CN114011313A - Mixing equipment is used in production of quick effect capsule of relieving cough - Google Patents

Abstract

The invention provides mixing equipment for producing cough-relieving immediate effect capsules, relates to the technical field of capsule raw material mixing equipment, and aims to solve the technical problems of low mixing efficiency and poor effect of the existing mixing equipment; the mixing equipment comprises a bracket, a bin body assembly and a mixing assembly; the bin body assembly is arranged on the bracket and comprises a plurality of storage bins and an opening and closing unit, and each storage bin is provided with a discharge hole with a downward opening; the opening and closing unit comprises a power device and a material receiving piece, a material receiving hole is formed in the material receiving piece, the material receiving piece is driven by the power device to rotate, the material receiving hole is opposite to one of the discharge ports along with the rotation of the material receiving piece, and materials in the corresponding storage bin flow out through the discharge ports of the storage bin. The mixing equipment for producing the cough-relieving immediate effect capsule has high mixing efficiency and uniform mixing.

Description

Mixing equipment is used in production of quick effect capsule of relieving cough

Technical Field

The invention relates to the technical field of capsule raw material mixing equipment, in particular to mixing equipment for producing cough-relieving immediate-effect capsules.

Background

Capsules are capsules made of special film-forming materials, such as gelatin, cellulose, polysaccharides, etc., into which the contents are dosed for ease of swallowing. The contents of the cough-relieving capsule comprise ephedra, bitter apricot seed, gypsum, liquorice and the like, and have the effects of relieving cough, relieving asthma, eliminating phlegm and the like.

Before encapsulating the content, need earlier with various contents intensive mixing, guarantee the mixing uniformity, ensure the medicine composition content of every capsule, at present, the mode that the content of the immediately effective capsule of cough suppressing mixes is mostly stirring formula, when stirring the mixing, in order to make the even mixing of material, directly pours the material into the agitator and stirs evenly usually.

However, in order to mix the contents uniformly, a large amount of stirring time is required, the work efficiency is low, and the mixing uniformity is poor.

Disclosure of Invention

Therefore, the invention provides a mixing device for producing cough-relieving immediate effect capsules, which at least partially solves the technical problems of low working efficiency and poor mixing uniformity of the existing mixing device.

The technical scheme of the invention is as follows:

a mixing apparatus for producing cough-suppressing immediate effect capsules, comprising:

a support;

the bin body assembly is arranged on the bracket and comprises a plurality of storage bins and an opening and closing unit, and each storage bin is provided with a discharge port with a downward opening; the opening and closing unit comprises a power device and a material receiving piece, wherein a material receiving hole is formed in the material receiving piece, the material receiving piece is driven by the power device to rotate, the material receiving hole is opposite to one of the discharge holes along with the rotation of the material receiving piece, and the material in the corresponding storage bin flows out through the discharge holes of the storage bin;

a mixing assembly comprising a plurality of mixing boxes, each mixing box being annularly arranged on the support and movable in an annular path; each mixing box can move in proper order to accept the ejection of compact of each discharge gate, and be equipped with the air inlet on each mixing box respectively.

Further, the proportion of the discharge flow of each discharge port is the same as the proportion of the materials stored in the corresponding storage bin in the cough-relieving immediate effect capsule.

Further, the material receiving part comprises a hopper and a discharge pipe;

the hopper is conical, and the section of the hopper is gradually reduced from top to bottom; an end plate is arranged at the top end of the hopper, and the material receiving hole penetrates through the end plate;

the discharging pipe is connected with one end of the bottom of the hopper in series.

Further, the bracket comprises a fixed seat and a rotating seat;

the rotating seat comprises a core body, a rotating ring and a plurality of connecting rods, the core body is rotatably arranged on the fixed seat, the rotating ring is sleeved on the core body, and each connecting rod is connected between the core body and the rotating ring; the mixing boxes are arranged on the rotating ring at intervals;

the air inlet is formed in the fixed seat, a plurality of middle holes which are respectively communicated with the air inlet are formed in the core body, the middle holes correspond to the air inlets of the mixing boxes one by one, and a ventilation pipeline is arranged between each middle hole and the corresponding air inlet.

