CN213385874U - Circulation feeding mechanism of aromatic production line - Google Patents

Abstract

The utility model discloses a circulation feeding mechanism of aromatic production line, including reation kettle, fixed mounting has the U template on reation kettle's the lateral wall, reation kettle's upper end intercommunication has the blowing pipe, U template horizontal part's upper end fixed mounting has the supporting shoe, fixed mounting has the conveying pipeline on the supporting shoe, blowing pipe and conveying pipeline intercommunication setting, fixed mounting has the motor on the U template vertical part's the inside wall. The utility model discloses a fortune material subassembly, shock the subassembly, prevent solidifying the subassembly, drive assembly and the setting of continuous heating element, not only can realize the operation that a motor drove a plurality of parts, the raw materials of putting in pipeline and reation kettle in addition all can be stirred, strike off and vibrate the material that removes, the waste of raw materials has been avoided, the cyclic utilization that can also realize heating gas carries out the heating that lasts to reation kettle, the condition that still has solid starting material in the insufficient liquid that leads to of heating reaction has been avoided.

Description

Circulation feeding mechanism of aromatic production line

Technical Field

The utility model relates to an aromatic production and processing technology field especially relates to a circulation feeding mechanism of aromatic production line.

Background

The aromatic agent is an object which can refresh air and achieve the effect of refreshing, and although the aromatic agent does not form harmful particles, the aromatic agent also contains harmful substances such as ethanol, essence and the like, so that the aromatic agent can enter the air and be absorbed by people unconsciously.

The existing aromatic production and processing is to put the raw materials in and then heat and melt the raw materials into liquid state, so that the subsequent canning is convenient, the existing aromatic raw materials are usually adhered to a pipeline in the putting process, the raw materials are wasted, and the solid raw materials are still remained in the liquid due to insufficient heating reaction.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the raw materials that exists among the prior art and putting in the in-process can the adhesion pipeline and heating and exist solid starting material in the insufficient liquid that leads to, and the circulation feeding mechanism of an aromatic production line that proposes, not only can realize the operation that a motor drove a plurality of parts, and can carry out the primary heating to the solid starting material of putting in the pipeline, the raw materials of putting in pipeline and reation kettle all can be stirred, strike off and vibrate and remove the material, the waste of raw materials has been avoided, can also realize that heated gas's cyclic utilization carries out the heating that lasts to reation kettle, the condition that still has solid starting material in the insufficient liquid that leads to of heating reaction has been avoided heating many times.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a circulation feeding mechanism of aromatic agent production line comprises a reaction kettle, a U-shaped plate is fixedly installed on the outer side wall of the reaction kettle, an emptying pipe is communicated with the upper end of the reaction kettle, a supporting block is fixedly installed on the upper end of the horizontal part of the U-shaped plate, a conveying pipe is fixedly installed on the supporting block and is communicated with the emptying pipe, a motor is fixedly installed on the inner side wall of the vertical part of the U-shaped plate, a rotating shaft is fixedly installed on the driving shaft of the motor and penetrates through the conveying pipe, the rotating shaft and the conveying pipe are provided with the same conveying component, the rotating shaft and the U-shaped plate are provided with the same oscillating component, the rotating shaft, the conveying pipe, the U-shaped plate and the reaction kettle are provided with the same continuous heating component, the emptying pipe and the reaction kettle are provided with the same anti-solidification component, and the U-shaped plate and, the one end of transmission assembly is connected with the one end transmission of preventing the solid subassembly, not only can realize the operation that a motor drove a plurality of parts, but also can carry out primary heating to the solid starting material of putting in the pipeline, the raw materials of putting in pipeline and reation kettle all can be stirred, strike off and vibrate and remove the material, the waste of raw materials has been avoided, can also realize that heated gas's cyclic utilization carries out the heating that lasts to reation kettle, the condition that still has solid starting material in the insufficient liquid that leads to of heating reaction has been avoided in the repetitious heating.

