CN215827010U - Raw materials in chinese mugwort grass goods production is reinforced and is used feed bin - Google Patents

Abstract

A raw material feeding bin in wormwood product production comprises a charging barrel and a discharging barrel, wherein the discharging barrel is a barrel body with a rectangular structure, a quantitative discharging roller matched with the size of an inner cavity of the discharging barrel is erected in the discharging barrel, a motor is arranged on one side of the discharging barrel, the quantitative discharging roller is a roller body with a cylindrical structure, and a plurality of axially-arranged material grooves with a fan-shaped column structure are uniformly formed in the circumferential surface of the quantitative discharging roller; the feed cylinder inner tower is equipped with and is used for impressing the material subassembly of pounding in the silo fast, the material subassembly of pounding is including perpendicular the setting smash material pole, the setting is smashing the link on material pole top and can dismantle the material pressure head of pounding of connection in smashing the material pole bottom in the perpendicular well axis of feed cylinder inner chamber, the feed cylinder inner wall is located link top department and is provided with the lifting unit who is used for the drive to smash the material subassembly vertical sliding lift. The single-time blanking amount is relatively fixed, the process of weighing one by one can be omitted, the fallen materials can be directly bagged and packaged, and the efficiency is improved.

Description

Raw materials in chinese mugwort grass goods production is reinforced and is used feed bin

Technical Field

The utility model relates to the technical field of production of wormwood products, in particular to a stock bin for raw material feeding in the production of wormwood products.

Background

Moxa wool is a soft and fine cotton-like substance obtained by repeatedly drying folium artemisiae argyi in the sun, pestling, beating and crushing, and screening out impurities and dust. Moxa is a natural processed product of folium artemisiae argyi, has the same efficacy as folium artemisiae argyi, and is different from folium artemisiae argyi in morphology. According to the efficacy of moxa, people often process moxa into various products, such as moxa pillows, moxa quilts, moxa columns/moxa sticks, foot-soaking bags, bath bags, and the like. When the moxa foot bath bag or the bath bag is produced, a certain amount of moxa needs to be added into the bag, and then the bag is sealed and packaged. The prior processing mode is that the processed moxa is quantitatively weighed manually and then is filled into bags one by one, so that the efficiency is relatively low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model aims to provide a raw material feeding bin in the production of wormwood products, wherein a quantitative feeding roller with a quantitative trough is used for feeding, the single feeding amount is relatively fixed, the process of weighing one by one can be omitted, the dropped materials can be directly bagged and packaged, and the efficiency is improved.

The technical scheme adopted by the utility model to solve the problems is as follows:

a raw material feeding bin in production of wormwood products comprises a charging barrel and a discharging barrel arranged at the bottom of the charging barrel, wherein the discharging barrel is a barrel body with a rectangular structure, a quantitative discharging roller matched with the inner cavity of the discharging barrel in size is horizontally erected in the discharging barrel along the length direction of the discharging barrel, a motor used for driving the quantitative discharging roller to rotate is arranged on one side of the discharging barrel, the quantitative discharging roller is a roller body with a cylindrical structure, and a plurality of axially-arranged material grooves with a fan-shaped column structure are uniformly formed in the circumferential surface of the quantitative discharging roller;

the feed cylinder inner tower is equipped with and is used for impressing the material subassembly of pounding in the silo fast, the material subassembly of pounding is including perpendicular the setting smash material pole, the setting is smashing the link on material pole top and can dismantle the material pressure head of pounding of connection in smashing the material pole bottom in the perpendicular well axis of feed cylinder inner chamber, the feed cylinder inner wall is located link top department and is provided with the lifting unit who is used for the drive to smash the material subassembly vertical sliding lift.

In a preferred embodiment of the utility model, one of the troughs on the quantitative discharging roller is exposed when rotating to the outlet at the bottom of the discharging barrel, and the rest troughs on the quantitative discharging roller are not in a sealed state when rotating to the outlet at the bottom of the discharging barrel.

In a preferred embodiment of the utility model, the radial depth of the trough is at least four fifths of the radius of the metering roller.

In a preferred embodiment of the present invention, the quantitative discharging roller and the inner wall of the discharging barrel are in a rotation sealing state.

