mastered, the contact is mostly rigid contact, the broken tea rate is high, the existing rubbing and sorting machine cannot realize continuous automatic rubbing and sorting operation, and the tea leaf rubbing and sorting machine is difficult to complete fast rubbing and sorting operation, so that the quality of tea is affected, and the production efficiency is low.

Disclosure of Invention

In order to solve the technical problems, the invention provides the automatic non-falling rolling machine set, and the tea can be rolled into a row without rigid contact through the rolling mechanism, so that the broken tea rate is reduced, the rolling speed is increased, the quality of the tea is improved, and the production efficiency is improved.

The technical scheme of the invention is as follows:

an automatic non-falling rolling machine set comprises a rolling mechanism, a feeding mechanism and a drying mechanism; the twisting mechanism comprises a roller, wherein the roller comprises a plurality of rotary drums which are sequentially clamped up and down and rotate independently; the opening at the upper end of the rotary drum is positioned below the discharge hole of the feeding mechanism, and a rubber ring is sleeved on the outer surface of the rotary drum; the rotating shaft is positioned at the periphery of the rotating drum; a plurality of rotors with different diameters are sleeved on the rotating shaft corresponding to the rotating drum; the rotor is abutted against the outer side surfaces of the rubber rings with different thicknesses; the rotating shaft is connected with the driving motor; the driving motor is in electrical signal connection with a controller; a plurality of wind blades are vertically arranged on the inner wall of the rotary drum; a main conveyor belt is arranged below the roller; the rolling mechanism and the drying mechanism are sequentially positioned in the feeding direction of the main conveyor belt; the drying mechanism is positioned above the main conveyor belt.

Wherein, the twisting mechanism is provided with a plurality of rollers which are staggered up and down, and a mesh plate is obliquely arranged between the upper and lower adjacent rollers; one end of the mesh plate is connected with the discharge port of the last roller, and the other end of the mesh plate is connected with the feed port of the next roller; the lower surface of the mesh plate is provided with a vibrator which is connected with the controller through an electric signal; a first conveyor belt is arranged below the mesh plates, and is connected with a slag discharging pipe which is communicated with a collecting tank; the main conveyor belt material bearing end is positioned at one side of the first conveyor belt and positioned at the discharge port of the roller at the lowest part.

Wherein, the inner side of the fan blade is provided with a cylindrical wire netting.

The upper end of the rotary drum is provided with an annular clamping groove, and the lower end of the rotary drum is provided with an annular clamping plate; the annular clamping groove of the previous rotary drum is rotationally clamped with the clamping plate of the next rotary drum.

The feeding mechanism comprises a roll shaft, a first baffle and a stepping conveyor belt, wherein the roll shaft is positioned at one side of the first baffle; the roller shaft and the first baffle are respectively positioned above the stepping conveyor belt, and a certain gap is kept between the roller shaft and the stepping conveyor belt and between the roller shaft and the first baffle and the stepping conveyor belt; a second conveyor belt is arranged below one end of the stepping conveyor belt; a discharge port is arranged below the discharge end of the second conveyor belt and is positioned above the feeding port of the roller; the conveying direction of the second conveyor belt is perpendicular to the conveying direction of the stepping conveyor belt; the stepping conveyor belt conveys tea leaves to the second conveyor belt and outputs the tea leaves from the discharge hole to the rolling mechanism; the outer edge of the roll shaft is sleeved with a plurality of circular plates at fixed intervals in the axial direction, annular grooves are formed in the surfaces of two sides of each circular plate, a second baffle is arranged between every two adjacent circular plates, two ends of each second baffle are provided with lugs, and the lugs are in sliding fit with the grooves; two stop blocks are arranged on the periphery of the shaft roller between two adjacent circular plates; the connecting line of the two stop blocks passes through the axle center of the shaft roller.

The drying mechanism comprises a drying chamber, an opening of the drying chamber faces the main conveyor belt, the drying chamber can vertically move up and down along the main conveyor belt, and a heater is arranged in the drying chamber.

And the drying chamber is internally provided with a temperature sensing probe, and the heater and the temperature sensing probe are respectively connected with the controller through electric signals.

The invention has the following beneficial effects:

1. according to the tea rolling machine, the tea can be rolled and formed without rigid contact through the rolling mechanism, so that the broken tea rate is reduced, the rolling speed is increased, the quality of the tea is improved, and the production efficiency is improved.

2. According to the invention, different wind forces are generated by the rotation of the multiple drums to realize non-rigid rolling of the tea in the drums, so that the broken tea rate is reduced.