Further, the air inlet hole extends to the top surface of the fixed seat;

the bottom surface of the core body is abutted against the top surface of the fixed seat, and an annular groove is formed in the bottom surface of the core body and communicated with the air inlet hole;

the central holes respectively penetrate through the side wall of the annular groove along the radial direction of the core body outwards.

Furthermore, the mixing box is square, a feeding pipe is arranged at the top of the mixing box, and the feeding pipe is arranged on the mixing box in a lifting manner;

an elastic piece is arranged between the feeding pipe and the mixing box, and the elastic piece applies thrust to the feeding pipe to enable the feeding pipe to ascend;

a material blocking block is arranged on the mixing box, extends into the feeding pipe and rises along with the feeding pipe, and blocks the feeding pipe; and a gap is formed between the material blocking block and the inner wall of the feeding pipe along with the descending of the feeding pipe.

Further, along the direction from top to bottom, the inner hole of the feeding pipe is arranged in a gradually-reduced mode; and the material blocking block is umbrella-shaped.

Furthermore, a first wedge-shaped surface is arranged on one side of the feeding pipe, a second wedge-shaped surface is arranged on the other side of the feeding pipe, and a stop lever is arranged in an inner hole of the feeding pipe;

the discharging pipe presses the feeding pipe downwards when sliding on the first wedge-shaped surface; after the discharge pipe passes through the first wedge-shaped surface, the discharge pipe penetrates into the feed pipe and is abutted against the stop lever; and the discharge tube may delineate the feed tube via the second wedge.

Further, be equipped with the intake pipe on the lateral wall of mixing box, the hole of intake pipe with the inner chamber intercommunication of mixing box is to being close to the direction of the inner chamber of mixing box, the hole slant of intake pipe sets up down.

Furthermore, a material baffle plate is arranged in the mixing box, and comprises a material receiving section and a material blocking section;

the material blocking section is formed by obliquely and upwards extending the bottom surface of the inner cavity of the mixing box towards the direction close to the air inlet pipe, one end of the material receiving section is connected with the top end of the material blocking section, and the other end of the material receiving section is obliquely and upwards extended towards the direction far away from the air inlet pipe.

The working principle and the beneficial effects of the invention are as follows:

according to the mixing equipment for producing the cough-relieving immediate effect capsules, provided by the invention, a plurality of storage bins are arranged, each storage bin can store corresponding materials, a material receiving hole is formed in a material receiving piece, the material receiving hole rotates to be opposite to the material outlet of one storage bin, the materials in the storage bins can enter the material receiving piece through the material outlet and the material receiving hole and enter a mixing assembly for mixing, the materials can be put into one mixing box in proportion through the rotation of the material receiving hole, then the materials are blown by gas for mixing through the ventilation of the mixing box; firstly, with the material drop into the mixing box according to a proportion, connect in proper order by each mixing box and get the material, on the one hand, the material in the single mixing box is less, and it just also can be fast and have the misce bene of better effect, and on the other hand connects the material in proper order by a plurality of mixing boxes and carries out the mixture of material, can improve the mixing efficiency of material.

Drawings

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

Fig. 1 is a front view of a mixing apparatus for producing a cough-relieving capsule according to an embodiment of the present invention;

fig. 2 is a top view of a mixing device for producing a cough-relieving capsule according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a cartridge body assembly of a cough-relieving capsule provided by an embodiment of the invention;

fig. 4 is a schematic view illustrating a fixing base and a core body according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a mixing box according to an embodiment of the present invention;

fig. 6 and 7 are schematic diagrams illustrating the mixing box and the receiving member in different states according to the embodiment of the present invention.

