CN215224641U - Areca nut processing energy-saving emission-reducing system - Google Patents

Abstract

The utility model discloses an energy-saving and emission-reducing system for processing areca nuts, which is provided with a main seed baking box and an auxiliary seed baking box, so that steam in the main seed baking box enters the auxiliary seed baking box through an air extractor on a lower clapboard to pre-bake seeds of green areca nuts, thereby improving the secondary utilization efficiency of the steam, saving energy and reducing emission; in addition, the rolling seed baking chains are arranged in the main seed baking box and the auxiliary seed baking box, and the rolling seed baking chains are driven by the power assembly to perform linear motion in the main seed baking box and the auxiliary seed baking box, so that green areca nuts placed on the rolling seed baking chains are baked; meanwhile, the sleeves on the rolling seed baking chain rotate in the linear motion process through the meshing of the racks and the rotation gears, so that green betel nuts are continuously turned over and baked, and the seed baking efficiency and the finished product quality of the betel nuts are effectively improved.

Description

Areca nut processing energy-saving emission-reducing system

Technical Field

The utility model relates to a sesame oil toasts equipment technical field, concretely relates to sesame oil processing energy saving and emission reduction system.

Background

The green areca is required to be subjected to seed roasting in the process of processing into the dried areca; the raw materials of the traditional areca nut seed roasting are basically all charcoal, and the emission of smoke generated in the seed roasting process pollutes the environment, so that the existing areca nuts are generally roasted by steam, the steam generated by a steam heater is blown into a seed roasting box through an air blower or a fan to roast green areca nuts, and the smoke pollution generated by burning the charcoal is avoided; in the process of roasting seeds by steam, in order to continuously exchange heat with the steam, the steam is continuously blown into the seed roasting box; the steam temperature in the seed oven is generally higher, and direct discharge wastes a part of heat, so that the secondary utilization is inconvenient. In addition, the green areca nuts cannot be turned over in the seed baking box, the green areca nuts are unevenly heated, and the problems of low efficiency and low finished product quality of green areca nut seed baking are easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the weak point that exists in the above-mentioned technique, provide an areca processing energy saving and emission reduction system, aim at solving the problem that the seed-baking tail gas of above-mentioned seed-baking incasement can not reutilization and green areca can not turn over in the seed-baking incasement.

The utility model provides an energy-saving and emission-reducing system for processing areca nuts, which comprises a main seed-baking box and an auxiliary seed-baking box connected with an air blower, wherein the auxiliary seed-baking box is communicated with the main seed-baking box; a rolling seed baking chain is arranged in the auxiliary seed baking box and the main seed baking box; two ends of the rolling seed baking chain are provided with self-rotating gears, and racks are arranged on two sides in the auxiliary seed baking box and the main seed baking box; the rolling seed baking chain performs linear motion in the auxiliary seed baking box and the main seed baking box through the power assembly, and meanwhile, the rolling seed baking chain performs autorotation through the meshing of the autorotation gear and the rack.

Further, the movable seed baking chain comprises chain rods, sleeves and an articulated chain, the chain rods are articulated through the articulated chain, and the sleeves are sleeved on the chain rods; the rotation gears are connected to two ends of the sleeve.

Furthermore, the rotation gears at two ends between two connected sleeves are arranged in a staggered mode.

Furthermore, the power assembly comprises a driving rotating shaft, a driving chain wheel and a driving motor, the driving rotating shaft is rotatably arranged in the main seed baking box through a bearing, the driving chain wheel is fixedly connected to the driving rotating shaft, and the driving chain wheel is in chain transmission connection with the rolling seed baking box; the driving motor is arranged on the outer side of the main seed baking box, and the driving rotating shaft is in transmission connection with the output end of the driving motor through a gear.

Further, still include transmission pivot and drive sprocket, the transmission pivot is rotatable locate in the main roast seed case with vice roast seed case one end, drive sprocket fixed connection in on the transmission pivot, drive sprocket with roll roast seed chain drive connection.

Furthermore, one end of the auxiliary seed baking box is provided with a feeding hole, and one end of the main seed baking box is provided with a discharging hole.

An upper partition plate is arranged between the auxiliary seed baking box and the main seed baking box and above the rolling seed baking chain; the auxiliary seed baking box is positioned at the discharge port and is obliquely provided with a baffle.

Furthermore, an exhaust port is arranged at the upper end of the auxiliary seed baking box, and an exhaust fan is arranged in the exhaust port.