As a preferred embodiment of the utility model, the connecting frame comprises a connecting disc fixedly connected to the top end of the material smashing rod and a plurality of connecting rods uniformly and horizontally arranged on the circumference of the connecting disc, and the end wall of each connecting rod horizontally extends to a position close to the inner wall of the charging barrel.

As a preferred embodiment of the present invention, a pull rope is connected between any two adjacent connecting rods.

As a preferred embodiment of the utility model, the lifting assembly comprises a plurality of air cylinders uniformly and vertically arranged along the inner circumferential wall of the charging barrel and a sealing cover arranged on the air cylinders, and the telescopic rods of the air cylinders are vertically downwards and connected with the connecting frame after penetrating through the sealing cover.

As a preferred embodiment of the utility model, the ramming head is in a structure similar to an isosceles trapezoid, the length of the top edge of the ramming head is smaller than that of the bottom edge of the ramming head, the width of the top of the ramming head is larger than that of the bottom of the ramming head, a stud is vertically arranged in the center of the top end of the ramming head, a screw hole is formed in the center of the bottom end of the ramming rod, and the ramming head is connected to the bottom end of the ramming rod through a bolt.

As a preferred embodiment of the utility model, the front side wall and the rear side wall of the ramming head are both vertically provided with guide chutes.

Compared with the prior art, the utility model has the following beneficial effects:

firstly, the quantitative blanking roller with the quantitative material groove is adopted for blanking, the blanking amount of a single time is relatively fixed, the process of weighing one by one can be omitted, the fallen materials can be directly bagged and packaged, the quantitative blanking roller is provided with the plurality of material grooves, the material grooves can be alternatively blanked for multiple times by rotating one circle, and the efficiency is improved.

Secondly, in order to improve the blanking speed, the moxa in the charging barrel is quickly pressed into the material groove by the aid of the material pounding assembly during blanking, the pressing force of the material pounding rod is fixed every time, the acting force applied to the moxa is fixed, and the moxa enters the material groove under the same pressure every time, so that the quantity of the moxa pressed into the material groove every time can be kept constant basically, and the blanking quantity is fixed.

Drawings

FIG. 1 is a schematic structural view of the present invention in an initial state;

FIG. 2 is a schematic view of the ramming assembly of the present invention in a lowered state;

FIG. 3 is a schematic top view of the tamping assembly in the cartridge;

FIG. 4 is a schematic perspective view of a quantitative blanking roller;

FIG. 5 is a schematic view of a vertical cross-sectional structure of a quantitative blanking roller;

FIG. 6 is a schematic view of a connection structure between the ramming head and the ramming mass;

FIG. 7 is a schematic view of the mounting structure between the guide step and the charging barrel and the discharging barrel;

fig. 8 is a schematic perspective view of the guide step and the quantitative blanking roller.

The labels in the figure are: 1. the device comprises a charging barrel, 2, a discharging barrel, 3, a quantitative discharging roller, 4, a motor, 5, a trough, 6, a material smashing rod, 7, a connecting frame, 71, a connecting disc, 72, a connecting rod, 73, a pull rope, 8, a material smashing pressure head, 81, a stud, 82, a guide chute, 9, an air cylinder, 10, a sealing cover, 11 and a guide step.

Detailed Description

The present invention is described in detail with reference to the following embodiments, which are provided in the present invention as a premise of the technical solution of the present invention, and the detailed implementation manner and the specific operation process are provided in the present embodiment.

Example 1

As shown in fig. 1-5, a raw material feeding bin for moxa production comprises a charging barrel 1 and a discharging barrel 2 arranged at the bottom of the charging barrel, wherein the upper half section of the charging barrel 1 is a cylindrical barrel, the lower half section of the charging barrel is a conical barrel, the discharging barrel 2 is a rectangular barrel, a quantitative discharging roller 3 matched with the inner cavity of the discharging barrel 2 in size is horizontally erected along the length direction of the discharging barrel, a motor 4 for driving the quantitative discharging roller 3 to rotate is arranged at one side of the discharging barrel 2, the quantitative discharging roller 3 is a cylindrical roller body, a plurality of axially arranged fan-shaped cylindrical troughs 5 are uniformly arranged on the circumferential surface of the quantitative discharging roller 3, the length of each trough 5 is slightly smaller than that of the quantitative discharging roller 3, generally, no matter the size of each trough 5, two piled troughs 5 are arranged in use, so that one trough 5 is exposed when rotating to the outlet at the bottom of the discharging barrel 2, the other trough 5 is also positioned in the discharge barrel 2 and is relatively sealed, when the exposed trough 5 finishes discharging, the other trough 5 is positioned at the topmost end of the quantitative discharging roller 3 and is filled, and the two troughs 5 form alternate discharging in a rotating state, which is most practical;