In the figure: 100-a scaffold; 110-a fixed seat, 111-an air inlet hole, 121-a core body, 1211-an annular groove, 1212-a middle hole, 122-a rotating ring, 123-a connecting rod, 200-a bin body assembly, 210-a storage bin, 211-a discharge hole, 212-a straight barrel section, 213-a cone barrel section, 214-a round barrel section, 220-a material receiving part, 221-a material receiving hole, 310-a mixing box, 311-a material receiving pipe, 320-a stop block, 330-an elastic part, 340-a stop rod, 350-a first wedge-shaped surface, 360-an air inlet pipe, 361-a material stopping section, 362-a material receiving section, 363-a filter screen and 370-an exhaust valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

The present embodiment provides a mixing apparatus for producing cough-suppressing immediately effective capsules, which is shown in fig. 1 and comprises a bracket 100, a cartridge body assembly 200 and a mixing assembly; the bin body assembly 200 is arranged on the support 100, the bin body assembly 200 comprises a plurality of storage bins 210 and an opening and closing unit, and each storage bin 210 is provided with a discharge hole 211 with a downward opening; the opening and closing unit comprises a power device and a material receiving piece 220, a material receiving hole 221 is formed in the material receiving piece 220, the material receiving piece 220 is driven by the power device to rotate, the material receiving hole 221 is opposite to one of the material outlets 211 along with the rotation of the material receiving piece 220, and the material in the corresponding storage bin 210 flows out through the material outlet 211 of the storage bin 210.

The mixing assembly comprises a plurality of mixing boxes 310, each mixing box 310 is arranged on the support 100 in a ring shape and can move on a ring-shaped route; each mixing box 310 can move in sequence to receive the discharge of the receiving member 220, and each mixing box 310 is provided with an air inlet.

That is, in the mixing apparatus of the present embodiment, each storage bin 210 can be used for storing one kind of raw material, for example, one storage bin 210 stores ephedra to be mixed, another storage bin 210 stores almonds to be mixed, and another storage bin 210 stores gypsum to be mixed. When the material receiving hole 221 on the material receiving piece 220 rotates to the material outlet 211 of the ephedra storage bin 210, the ephedra can enter the material receiving piece 220 from the material outlet 211 and the material receiving hole 221 and enter the mixing box 310, while the material outlet 211 in other storage bins 210 is blocked by the material receiving piece 220, when the material receiving hole 221 on the material receiving piece 220 rotates to be opposite to the material outlet 211 of the bitter almond storage bin 210, the bitter almond can enter the material receiving piece 220 and enter the mixing box 310; that is, the rotation of the receiving member 220 enables the raw materials of each storage bin 210 to enter the mixing box 310 in sequence.

The mixing boxes 310 of the present embodiment can move on a circular path, and the mixing boxes 310 can move to receive the discharging of the receiving members 220 in sequence, that is, after one of the mixing boxes 310 receives the discharging of the receiving members 220, the mixing box 310 can move away from the next mixing box 310 to receive the discharging of the receiving members 220, and the moving mixing box 310 can mix the materials therein uniformly by blowing air into the interior thereof.

The mixing apparatus of the present embodiment, by adopting the above structure, on one hand, can mix the materials in the storage bins 210 in batches in the mixing boxes 310, and obviously, the smaller the mixing amount in a single time, the faster and more uniform the mixing can be performed; moreover, through adopting the mode of ventilating to mixing box 310 inside, compare in the mode that adopts the stirring, when blowing the material by gas, the removal of material is more unordered, just also can possess better mixed effect.

On the other hand, since each mixing box 310 can move annularly on the support 100, each mixing box 310 can receive and mix the materials in sequence, and there is no need to wait for the materials in a single mixing box 310 to be mixed uniformly and then perform the next mixing, and the mixing device of the embodiment has high mixing efficiency.

On the basis of the above structure, the embodiment provides a structure that enables the mixing device to be easily used, and specifically, the ratio of the discharge flow rate of the discharge port 211 of each storage bin 210 is the same as the ratio of the materials stored in the corresponding storage bin 210 in the cough-relieving immediate effect capsule.