Compared with the prior art, the method has the following beneficial effects:

the utility model provides an energy-saving and emission-reducing system for processing areca nuts, which is provided with a main seed baking box and an auxiliary seed baking box, so that steam in the main seed baking box enters the auxiliary seed baking box through an air extractor on a lower clapboard to pre-bake seeds of green areca nuts, thereby improving the secondary utilization efficiency of the steam, saving energy and reducing emission; in addition, the rolling seed baking chains are arranged in the main seed baking box and the auxiliary seed baking box, and the rolling seed baking chains are driven by the power assembly to perform linear motion in the main seed baking box and the auxiliary seed baking box, so that green areca nuts placed on the rolling seed baking chains are baked; meanwhile, the sleeves on the rolling seed baking chain rotate in the linear motion process through the meshing of the racks and the rotation gears, so that green betel nuts are continuously turned over and baked, and the seed baking efficiency and the finished product quality of the betel nuts are effectively improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic view of the energy-saving and emission-reducing system for betel nut processing of the present invention;

fig. 2 is a schematic enlarged view of a part a of the betel nut processing energy saving and emission reduction system of the present invention;

fig. 3 is an axial view of the betel nut processing energy saving and emission reduction system of the utility model;

fig. 4 is an axial view of the betel nut processing energy saving and emission reduction system of the utility model;

fig. 5 is a schematic view of a rolling seed baking chain of the energy-saving and emission-reducing system for betel nut processing of the present invention;

fig. 6 is a schematic enlarged view of a part B of the betel nut processing energy saving and emission reduction system of the present invention;

fig. 7 is a schematic enlarged view of part C of the betel nut processing energy saving and emission reduction system of the present invention;

fig. 8 is a schematic diagram of a local D amplification of the betel nut processing energy saving and emission reduction system of the present invention.

In the figure, 1-main seed oven; 2-auxiliary seed baking box; 3-a lower baffle plate; 4-an air extractor; 5-rolling the seed baking chain; 6-a rack; 7-a power assembly; 8-a feed inlet; 9-an upper partition plate; 11-a discharge hole; 12-a baffle plate; 13-an air inlet pipe; 21-an exhaust port; 51-a rotation gear; 52-chain bar; 53-a cannula; 54-an articulated chain; 71-active spindle; 72-a drive sprocket; 73-a drive motor; 74-a drive shaft; 75-drive sprocket.

Detailed Description

In order to make the structure and features and advantages of the present invention easier to understand, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 8, the utility model provides an energy-saving and emission-reducing system for betel nut processing, which comprises a main seed-baking box 1 and an auxiliary seed-baking box 2 connected with a blower, wherein the blower blows steam into the main seed-baking box 1 through an air inlet pipe 13; the auxiliary seed baking box 2 is communicated with the main seed baking box 1, a lower partition plate 3 is arranged between the auxiliary seed baking box 2 and the main seed baking box 1, and an air extractor 4 is arranged on the lower partition plate 3, so that steam in the main seed baking box 1 is pumped into the auxiliary seed baking box 2 through the air extractor 4 for secondary utilization, and green betelnuts are subjected to seed pre-baking; a rolling seed baking chain 5 is arranged in the auxiliary seed baking box 2 and the main seed baking box 1; two ends of the rolling seed roasting chain 5 are provided with self-rotating gears 51, and two sides in the auxiliary seed roasting box 2 and the main seed roasting box 1 are provided with racks 6; the rolling seed baking chain 5 rotates by means of the meshing of the rotation gear 51 and the rack 6 while performing linear motion in the auxiliary seed baking box 2 and the main seed baking box 1 through the power assembly 7, so that green betelnuts on the rolling seed baking chain 5 are continuously rotated and turned over, and the seed baking efficiency of the betelnuts is improved.

Specifically, the movable seed-baking chain comprises a chain rod 52, a sleeve 53 and an articulated chain 54, wherein the chain rod 52 is articulated through the articulated chain 54, and the sleeve 53 is sleeved on the chain rod 52; the rotation gears 51 are connected to both ends of the housing 53 to rotate the housing 53 on the chain bar 52 by the racks 6 provided at both sides in the main and sub-seed-toasting boxes 1 and 2 to rotate and turn over the green betel nuts placed on the housing 53.

Specifically, the rotation gears 51 at the two ends between the two connected sleeves 53 are staggered to avoid the problem that the rotation gears 51 on the two connected sleeves 53 are meshed, so as to prevent the problem that the rotation directions are inconsistent between the two connected sleeves 53, and further effectively avoid the problem that the betel nuts are extruded due to the inconsistent rotation directions of the two connected sleeves 53.

Specifically, one end of the auxiliary seed baking box 2 is provided with a feeding hole 8 so as to feed the green areca nuts through the feeding hole 8; one end of the main seed baking box 1 is provided with a discharge port 11 so as to discharge the areca nuts after seed baking through the discharge port 11.

Specifically, an upper baffle plate 9 is arranged between the auxiliary seed baking box 2 and the main seed baking box 1 and above the rolling seed baking chain 5; the auxiliary seed-roasting box 2 is obliquely provided with a baffle plate 12 at the discharge hole 11 so as to reduce the steam discharged from the discharge hole 11 out of the main seed-roasting box 1 through the baffle plate 12.

Specifically, the upper end of the auxiliary seed box 2 is provided with an exhaust port 21, an exhaust fan is arranged in the exhaust port 21, so that the exhaust gas inlet and outlet port 21 in the auxiliary seed box 2 is exhausted into a heat exchange pipeline through the exhaust fan, and the heat of the exhaust gas is recycled through the heat exchange pipeline.

