CN217417479U - Cinnamomum longepaniculatum leaf ingredient conveying system - Google Patents

Abstract

The utility model discloses a cinnamomum longepaniculatum leaf batching system of transporting, first conveyer belt and second conveyer belt and the groove of keeping in that arranges including the slope, the groove of keeping in is located first conveyer belt discharge end below and second conveyer belt material end top, first conveyer belt is used for transporting the material in agitator tank exit and promotes to the groove of keeping in, the second conveyer belt is arranged in transporting the material in the groove of keeping in and promotes to the fermentation vat, the material loading end of first conveyer belt is equipped with digs material mechanism, it is used for excavating the material in agitator tank exit to the first conveyer belt to dig material mechanism, be equipped with pushing equipment in the groove of keeping in, pushing equipment is used for will promoting to the material propelling movement in the groove of keeping in and transports to the second and take. This conveying system is through setting up first conveyer belt, second conveyer belt and the groove of keeping in to the cooperation is dug material mechanism, pushing equipment's use, can adapt to the material better and transport the condition that the fermentation vat lifting height is big and transport the distance far from the agitator tank.

Description

Cinnamomum longepaniculatum leaf ingredient conveying system

Technical Field

The utility model relates to a fertilizer production technical field, concretely relates to cinnamomum longepaniculatum leaf batching conveying system.

Background

In recent years, with the increasing production of camphor oil, the accumulation of byproduct camphor leaf dregs is serious. At present, some workshops and farmers adopt a direct incineration method for treatment, so that a large amount of smoke pollution is caused, the emission of carbon dioxide is increased, and great hidden dangers are caused to fire safety. The cinnamomum longepaniculatum leaves subjected to oil steaming are natural high-quality organic fertilizer raw materials without pollution, are rich in humic acid after fermentation and decomposition, and have the effects of improving soil, stimulating crop growth, improving the quality of agricultural products and the like. At present, when the cinnamomum longepaniculatum leaves are used for producing organic fertilizers, the cinnamomum longepaniculatum leaves are crushed and then conveyed into a stirring tank, and meanwhile, vinasse, cow dung, urea, a decomposition agent and the like are added in proportion, stirred, uniformly mixed and then conveyed to a fermentation tank for fermentation. Due to the need to lift the materials from the stirring tank to the position above the fermentation tank, the lifting height is large, the conveying distance is long, and a suitable conveying system needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at: to present cinnamomum longepaniculatum leaf stir-batch material accomplish the back, need promote the problem of fermentation vat top with the material from the agitator tank, provide a cinnamomum longepaniculatum leaf batching conveying system, can adapt to the great and far away condition of conveying distance of height that the material promoted betterly through this conveying system.

In order to realize the purpose, the utility model discloses a technical scheme be:

the utility model provides a cinnamomum longepaniculatum leaf batching system of transporting, first conveyer belt and second conveyer belt and the groove of keeping in that arranges including the slope, the groove of keeping in is located first conveyer belt discharge end below and second conveyer belt material end top, first conveyer belt is used for transporting the material of agitator tank exit and promotes to the groove of keeping in, the second conveyer belt is arranged in transporting the material in the groove of keeping in and promotes to the fermentation vat, the material loading end of first conveyer belt is equipped with digs material mechanism, it is used for excavating the material of agitator tank exit to the first conveyer belt to dig material mechanism, be equipped with pushing equipment in the groove of keeping in, pushing equipment is used for will promoting to the material propelling movement in the groove of keeping in and transports to the second and take.

The utility model discloses open the agitator tank export after the material stirring is even during the use, along with continue to mix the material and can follow the export and overflow, excavate the material of agitator tank exit to first transport through digging material mechanism and take, the material transports along with first conveyer belt and promotes to keeping in the inslot, material propelling movement to the second transport through pushing equipment will keep in the inslot transports and takes, the material transports along with the second conveyer belt and promotes to the fermentation vat in, this transport system can adapt to the material better and transport to the fermentation vat from the agitator tank and promote highly big and transport the condition far away of distance.