In a specific structure, referring to fig. 3, each storage bin 210 of the present embodiment includes a straight cylinder section 212 located above, a conical cylinder section 213 connected in series with the straight cylinder section 212, and a circular pipe section 214 connected in series below the conical cylinder section 213, and the material in the storage bin 210 can flow out through the inner hole of the circular pipe section 214, that is, the inner hole of the circular pipe section 214 forms the discharge port 211; in this embodiment, the diameters of the inner holes of the circular tube sections 214 of the storage bins 210 are proportionally arranged, specifically, when the proportion of the materials stored in the storage bins 210 in the capsules is larger, the diameter of the inner hole of the circular tube section 214 of the storage bin 210 is also larger, that is, the ratio of the diameters of the inner holes of the circular tube sections 214 of the storage bins 210 is the same as the ratio of the corresponding materials in the capsules.

It should be noted that, in some embodiments, the diameters of the circular tube sections 214 may also be set to be the same, and the proportional entry of the materials into the mixing box 310 is realized by adjusting the rotation speed of each material receiving member 220, specifically, when the proportion of the materials in the storage bin is larger, the time for the material receiving hole 221 of the material receiving member 220 to rotate through the material outlet 211 thereof is longer; however, compared with the scheme of this embodiment, the scheme has a great difficulty in controlling the motor for driving the receiving member 220 to rotate, and is not easy to implement.

Referring to fig. 3, the receiving member 220 of the present embodiment includes a hopper and a discharging pipe; the hopper is conical, and the section of the hopper is reduced from top to bottom, or the hopper is in an inverted cone shape; the top end of the hopper is provided with an end plate, the material receiving hole 221 is eccentrically arranged on the end plate, and the discharge pipe is connected in series with the bottom end of the hopper. With the rotation of the receiving member 220, when the receiving hole 221 is opposite to one of the discharge ports 211 of each storage bin 210, the material in the storage bin 210 can enter the hopper and can enter the mixing box 310 through the discharge port. It should be noted that the structure of the receiving member 220 is not limited thereto, and in some embodiments, the receiving member 220 may also adopt the structure of the storage bin 210 as described above.

Referring to fig. 1, 2 and 4, the bracket 100 of the present embodiment includes a fixed base 110 and a rotating base; wherein, the rotating seat comprises a core body 121, a rotating ring 122 and a plurality of connecting rods 123; the core body 121 is rotatably disposed on the fixing base 110, the rotating ring 122 is sleeved on the core body 121, the connecting rods 123 are connected between the core body 121 and the rotating ring 122, and the mixing boxes 310 are disposed on the rotating ring 122 at intervals. The fixed seat 110 is provided with an air inlet hole 111, the core body 121 is provided with a plurality of middle holes 1212 respectively communicated with the air inlet hole 111, each middle hole 1212 corresponds to an air inlet of each mixing box 310 one by one, and an air vent pipeline is arranged between each middle hole 1212 and the corresponding air inlet of the mixing box 310.

In this embodiment, the air inlet hole 111 on the fixing base 110 can be communicated with an external compressed air output device, compressed air is introduced into the air inlet hole 111 by the compressed air output device, and when the core body 121 rotates, the compressed air can also enter each middle hole 1212 on the core body 121 through the air inlet hole 111 and enter the corresponding mixing box 310 through each middle hole 1212 diameter ventilation pipeline.

In a specific structure, referring to fig. 4, the air inlet hole 111 of the present embodiment extends to the top surface of the fixing base 110, and the intersection of the air inlet hole 111 and the top surface of the fixing base 110 is eccentrically disposed, the bottom end surface of the core body 121 abuts against the top surface of the fixing base 110, the bottom end surface of the core body 121 is provided with an annular groove 1211, the intersection is opposite to the annular groove 1211, and when the core body 121 rotates, the annular groove 1211 keeps communicating with the intersection; the intermediate holes 1212 extend radially outward of the core 121 through the side wall of the annular groove 1211.