the material smashing component is arranged in the feed cylinder 1 and used for quickly pressing materials into the material groove 5, the material smashing component comprises a material smashing rod 6 vertically arranged on a vertical middle axis of an inner cavity of the feed cylinder 1, a connecting frame 7 arranged at the top end of the material smashing rod 6 and a material smashing pressure head 8 detachably connected to the bottom end of the material smashing rod 6, the material smashing rod 6 vertically corresponds to the material groove 5, the material smashing pressure head 8 can be arranged in the material groove 5, and a lifting component used for driving the material smashing component to vertically slide and lift is arranged above the connecting frame 7 on the inner wall of the feed cylinder 1.

In this embodiment, the lifting assembly includes a plurality of air cylinders 9 uniformly and vertically arranged along the inner circumferential wall of the charging barrel 1 and a sealing cover 10 arranged on the air cylinders 9, the sealing cover 10 forms a sealing protection for the air cylinders 9, and the telescopic rods of the air cylinders 9 are connected with the connecting frame 7 after vertically downwards passing through the sealing cover 10.

In this embodiment, the radial depth of the trough 5 is at least four fifths of the radius of the quantitative blanking roller 3, so as to ensure the filling amount of the trough 5.

In this embodiment, the quantitative blanking roller 3 and the inner wall of the discharge barrel 2 are in a rotation sealing state, gaps between two ends and the circumference of the quantitative blanking roller 3 and the inner wall of the discharge barrel 2 are small, the gap is only used for the quantitative blanking roller 3 to freely rotate, and moxa does not enter the gap in the rotation state to form rotation sealing.

In addition, can be located the inner wall of 3 both ends upsides of ration unloading roller at play feed cylinder 2 and set up a guide step 11 respectively, as shown in fig. 7 and 8, the top surface of this guide step 11 is an inclined plane towards silo 5, use as the spigot surface, the length of guide step 11 matches with the width of play feed cylinder 2, the lateral wall of guide step 11 then the snap-on is on the inner wall of play feed cylinder 2, the diapire of guide step 11 has an indent circular arc, the arc surface of this indent circular arc is laminated with the tip top surface lubrication of ration unloading roller 3, so, guide step 11 has just accomplished the sealed between 3 both ends of ration unloading roller and play feed cylinder 2 inner wall.

In this embodiment, the material pressure head 8 of smashing is class isosceles trapezoid body structure, the length on 8 topside of material pressure head of smashing is less than the length on its base, the width at 8 tops of material pressure head of smashing is greater than the width of its bottom, make material pressure head 8 of smashing form down narrow wide structure, this structure corresponds silo 5's structure, be convenient for material pressure head 8 of smashing directly put into silo 5 in, of course in the filler of reality, it has been full of the moxa between material pressure head 8 and the silo 5 to smash, material pressure head 8 of smashing can not directly put into silo 5 in, just act as the pressure head of a moxa, apply the pressure of pushing down to the moxa, tamp with the moxa in silo 5, and material pressure head 8's top center is provided with double-screw bolt 81 perpendicularly, smash 6 bottom centers of material pole and be provided with the screw, material pressure head 8 bolted connection is in the bottom of smashing material pole 6.

Example 2

The scheme of this embodiment is the same as embodiment 1 main part, and the difference lies in, link 7 includes connection pad 71 and the even level of fixed connection at the material pole 6 top of smashing sets up three connecting rod 72 on connection pad 71 circumference, and the equal level of end wall of every connecting rod 72 extends to the position department of being close to feed cylinder 1 inner wall, and the structure of link 7 can reduce the area of contact between its and the moxa as far as possible under the prerequisite of guaranteeing stability, avoids link 7 to push down the in-process resistance too big.