Preferably, the fortune material subassembly includes the inlet pipe with conveying pipeline upper end intercommunication, the partial fixed mounting that the rotation axis is located the conveying pipeline has auger blade, the partial fixed mounting that the rotation axis is connected with the conveying pipeline has sealed the pad, and the setting up of fortune material subassembly has realized the conveying that lasts to the material in the conveying pipeline.

Preferably, vibrate the subassembly and include two cams of coaxial fixed connection on the rotation axis, U template horizontal segment's upper end fixed mounting has the bumper shock absorber, the upper end fixed mounting of bumper shock absorber has the rapping bar, the rapping bar offsets the contact with the rotation axis, telescopic link fixed connection is passed through with U template horizontal segment's upper end to the lower extreme of bumper shock absorber, the cover is equipped with the constant force spring on the telescopic link, vibrates the setting up of subassembly and has realized beating of rotation axis and handle to will adhere to the material vibrations on the auger blade.

Preferably, the constant heating assembly comprises a heating box fixedly installed on the horizontal portion of the lower U-shaped plate, a resistance wire is electrically connected in the heating box, a first cavity is arranged in the inner wall of the reaction kettle, a second cavity is arranged in the inner wall of the conveying pipeline, the first cavity is communicated with the second cavity, the upper end of the heating box is communicated with the second cavity, a gas-collecting hood is fixedly arranged on the U-shaped plate horizontal part on the upper side, the rotating shaft is arranged through the gas-collecting hood in a rotating way, the part of the rotating shaft positioned in the gas-collecting hood is coaxially and fixedly provided with a fan blade, the gas collecting hood is communicated with the lower end of the heating box, the bottom of the first cavity is communicated with the pressure relief pipe, the arrangement of the continuous heating component realizes the primary heating of the material conveying pipe and the heating of the reaction kettle, the material is heated in the feeding process, so that the condition that solid exists in liquid due to insufficient heating is avoided.

Preferably, prevent solidifying the subassembly including rotating the dwang that runs through reation kettle and blowing pipe and extend to the blowing outside of tubes, fixed mounting has the bearing in the upper end inner wall of blowing pipe, the inner wall of bearing and the outer wall fixed connection of dwang, the dwang is located the coaxial fixedly connected with rotary drum of part of reation kettle, coaxial fixed mounting has multiunit stirring vane and two T type scraper blades, two on the rotary drum T type scraper blade all offsets the contact with reation kettle's inside wall, the dwang is located the one end transmission of blowing outside of tubes part and drive assembly and is connected, prevents solidifying the setting up of subassembly and has realized stirring and the striking off of the material of adhesion on the reation kettle wall to liquid aromatic in the reation kettle, avoids the appearance of liquid aromatic post-curing of stewing.

Preferably, the transmission assembly comprises an actuating rod rotatably connected to the horizontal part of the upper U-shaped plate, the actuating rod and the rotating shaft are in meshed connection through two bevel gears, and the actuating rod is in transmission connection with the part of the rotating rod, which is positioned outside the discharging pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a setting of fortune material subassembly has realized the conveying of continuing the transportation of material in the conveying pipeline.

2. The utility model discloses a setting of vibrating the subassembly has realized beating vibrations to the rotation axis and has handled to shake the material that adheres on auger blade and fall, avoided the waste of raw materials.

3. The utility model discloses a last heating element's setting has realized the primary heating to the conveying pipeline and the heating to reation kettle for the material is by the thermal treatment constantly at the in-process of puting in, has avoided the heating to insufficiently lead to having the condition of solid in the liquid.

4. The utility model discloses a prevent setting up of solidifying subassembly, realized stirring and the striking off of material on the reation kettle wall of liquid aromatic in the reation kettle, avoided the appearance that liquid aromatic solidifies after stewing.

5. The utility model discloses a motor drives the operation of a plurality of parts, can also realize heating gas's cyclic utilization, has improved the efficiency of work.