As the utility model discloses an optimal scheme, dig material mechanism including locating the agitator tank exit connect the silo and locate the pivot on connecing the silo, connect silo export direction towards first conveyer belt, there are a plurality of boards of digging in the pivot along the circumference equipartition. When the stirring tank is used, after the outlet of the stirring tank is opened, the stirred materials can escape from the outlet to the material receiving groove, the rotating shaft drives the digging plate to rotate to realize automatic digging, and therefore the materials at the outlet are continuously scraped to the first conveying belt.

As the utility model discloses an optimal scheme, pushing equipment is including locating the semicircle pipe of keeping in the groove downside, semicircle pipe and keeping in tank bottom intercommunication, be equipped with the ejector sleeve along the axial in the semicircle pipe, the epaxial helical blade that is equipped with of ejector sleeve, the discharge gate has been seted up with the corresponding position department of second conveyer belt to semicircle socle portion. Through designing pushing equipment for above-mentioned structure, the material is transported to promote after keeping in the groove, drives helical blade through the charging shaft and rotates material propelling movement to semicircle pipe discharge gate, makes the material drop and transports the area on the second to avoid first conveyer belt and second conveyer belt to link up not well and the unrestrained condition of material.

As the utility model discloses an optimal scheme, be equipped with the stock guide of slope on the discharge gate, the stock guide is used for making the material cunning to the second and transports the area. So set up, when the material was by propelling movement to semicircle pipe discharge gate, then can drop earlier on the stock guide, then along the stock guide of slope with the trend slide to the second transport area to the unrestrained of material in the transportation process has further been avoided.

As the utility model discloses a preferred scheme, the inslot of keeping in is equipped with the smooth flitch of two slopes relatively, smooth flitch is located the both sides of charging ram axle respectively. So set up for when the material leaves first conveyer belt and falls into the groove of keeping in, can make the material follow the sliding plate and get into in the semicircle pipe and be carried away.

As the utility model discloses an optimal scheme, first conveying belt and second conveying belt carry out erection bracing through a plurality of support frames respectively to the realization is to the stable support of two conveying belts, in order to avoid the material to transport the in-process conveying belt condition of breaking down.

As the utility model discloses an optimal scheme, first conveying belt and second conveying belt are the pit shape that the high center in both sides is low after bearing the weight of the material to avoid the material to transport the both sides landing of in-process from first conveying belt and second conveying belt.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses open the agitator tank export after the material stirring is even during the use, along with continue to mix the material and can follow the export and overflow, excavate the material of agitator tank exit to first transport through digging material mechanism and take, the material transports along with first conveyer belt and promotes to keeping in the inslot, material propelling movement to the second transport through pushing equipment will keep in the inslot transports and takes, the material transports along with the second conveyer belt and promotes to the fermentation vat in, this transport system can adapt to the material better and transport to the fermentation vat from the agitator tank and promote highly big and transport the condition far away of distance.

Drawings

Fig. 1 is the front view of the cinnamomum longepaniculatum leaf ingredient conveying system of the present invention.

Fig. 2 is the utility model provides a cinnamomum longepaniculatum leaf batching conveying system top view.

Fig. 3 is a partially enlarged view of a portion a in fig. 1.

Fig. 4 is a partially enlarged view of a portion B in fig. 1.

Fig. 5 is a partially enlarged view of a portion C in fig. 2.

Fig. 6 is a partially enlarged view of fig. 2 at D.

Fig. 7 is a schematic cross-sectional view of the first conveyor belt and the second conveyor belt.