Example 3

The scheme of this embodiment is the same with embodiment 2 main part, and the difference lies in, all is connected with stay cord 73 between two arbitrary adjacent connecting rods 72, and on embodiment 2 basis, the joining of stay cord 73 can drive the moxa that is located between two adjacent connecting rods 72 and follow and smash the material subassembly and fall together, and when smashing the material subassembly and rise the come-back position, this part of moxa is once passed to this ascending stay cord 73, carries out the stirring of certain degree to this part of moxa, promotes the even whereabouts of moxa in the feed cylinder 1.

Example 4

The scheme of this embodiment is the same as embodiment 1 main part, and the difference lies in, all seted up baffle box 82 perpendicularly on the front and back lateral wall of ramming material pressure head 8, baffle box 82 can carry out the ascending direction mediation of vertical direction to the moxa that is located around the ramming material pressure head 8, promotes the moxa vertical drop and enters into in the silo 5.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited to the embodiments, and various changes and modifications can be made by one skilled in the art without departing from the scope of the utility model.

Claims (9)

1. The utility model provides a raw materials is reinforced with feed bin in chinese mugwort grass goods production, includes feed cylinder (1) and sets up and locate a feed cylinder (2) in the feed cylinder bottom, its characterized in that: the discharging barrel (2) is a barrel body with a rectangular structure, a quantitative discharging roller (3) matched with the inner cavity of the discharging barrel (2) in size is horizontally erected in the discharging barrel (2) along the length direction of the discharging barrel, a motor (4) used for driving the quantitative discharging roller (3) to rotate is arranged on one side of the discharging barrel (2), the quantitative discharging roller (3) is a roller body with a cylindrical structure, and a plurality of axially-arranged material grooves (5) with a fan-shaped column structure are uniformly formed in the circumferential surface of the quantitative discharging roller (3);

feed cylinder (1) inner tower is equipped with and is used for impressing the material subassembly of pounding in silo (5) fast, the material subassembly of pounding is including perpendicular setting up pounding material pole (6) on the perpendicular axis of feed cylinder (1) inner chamber, set up in link (7) on pounding material pole (6) top and can dismantle to connect and smash material pressure head (8) of pounding in material pole (6) bottom, feed cylinder (1) inner wall is located link (7) top department and is provided with the lifting unit who is used for the drive to smash the material subassembly and slides the lift perpendicularly.

2. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: one trough (5) on the quantitative discharging roller (3) rotates to an outlet at the bottom of the discharging barrel (2) and is in an exposed state, and meanwhile, the rest troughs (5) on the quantitative discharging roller (3) are not rotated to an outlet at the bottom of the discharging barrel (2) and are in a sealed state.

3. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: the radial depth of the material groove (5) is at least four fifths of the radius of the quantitative blanking roller (3).

4. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: the quantitative blanking roller (3) and the inner wall of the discharging barrel (2) are in a rotary sealing state.

5. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: the connecting frame (7) comprises a connecting disc (71) fixedly connected to the top end of the material smashing rod (6) and a plurality of connecting rods (72) uniformly and horizontally arranged on the circumference of the connecting disc (71), and the end wall of each connecting rod (72) horizontally extends to a position close to the inner wall of the charging barrel (1).

6. The stock bin for charging raw materials in the production of wormwood products according to claim 5, wherein: a pull rope (73) is connected between any two adjacent connecting rods (72).

7. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: the lifting assembly comprises a plurality of air cylinders (9) and a sealing cover (10), wherein the air cylinders (9) are uniformly and vertically arranged along the inner circumferential wall of the charging barrel (1), the sealing cover (10) is arranged on the air cylinders (9), and telescopic rods of the air cylinders (9) are vertically downward and penetrate through the sealing cover (10) to be connected with the connecting frame (7).

8. The stock bin for charging raw materials in the production of wormwood products according to claim 1, wherein: smash material pressure head (8) and be class isosceles trapezoid body structure, smash the length on material pressure head (8) topside and be less than the length on its base, smash the width at material pressure head (8) top and be greater than the width of its bottom, and smash the top center of material pressure head (8) and be provided with double-screw bolt (81) perpendicularly, smash material pole (6) bottom center and be provided with the screw, smash material pressure head (8) bolted connection and smash the bottom of material pole (6).

9. The stock bin for charging raw materials in the production of wormwood products according to claim 8, wherein: and guide chutes (82) are vertically formed in the front side wall and the rear side wall of the ramming pressure head (8).

Images