3. According to the invention, the tea leaves are divided into blocks through the shaft rollers and then conveyed to the rolling mechanism, so that the quantity of the tea leaves is controlled, and therefore, even quantity of the tea leaves can be ensured to be rolled, and the tea leaves can be fully rolled;

4. the drying chamber can be independently and accurately controlled, so that the tea drying effect reaches the optimal state;

5. the invention has simple structure and convenient maintenance.

Drawings

FIG. 1 is a front view showing an automatic floor-standing kneading machine set according to the present invention;

figure 2 is a side view showing a rolling mechanism of an automatic floor-free rolling unit according to the present invention;

fig. 3 is a front view showing a drum of an automatic falling-off rolling machine set according to the present invention;

FIG. 4 is a top view showing the drum of an automatic floor-free rolling unit according to the present invention;

figure 5 is a top view showing a first embodiment of the drum of an automatic floor-free rolling unit according to the invention;

figure 6 is a top view showing a second embodiment of the drum of an automatic floor-free rolling unit according to the invention;

FIG. 7 is a schematic cross-sectional view showing the junction between the upper and lower drums of an automatic floor-free rolling unit according to the present invention;

FIG. 8 is a top view showing a feed mechanism of an automatic floor-standing kneading machine set according to the present invention;

FIG. 9 is a schematic view of a roller showing a feed mechanism of an automatic floor-free kneading machine set according to the present invention;

FIG. 10 is a schematic view of a circular plate showing a feed mechanism of an automatic non-falling kneading machine set according to the present invention;

FIG. 11 is a schematic diagram showing the cooperation of a second baffle plate and a circular plate of a feeding mechanism of an automatic non-falling rolling machine set;

fig. 12 is a plan view showing a drying mechanism of an automatic floor-free kneading machine set according to the present invention.

The reference numerals in the drawings are as follows:

1-twisting mechanism, 11-bracket, 12-shell, 121-first conveyer belt, 122-main conveyer belt, 123-collecting tank, 124-slag discharging pipe, 125-fine plate, 13-roller, 131-rotary drum, 132-rotary shaft, 133-driving motor, 134-rotor, 135-rubber ring, 136-wind blade, 137-clamping groove, 138-clamping plate, 139-wire netting, 2-feeding mechanism, 21-roller shaft, 22-first baffle, 23-step conveyer belt, 24-circular plate, 25-groove, 26-baffle, 27-second baffle, 28-lug, 3-drying mechanism, 31-drying chamber, 32-heater, 33-temperature sensing probe, 4-mesh plate, 41-vibrator, 5-second conveyer belt, 51-discharge port and 6-curved surface.

Detailed Description

The invention will now be described in detail with reference to the drawings and to specific embodiments.

Referring to fig. 1 to 7, an automatic floor-free rolling machine set comprises a rolling mechanism 1, a feeding mechanism 2 and a drying mechanism 3; the twisting mechanism 1 comprises a bracket 11, a shell 12 and a roller 13 arranged inside the shell 12; the shell 12 is positioned above the bracket 11; the roller 13 includes a plurality of drums 131 which are sequentially clamped up and down and rotate independently of each other, and a plurality of driving motors 133 with rotating shafts 132; the opening at the upper end of the uppermost rotary drum 131 is positioned below the discharge hole 51, and a rubber ring 135 is sleeved on the outer surface of the rotary drum 131; the plurality of driving motors 133 are uniformly disposed on the outer circumference of the drum 131 in the present embodiment; thereby making the operation of the drum 131 more stable; a plurality of rotors 134 with different diameters are fixedly sleeved on the rotating shaft 132; the rotor 134 is abutted against the outer side surfaces of the rubber rings 135 with different thicknesses; the rotor 134 is matched with the rubber ring 135, the driving motor 133 drives the rotating shaft 132 to rotate, and the rotating shaft 132 drives the rotary drum 131 to rotate through friction force with the rubber ring 135; thereby achieving the control of the linear speed of each rotary drum 131 to be different; the rotating shaft 132 is connected with a driving motor 133; the driving motor 133 is electrically connected with a controller; a plurality of wind blades 136 are vertically arranged on the inner wall of the rotary drum 131, and one side of each wind blade 136 is inclined towards the inner surface of the rotary drum 131; a cylindrical wire 139 is arranged on the inner side of the fan blade 136; the tea leaves are protected in one layer, so that the breakage rate of the tea leaves in the rotary drum 131 is effectively reduced; the inner wall of the rotary drum 131 is not provided with the wind blades 136 and the wire netting 139, but is provided with the concave-convex curved surface 6; the curved surface can prevent tea from being scraped by wind power generated by the inner wall when the rotary drum 131 rotates when the tea enters the rotary drum 131; the upper end of the rotary drum 131 is provided with a circular clamping groove 137, and the lower end of the rotary drum 131 is provided with a circular clamping plate 138; the clamping groove 137 of the previous rotary drum 131 is rotationally clamped with the clamping plate 138 of the next rotary drum 131; a first conveyor belt 121 is arranged at the lower part of the shell 12; one side of the first conveyor belt 121 is connected with a slag discharging pipe 124, and the other end is connected with the inner side wall of the shell 12 through a thin plate 125; a main conveyor belt 122 is arranged below the shell 12, and the main conveyor belt 122 is positioned at the upper end of the bracket 11; the twisting mechanism 1 and the drying mechanism 3 are sequentially positioned in the feeding direction of the main conveyor belt 122; the drying mechanism 3 is located above the main conveyor 122; a collecting tank 123 is provided below the main conveyor belt 122, and the collecting tank 123 communicates with a tapping pipe 124.