The labels in the figure are: 1-a first conveying belt, 2-a second conveying belt, 3-a temporary storage tank, 4-a stirring tank, 5-a fermentation tank, 61-a material receiving tank, 62-a rotating shaft, 63-a digging plate, 64-a digging motor, 71-a semicircular pipe, 72-a pushing shaft, 73-a helical blade, 74-a discharge port, 75-a guide plate, 76-a sliding plate, 77-a pushing motor, 8-a support frame, 9-a rack, 91-a support rod and 92-a carrier roller.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Examples

The present embodiment provides a cinnamomum longepaniculatum leaf ingredient conveying system;

as shown in fig. 1-7, cinnamomum longepaniculatum leaf batching conveying system in this embodiment, including first conveyer belt 1 and second conveyer belt 2 and the groove of keeping in 3 that the slope was arranged, the groove of keeping in 3 is located first conveyer belt 1 discharge end below and second conveyer belt 2 material loading end top, first conveyer belt 1 is used for transporting the material of agitator tank 4 exit and promotes to groove of keeping in 3, second conveyer belt 2 is arranged in transporting the material in groove of keeping in 3 and promotes to fermentation vat 5, the material loading end of first conveyer belt 1 is equipped with digs the material mechanism, it is used for excavating the material of agitator tank 4 exit to first conveyer belt 1 on to dig the material, be equipped with pushing equipment in the groove of keeping in 3, pushing equipment is used for promoting to the material propelling movement in the groove of keeping in 3 to second conveyer belt 2.

The utility model discloses open the agitator tank export after the material stirring is even during the use, along with continue to mix the material and can follow the export and overflow, excavate the material of agitator tank exit to first transport through digging material mechanism and take, the material transports along with first conveyer belt and promotes to keeping in the inslot, material propelling movement to the second transport through pushing equipment will keep in the inslot transports and takes, the material transports along with the second conveyer belt and promotes to the fermentation vat in, this transport system can adapt to the material better and transport to the fermentation vat from the agitator tank and promote highly big and transport the condition far away of distance.

In this embodiment, the material digging mechanism includes a material receiving groove 61 arranged at the outlet of the stirring tank 4 and a rotating shaft 62 arranged on the material receiving groove 61, the outlet direction of the material receiving groove 61 faces the first conveying belt 1, and a plurality of digging plates 63 are uniformly distributed on the rotating shaft 62 along the circumferential direction. When the material collecting device is used, after the outlet of the stirring tank is opened, the stirred material can escape from the outlet to the material receiving groove, the rotating shaft drives the digging plate to rotate clockwise to realize automatic digging, and therefore the material at the outlet is continuously scraped to the first conveying belt. Specifically, connect the silo 61 welding in agitator tank 4 exit, pivot 62 spanes and supports in the both sides that connect the silo 61, three pieces of digging board 63 have been evenly distributed to the circumference on pivot 62, the one end of pivot 62 is connected with digs the material motor 64, drives the pivot through digging the material motor and rotates, and then drives and dig the board and rotate and dig the material.

In this embodiment, pushing equipment is including locating the semicircle pipe 71 of keeping in groove 3 downside, semicircle pipe 71 and 3 bottoms intercommunications of keeping in groove, be equipped with the ejector sleeve 72 along the axial in the semicircle pipe 71, be equipped with helical blade 73 on the ejector sleeve 72, the discharge gate 74 has been seted up in the semicircle pipe 71 bottom in the position department corresponding with second conveyer belt 2. Through designing pushing equipment for above-mentioned structure, the material is transported to promote after keeping in the groove, drives helical blade through the charging shaft and rotates material propelling movement to semicircle pipe discharge gate, makes the material drop and transports the area on the second to avoid first conveyer belt and second conveyer belt to link up not well and the unrestrained condition of material. Specifically, the pushing shaft 72 is longitudinally supported on two sides of the temporary storage tank 3 in a straddling manner, one end of the pushing shaft 72 is connected with a pushing motor 77, and the pushing motor drives the pushing shaft to rotate so as to drive the helical blade to rotate for pushing.

In this embodiment, an inclined material guiding plate 75 is disposed on the discharging opening 74, and the material guiding plate 75 is used for sliding the material onto the second conveying belt 2. So set up, when the material was pushed to the semicircle pipe discharge gate, then can drop earlier on the stock guide, then along the stock guide of slope with the trend slip to the second transport and take to the unrestrained of in-process material has further been avoided transporting.