Drawings

FIG. 1 is a schematic structural view of a circulation feeding mechanism of an aromatic agent production line according to the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

fig. 3 is an enlarged schematic view of fig. 1 at B.

In the figure: 1 reaction kettle, 2U-shaped plates, 3 discharging pipes, 4 conveying pipes, 5 motors, 6 rotating shafts, 7 feeding pipes, 8 auger blades, 9 cams, 10 shock absorbers, 11 knock rods, 12 telescopic rods, 13 heating boxes, 14 resistance wires, 15 first cavities, 16 second cavities, 17 gas collecting hoods, 18 rotating rods, 19 bearings, 20 stirring blades, 21T-shaped scrapers, 22 starting rods, 23 bevel gears and 24 pressure relief pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-3, a circulation feeding mechanism of aromatic agent production line, comprising a reaction kettle 1, a U-shaped plate 2 is fixedly installed on the outer side wall of the reaction kettle 1, a discharging pipe 3 is communicated with the upper end of the reaction kettle 1, a supporting block is fixedly installed on the upper end of the horizontal part of the U-shaped plate 2, a conveying pipe 4 is fixedly installed on the supporting block, the discharging pipe 3 is communicated with the conveying pipe 4, a motor 5 is fixedly installed on the inner side wall of the vertical part of the U-shaped plate 2, the motor 5 is a double-sail type with a model of 30 kw-2/2840 r, a rotating shaft 6 is fixedly installed on the driving shaft of the motor 5, the rotating shaft 6 is rotatably arranged through the conveying pipe 4, the rotating shaft 6 and the conveying pipe 4 are provided with the same conveying component, the rotating shaft 6 and the U-shaped plate 2 are provided with the same oscillating component, the rotating shaft 6, the, the discharging pipe 3 and the reaction kettle 1 are provided with the same anti-solidification component, the U-shaped plate 2 and the rotating shaft 6 are provided with the same transmission component, and one end of the transmission component is in transmission connection with one end of the anti-solidification component.

Wherein, fortune material subassembly includes the inlet pipe 7 with conveying pipeline 4 upper end intercommunication, and the part fixed mounting that rotation axis 6 is located conveying pipeline 4 has auger blade 8, and auger blade 8 can transport the propelling movement to the material, and the part fixed mounting that rotation axis 6 and conveying pipeline 4 are connected has sealed the pad, and the leakproofness of conveying pipeline 4 has been guaranteed in the setting of sealed pad, has avoided oozing of material.

Wherein, vibrate the subassembly and include two cams 9 of coaxial fixed connection on the rotation axis 6, U template 2 horizontal part's upper end fixed mounting has bumper shock absorber 10, the upper end fixed mounting of bumper shock absorber 10 has rapping bar 11, rapping bar 11 offsets the contact with rotation axis 6, telescopic link 12 fixed connection is passed through with U template 2 horizontal part's upper end to the lower extreme of bumper shock absorber 10, the cover is equipped with the constant force spring on the telescopic link 12, the both ends of constant force spring respectively with the lower extreme of bumper shock absorber 10 and U template 2 horizontal part's upper end fixed connection.

Wherein, last heating element is including fixed mounting in heating cabinet 13 on lower side U template 2 horizontal part, electrically connected with resistance wire 14 in the heating cabinet 13, be equipped with first cavity 15 in the reation kettle 1 inner wall, be equipped with second cavity 16 in the 4 inner walls of conveying pipeline, first cavity 15 is linked together with second cavity 16, the upper end and the second cavity 16 of heating cabinet 13 are linked together, fixed mounting has gas collecting channel 17 on the U template 2 horizontal part of upside, rotation axis 6 rotates and runs through the setting of gas collecting channel 17, coaxial fixed mounting has the fan blade on the part that rotation axis 6 is located gas collecting channel 17, gas collecting channel 17 and heating cabinet 13's lower extreme intercommunication sets up, the bottom intercommunication of first cavity 15 has pressure relief pipe 24, pressure relief pipe 24's setting is avoided lasting the heated gas that increases to make the 15 increases of first cavity of internal gas pressure lead to reation kettle 1 damaged.