Referring to fig. 2, the twisting mechanism 1 is provided with a plurality of rollers 13 staggered up and down, and a mesh plate 4 is obliquely arranged between two adjacent rollers 13; one end of the mesh plate 4 is connected with a discharge port of the upper roller 13, and the other end is connected with a feed port of the lower roller 13; the lower surface of the mesh plate is provided with a vibrator 41, the vibrator 41 is in electrical signal connection with a controller, a first conveyor belt 121 is arranged below the plurality of mesh plates 4, the first conveyor belt 121 is connected with a slag discharging pipe 124, and the slag discharging pipe 124 is communicated with a collecting tank 123; the carrying end of the main conveyor belt 122 is located on one side of the first conveyor belt 121 and at the discharge opening 51 of the lowermost drum 13.

Wherein, referring to fig. 1, 8 to 11, the feeding mechanism 2 comprises a roller shaft 21, a first baffle 22 and a stepping conveyor belt 23, wherein the roller shaft 21 is positioned at one side of the first baffle 22; the roller shaft 21 and the first baffle 22 are respectively positioned above the step conveyor belt 23, and a certain gap is kept between the roller shaft 21 and the first baffle 22 and the step conveyor belt 23; a second conveyor belt 5 is arranged below one end of the step conveyor belt 23; a discharge port 51 is arranged below the discharge end of the second conveyor belt 5, and the discharge port 51 is positioned above the roller feed port; the conveying direction of the second conveyor belt 5 is perpendicular to the conveying direction of the step conveyor belt 23; the stepping conveyor belt 23 conveys the tea leaves onto the second conveyor belt 5 and outputs the tea leaves from the discharge port 51 to the twisting mechanism 1; a plurality of circular plates 24 are sleeved outside the roll shaft 21 at fixed intervals along the axis direction, annular grooves 25 are formed in the surfaces of two sides of each circular plate 24, a second baffle 27 is arranged between two adjacent circular plates 24, protruding blocks 28 are arranged at two ends of each second baffle 27, and the protruding blocks 28 are in sliding fit with the grooves 25; two stoppers 26 are provided on the outer periphery of the shaft roller 21 between two adjacent circular plates 24; the connecting line of the two stoppers 26 passes through the axle center of the axle roller 21.

Wherein, referring to fig. 1 and 12, the drying mechanism 3 includes a drying chamber 31, the drying chamber 31 is opened toward the main conveyor 122, the drying chamber 31 can move up and down perpendicular to the main conveyor 122, and a heater 32 is disposed in the chamber 31.

Referring to fig. 12, a temperature sensing probe 33 is further disposed in the chamber 31, and the heater 32 and the temperature sensing probe 33 are respectively electrically connected with the controller.

The working principle of the invention is as follows:

the tea leaves are placed on the stepping conveyor belt 23, the tea leaves pass through the first baffle 22 and are scraped by the first baffle 22, the tea leaves are divided into blocks after passing through the roller shaft 21 and enter the second conveyor belt 5, the tea leaves are divided into blocks and enter the discharge hole 51 through the second conveyor belt 5, and then enter the plurality of drums 131 of the drum 13, the linear speeds of the rotors 134 are different due to the fact that the diameters of the rotors 134 on the rotating shafts 132 are different, the rotors 134 drive the drums 131 to rotate, and at the moment, the wind power generated inside the drums 131 is different due to the fact that the linear speeds of the drums 131 are different, so that the tea leaves are twisted and molded; at this time, tea leaves fall down the mesh plate 4, and tea fragments fall from the mesh to the first conveyor belt 121 and are conveyed to the collection tank 123 due to the action of the vibrator 41; the tea leaves passing through the mesh plate 4 continue to enter the next roller 13, finally the tea leaves fall to the main conveyor belt 122, at the moment, the chamber 31 of the drying mechanism 3 moves downwards to cover the tea leaves for drying, and the controller controls and heats the heater 32 according to data transmitted by the temperature sensing probe 33, so that the tea leaves are at the optimal drying temperature, and a good drying effect of the tea leaves is achieved.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. An automatic do not fall to ground and rub unit which characterized in that: comprises a twisting mechanism (1), a feeding mechanism (2) and a drying mechanism (3); the twisting mechanism (1) comprises a roller (13), and the roller (13) comprises a plurality of rotary drums (131) which are sequentially clamped up and down and rotate independently; the opening at the upper end of the rotary drum (131) is positioned below a discharge hole (51) of the feeding mechanism (2), and a rubber ring (135) is sleeved on the outer surface of the rotary drum (131); the rotating shaft (132) is positioned at the periphery of the rotating drum (131); a plurality of rotors (134) with different diameters are sleeved on the rotating shaft (132) corresponding to the rotating drum (131); the rotor (134) is abutted against the outer side surfaces of the rubber rings (135) with different thicknesses; the rotating shaft (132) is connected with a driving motor (133); the driving motor (133) is in electrical signal connection with a controller; a plurality of wind blades (136) are vertically arranged on the inner wall of the rotary drum (131); a main conveyor belt (122) is arranged below the roller (13); the twisting mechanism (1) and the drying mechanism (3) are sequentially positioned in the feeding direction of the main conveyor belt (122); the drying mechanism (3) is positioned above the main conveyor belt (122); the twisting mechanism (1) is provided with a plurality of rollers (13) in a vertically staggered manner, and a mesh plate (4) is obliquely arranged between two adjacent rollers (13) above and below; one end of the mesh plate (4) is connected with a discharge port of one roller (13), and the other end is connected with a feed port of the next roller (13); the lower surface of the mesh plate (4) is provided with a vibrator (41), and the vibrator (41) is in electrical signal connection with the controller; a first conveyor belt (121) is arranged below the mesh plates (4), the first conveyor belt (121) is connected with a slag discharging pipe (124), and the slag discharging pipe (124) is communicated with a collecting groove (123); the material bearing end of the main conveyor belt (122) is positioned at one side of the first conveyor belt (121) and positioned at the material outlet (51) of the lowest roller (13); the drying mechanism (3) comprises a drying chamber (31), an opening of the drying chamber (31) faces the main conveyor belt (122), the drying chamber (31) can vertically move up and down along the main conveyor belt (122), and a heater (32) is arranged in the drying chamber (31).

2. An automatic floor-free rolling unit as claimed in claim 1, wherein: a cylindrical wire mesh (139) is arranged on the inner side of the fan blade (136).

3. An automatic floor-free rolling unit as claimed in claim 2, wherein: an annular clamping groove (137) is formed in the upper end of the rotary drum (131), and an annular clamping plate (138) is arranged at the lower end of the rotary drum (131); the annular clamping groove (137) of the previous rotary drum (131) is rotationally clamped with the clamping plate (138) of the next rotary drum (131).

4. An automatic floor-free rolling unit as claimed in claim 1, wherein: the feeding mechanism (2) comprises a roll shaft (21), a first baffle plate (22) and a stepping conveyor belt (23), wherein the roll shaft (21) is positioned on one side of the first baffle plate (22); the roller shaft (21) and the first baffle (22) are respectively positioned above the step conveyor belt (23), and the roller shaft (21) and the first baffle (22) keep a certain gap with the step conveyor belt (23); a second conveyor belt (5) is arranged below one end of the stepping conveyor belt (23); a discharge port (51) is arranged below the discharge end of the second conveyor belt (5), and the discharge port (51) is positioned above the roller feed port; the conveying direction of the second conveyor belt (5) is perpendicular to the conveying direction of the step conveyor belt (23); the stepping conveyor belt (23) conveys tea leaves to the second conveyor belt (5) and outputs the tea leaves from the discharge hole (51) to the twisting mechanism (1); a plurality of circular plates (24) are sleeved outside the roll shaft (21) along the axis direction at fixed intervals, annular grooves (25) are formed in the surfaces of two sides of each circular plate (24), a second baffle (27) is arranged between two adjacent circular plates (24), protruding blocks (28) are arranged at two ends of each second baffle (27), and the protruding blocks (28) are in sliding fit with the grooves (25); two stoppers (26) are arranged on the periphery of the roll shaft (21) between two adjacent circular plates (24); the connecting line of the two stop blocks (26) passes through the axle center of the roll shaft (21).

5. An automatic floor-free rolling unit as claimed in claim 1, wherein: and a temperature sensing probe (33) is further arranged in the drying chamber (31), and the heater (32) and the temperature sensing probe (33) are respectively connected with the controller through electric signals.