Example 2:

as shown in fig. 6 and 7, in combination with the technical solution of embodiment 1, in this embodiment, the power assembly 7 includes a driving rotating shaft 71, a driving sprocket 72 and a driving motor 73, the driving rotating shaft 71 is rotatably disposed in the main seed-roasting box 1 through a bearing, the driving sprocket 72 is fixedly connected to the driving rotating shaft 71, and the driving sprocket 72 is in transmission connection with the rolling seed-roasting chain 5; the driving motor 73 is arranged outside the main seed-baking box 1, and the driving rotating shaft 71 is in transmission connection with the output end of the driving motor 73 through a gear; the driving motor 73 drives the driving rotating shaft 71 to rotate so as to drive the driving chain wheel 72 to rotate, so that the driving chain wheel 72 drives the rolling seed baking chain 5 to move in the auxiliary seed baking box 2 and the main seed baking box 1, and the loading of the green betel nuts and the discharging of the dried betel nuts are facilitated.

Specifically, still include transmission pivot 74 and driving sprocket 75, the rotatable locating of transmission pivot 74 is in main seed case 1 and vice seed case 2 one end of toasting, and driving sprocket 75 fixed connection is on transmission pivot 74, and driving sprocket 75 is connected with the transmission of rolling seed chain 5 to carry out the support transmission to rolling seed chain 5 through driving sprocket 75.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications to the technical solution of the present invention without departing from the scope of the technical solution of the present invention, or to modify equivalent embodiments with equivalent variations. Therefore, any modification, equivalent change and modification of the above embodiments according to the present invention are all within the protection scope of the present invention.

Claims (8)

1. An energy-saving and emission-reducing system for processing areca nuts is characterized by comprising a main seed baking box (1) and an auxiliary seed baking box (2) which are connected with an air blower, wherein the auxiliary seed baking box (2) is communicated with the main seed baking box (1), a lower partition plate (3) is arranged between the auxiliary seed baking box (2) and the main seed baking box (1), and an air extractor (4) is arranged on the lower partition plate (3); a rolling seed baking chain (5) is arranged in the auxiliary seed baking box (2) and the main seed baking box (1); two ends of the rolling seed baking chain (5) are provided with autorotation gears (51), and racks (6) are arranged on two sides in the auxiliary seed baking box (2) and the main seed baking box (1); the rolling seed baking chain (5) linearly moves in the auxiliary seed baking box (2) and the main seed baking box (1) through a power assembly (7), and meanwhile, the rolling seed baking chain (5) rotates by means of meshing of the rotation gear (51) and the rack (6).

2. The energy-saving and emission-reducing system for betel nut processing according to claim 1, wherein the movable roasting seed chain comprises chain rods (52), sleeves (53) and an articulated chain (54), the chain rods (52) are articulated with each other through the articulated chain (54), and the sleeves (53) are sleeved on the chain rods (52); the rotation gear (51) is connected to both ends of the sleeve (53).

3. The energy-saving and emission-reducing system for betel nut processing according to claim 2, wherein the rotation gears (51) at two ends between two connected sleeves (53) are arranged in a staggered manner.

4. The energy-saving and emission-reducing system for betel nut processing according to claim 1 or 2, wherein the power assembly (7) comprises a driving rotating shaft (71), a driving chain wheel (72) and a driving motor (73), the driving rotating shaft (71) is rotatably arranged in the main seed baking box (1) through a bearing, the driving chain wheel (72) is fixedly connected to the driving rotating shaft (71), and the driving chain wheel (72) is in transmission connection with the rolling seed baking chain (5); the driving motor (73) is arranged on the outer side of the main seed baking box (1), and the driving rotating shaft (71) is in transmission connection with the output end of the driving motor (73) through a gear.

5. The energy-saving and emission-reducing system for betel nut processing according to claim 4, further comprising a transmission rotating shaft (74) and a transmission chain wheel (75), wherein the transmission rotating shaft (74) is rotatably arranged in the main seed baking box (1) and at one end of the auxiliary seed baking box (2), the transmission chain wheel (75) is fixedly connected to the transmission rotating shaft (74), and the transmission chain wheel (75) is in transmission connection with the rolling seed baking chain (5).

6. The energy-saving and emission-reducing system for betel nut processing according to claim 1, wherein a feed inlet (8) is formed at one end of the auxiliary seed baking box (2), and a discharge outlet (11) is formed at one end of the main seed baking box (1).

7. The energy-saving and emission-reducing system for betel nut processing according to claim 6, wherein an upper partition plate (9) is arranged between the auxiliary seed baking box (2) and the main seed baking box (1) and above the rolling seed baking chain (5); the auxiliary seed baking box (2) is obliquely provided with a baffle (12) at the discharge hole (11).

8. The energy-saving and emission-reducing system for betel nut processing according to claim 1, wherein an exhaust port (21) is formed in the upper end of the auxiliary seed baking box (2), and an exhaust fan is arranged in the exhaust port (21).

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