In this embodiment, two inclined material sliding plates 76 are oppositely disposed in the temporary storage tank 3, and the material sliding plates 76 are respectively located at two sides of the material pushing shaft 72. So set up for when the material leaves first conveyer belt and falls into the groove of keeping in, can make the material follow the sliding plate and get into in the semicircle pipe and be carried away. The temporary storage groove is installed and supported on the ground through a plurality of supporting columns arranged on the lower side of the temporary storage groove.

In this embodiment, the first conveying belt 1 and the second conveying belt 2 are respectively installed and supported in an inclined manner through a plurality of support frames 8 with different heights, so that stable support of the two conveying belts is realized, and the condition that the conveying belts are out of order in the material conveying process is avoided. Specifically, first conveying belt 1 and second conveying belt 2 are located the longitudinal both ends position of groove 3 of keeping in respectively to first conveying belt 1 discharge end is in the groove 3 top of keeping in, and 2 material loading ends of second conveying belt are in the groove 3 below of keeping in.

In this embodiment, the first conveying belt 1 and the second conveying belt 1 are in a shape of a concave pit with a high center on two sides and a low center after bearing the material, so that the material is prevented from sliding off from two sides of the first conveying belt and the second conveying belt in the conveying process. Specifically, first conveying belt 1 and second conveying belt 2 are installed in frame 9, be equipped with a plurality of bracket poles 91 along conveying belt length direction interval in frame 9, it installs three bearing rollers 92 to rotate on the bracket pole 91, and wherein the bearing roller slope of both sides is arranged to make first conveying belt and second conveying belt bear the weight of and be the pit shape that the high center in both sides is low behind the material. It should be noted that the rack 9 is further provided with a driving motor for driving the first conveying belt and the second conveying belt to circularly operate to convey the material, and the specific structure may refer to the existing belt conveyor and is not described herein again.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the principles of the present invention should be included within the scope of the present invention.

Claims (7)

1. The utility model provides a cinnamomum longepaniculatum leaf batching system of transporting, its characterized in that, first conveyer belt and second conveyer belt and the groove of keeping in that arranges including the slope, the groove of keeping in is located first conveyer belt discharge end below and second conveyer belt material end top, first conveyer belt is used for transporting the material of agitator tank exit and promotes to the groove of keeping in, the second conveyer belt is arranged in transporting the material in the groove of keeping in and promotes to the fermentation vat, the material loading end of first conveyer belt is equipped with digs material mechanism, it is used for excavating the material of agitator tank exit to the first conveyer belt to dig material, be equipped with pushing equipment in the groove of keeping in, pushing equipment is used for will keeping in and promotes to the material propelling movement in the inslot to the second conveyer belt.

2. The cinnamomum longepaniculatum leaf ingredient conveying system according to claim 1, wherein the material digging mechanism comprises a material receiving groove formed in an outlet of the stirring tank and a rotating shaft formed in the material receiving groove, the outlet direction of the material receiving groove faces the first conveying belt, and a plurality of digging plates are uniformly distributed on the rotating shaft along the circumferential direction.

3. The cinnamomum camphora leaf ingredient conveying system according to claim 2, wherein the pushing mechanism comprises a semicircular tube disposed on the lower side of the temporary storage tank, the semicircular tube is communicated with the bottom of the temporary storage tank, a pushing shaft is axially disposed in the semicircular tube, a helical blade is disposed on the pushing shaft, and a discharge hole is disposed at a position corresponding to the second conveying belt at the bottom of the semicircular tube.

4. The ingredient conveying system for cinnamomum longepaniculatum leaves according to claim 3, wherein an inclined material guide plate is disposed on the discharge port, and the material guide plate is used for sliding the material onto the second conveying belt.

5. The cinnamomum longepaniculatum leaf ingredient conveying system according to claim 4, wherein two inclined sliding plates are oppositely arranged in the temporary storage groove, and are respectively positioned on two sides of the pushing shaft.

6. The sassafras leaf ingredient delivery system of any one of claims 1-5, wherein the first and second delivery belts are each mounted and supported by a plurality of support brackets.

7. The ingredient conveying system for sassafras leaves according to claim 6, wherein the first and second conveying belts are shaped as pits with high sides and low center after carrying materials.

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