Wherein, prevent that the subassembly that solidifies runs through reation kettle 1 and blowing pipe 3 and extends to the outside dwang 18 of blowing pipe 3 including rotating, fixed mounting has bearing 19 in the upper end inner wall of blowing pipe 3, bearing 19's inner wall and the outer wall fixed connection of dwang 18, bearing 19 provides the support for dwang 18, dwang 18 is located the coaxial fixedly connected with rotary drum of part of reation kettle 1, coaxial fixed mounting has multiunit stirring vane 20 and two T type scraper blades 21 on the rotary drum, two T type scraper blades 21 all offset the contact with reation kettle 1's inside wall, the dwang 18 is located the one end transmission connection of the outer part of blowing pipe 3 and drive assembly.

More specifically, the drive assembly includes the start rod 22 that rotates the horizontal part of connecting in upper side U type plate 2, and start rod 22 and rotation axis 6 are connected through two bevel gear 23 meshing, and start rod 22 is connected with the partial transmission that dwang 18 is located discharging pipe 3 outside, and the transmission here is connected for equal fixed mounting has the belt pulley on start rod 22 and the dwang 18, and two belt pulleys pass through belt transmission and connect.

In the utility model, the motor 5 is turned on to rotate the rotating shaft 6, and the material is put into the material conveying pipe 4 through the inlet pipe 7, and the put material is transported and pushed into the material discharging pipe 3 by the auger blade 8 rotating in the material conveying pipe 4, thereby entering the reaction kettle 1, and the rotation of the rotating shaft 6 drives the two cams 9 to rotate, thereby extruding the shock absorber 10, so that the shock absorber 10 drives the knock bar 11 to synchronously move downwards and extrude the telescopic rod 12 and the constant force spring, and when the telescopic rod 12 and the constant force spring recover the elasticity, the knock bar 11 knocks the vibration rotating shaft 6 at the moment to make the material adhered on the auger blade 8 fall off, thus avoiding the waste of raw materials, and the rotating shaft 6 rotates through the meshing of the two bevel gears 23, so that the starting rod 22 rotates, and the starting rod 22 is connected with the rotating rod 18 through the two belt pulleys and the belt transmission, so that the rotation of the rotating shaft 18 drives the rotation of the T-shaped scraping, t type scraper blade 21 strikes off the material of adhesion on reation kettle 1 inner wall, and stirring vane 22's rotation avoids the solidification of material because of stewing and leading to, and rotation axis 6 has rotated the drive fan blade and has produced gas in gas collecting channel 17 internal rotation, the gas that produces enters into heating cabinet 13, circular telegram resistance wire 14 this moment, make the gas of heating enter into the second cavity 16 in the conveying pipeline 4 inner wall, and enter into reation kettle 1 in the first cavity 15 after the gas circulation of heating flows, thereby lead in reation kettle 1 all can by the thermal treatment when having accomplished the material and put in, avoided the insufficient condition that leads to having the solid in the liquid of heating.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a circulation feed mechanism of aromatic production line, includes reation kettle (1), its characterized in that, fixed mounting has U template (2) on reation kettle (1)'s the lateral wall, reation kettle (1) upper end intercommunication has blowing pipe (3), U template (2) horizontal part's upper end fixed mounting has the supporting shoe, fixed mounting has conveying pipeline (4) on the supporting shoe, blowing pipe (3) and conveying pipeline (4) intercommunication set up, fixed mounting has motor (5) on the inside wall of U template (2) vertical part, fixed mounting has rotation axis (6) in the drive shaft of motor (5), rotation axis (6) are rotated and are run through conveying pipeline (4) setting, be equipped with same fortune material subassembly on rotation axis (6) and conveying pipeline (4), be equipped with same vibration subassembly on rotation axis (6) and U template (2), the U-shaped plate is characterized in that the same continuous heating assembly is arranged on the rotating shaft (6), the conveying pipe (4), the U-shaped plate (2) and the reaction kettle (1), the same anti-solidification assembly is arranged on the discharging pipe (3) and the reaction kettle (1), the same transmission assembly is arranged on the U-shaped plate (2) and the rotating shaft (6), and one end of the transmission assembly is in transmission connection with one end of the anti-solidification assembly.

2. The circulation feeding mechanism of aromatic agent production line according to claim 1, characterized in that the material transporting assembly comprises a feeding pipe (7) communicated with the upper end of the material conveying pipe (4), auger blades (8) are fixedly installed on the part of the rotating shaft (6) located in the material conveying pipe (4), and a sealing gasket is fixedly installed on the part of the rotating shaft (6) connected with the material conveying pipe (4).

3. The circulation feeding mechanism of an aromatic agent production line according to claim 1, wherein the vibrating assembly comprises two cams (9) coaxially and fixedly connected to the rotating shaft (6), the upper end of the horizontal portion of the U-shaped plate (2) is fixedly provided with a shock absorber (10), the upper end of the shock absorber (10) is fixedly provided with a knock rod (11), the knock rod (11) is in contact with the rotating shaft (6) in an abutting manner, the lower end of the shock absorber (10) is fixedly connected with the upper end of the horizontal portion of the U-shaped plate (2) through a telescopic rod (12), and the telescopic rod (12) is sleeved with a constant force spring.

4. The circulating feeding mechanism of an aromatic agent production line as claimed in claim 1, wherein the continuous heating assembly comprises a heating box (13) fixedly mounted on the horizontal portion of the lower U-shaped plate (2), the heating box (13) is electrically connected with a resistance wire (14), a first cavity (15) is arranged in the inner wall of the reaction kettle (1), a second cavity (16) is arranged in the inner wall of the delivery pipe (4), the first cavity (15) is communicated with the second cavity (16), the upper end of the heating box (13) is communicated with the second cavity (16), a gas collecting hood (17) is fixedly mounted on the horizontal portion of the U-shaped plate (2) on the upper side, the rotating shaft (6) is rotatably arranged through the gas collecting hood (17), fan blades are coaxially and fixedly mounted on the portion of the rotating shaft 6 located in the gas collecting hood (17), and the gas collecting hood (17) is communicated with the lower end of the heating box (13), the bottom of the first cavity (15) is communicated with a pressure relief pipe (24).

5. The circulation feeding mechanism of the aromatic agent production line according to claim 1, wherein the anti-solidification component comprises a rotating rod (18) which penetrates through the reaction kettle (1) and the discharging pipe (3) in a rotating manner and extends to the outside of the discharging pipe (3), a bearing (19) is fixedly installed in the inner wall of the upper end of the discharging pipe (3), the inner wall of the bearing (19) is fixedly connected with the outer wall of the rotating rod (18), the rotating rod (18) is located in the reaction kettle (1), a rotating cylinder is coaxially and fixedly connected with the part of the reaction kettle (1), a plurality of groups of stirring blades (20) and two T-shaped scraping plates (21) are coaxially and fixedly installed on the rotating cylinder, the two T-shaped scraping plates (21) are in contact with the inner side wall of the reaction kettle (1) in an abutting manner, and the part of the rotating rod (18) located outside the discharging pipe (3).

6. A circulation feeding mechanism of aromatic agent production line according to claim 1, characterized in that said driving assembly comprises an actuating rod (22) rotatably connected to the horizontal portion of upper die (2), said actuating rod (22) and rotating shaft (6) are engaged and connected through two bevel gears (23), said actuating rod (22) is drivingly connected with the portion of rotating rod (18) located outside discharge pipe (3).

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