Referring to fig. 5, the mixing box 310 of the present embodiment is square, and a feeding hole is opened at the top of the mixing box 310, and the feeding hole of each mixing box 310 can move to the discharging end of the receiving member 220 along with the mixing box 310, that is, move to the position right below the discharging pipe. The material in the receiving member 220 can enter the mixing box 310 through the feeding hole.

It should be noted that the structure of the mixing box 310 is not limited thereto, and in some embodiments, the mixing box 310 may also have other shapes such as a circle, a polygon, and the like.

On this basis, the embodiment provides a structure that enables the mixing box 310 to be used easily, and in particular, referring to fig. 5 to 7, a material receiving pipe 311 is arranged at the top end of the mixing box 310, the material receiving pipe 311 is arranged on the mixing box 310 in a lifting manner, an elastic member 330 is arranged between the material receiving pipe 311 and the mixing box 310, and the elastic member 330 applies a pushing force to the material receiving pipe 311 to make it lift; an umbrella-shaped stop 320 extending into the material receiving pipe 311 is arranged on the mixing box 310, and the section of the inner hole of the material receiving pipe 311 is gradually reduced from top to bottom. As the receiving pipe 311 descends, a gap for the material to flow through is formed between the stopper 320 and the inner hole of the receiving pipe 311.

A first wedge surface 350 is arranged on one side of the material receiving pipe 311, and when the mixing box 310 moves towards the direction close to the material discharging pipe, the material discharging pipe presses down the first wedge surface 350 to enable the material receiving pipe 311 to descend; a stop rod 340 is arranged in the material receiving pipe 311, and when the material discharging pipe slides to the position right above the material receiving pipe 311, the stop rod 340 is abutted against the bottom surface of the material discharging pipe to prevent the material receiving pipe 311 from rising; the stop lever 340 is a circular or square lever extending along the radial direction of the material receiving pipe 311, the material in the material discharging pipe can fall down from the two sides of the stop lever 340, and at the moment, the material flowing out of the material discharging pipe can fall into the material receiving pipe 311 and enter the mixing box 310 through a gap between the stop block 320 and the inner hole wall of the material receiving pipe 311; after the material is put into the mixing box 310, the discharging pipe slides away from the material receiving pipe 311, the material receiving pipe 311 rises under the action of the elastic part 330, and the stopper 320 blocks the material receiving pipe 311 again, so that subsequent material mixing is facilitated.

In this embodiment, the elastic member 330 is a spring sleeved on the material receiving tube 311 and abutted between the top end surface of the mixing box 310 and the upper flange of the outer periphery of the material receiving tube 311.

In the embodiment, by adopting the structure, the connection between the discharge pipe and the material receiving pipe 311 can be conveniently completed, and the opening and closing of the material receiving pipe 311 can be conveniently completed; it should be noted that, the material receiving pipe 311 can also be driven by the cylinder or the like to move up and down, so that the material receiving pipe 311 is communicated with the material discharging pipe, and the material receiving pipe 311 can be plugged or opened by a mode that the cylinder drives the baffle plate.

Referring to fig. 5, in the present embodiment, an air inlet pipe 360 is disposed on a side wall of the mixing box 310, an inner hole of the air inlet pipe 360 is communicated with an inner cavity of the mixing box 310, and the inner hole of the air inlet pipe is disposed obliquely downward toward a direction close to the inner cavity of the mixing box 310. In this embodiment, the direction of the air inlet pipe is set to be downward, and the air can blow up the materials on the bottom surface of the inner cavity of the mixing box 310, so that the materials collide with each other in the inner cavity of the mixing box 310 to be mixed.

In this embodiment, the air inlet pipes 360 are arranged at intervals in the horizontal direction, and the air inlet pipes are arranged in a plurality of numbers, so that the materials on the bottom surface of the inner cavity of the mixing box 310 can be more fully blown, the collision of the materials in the air is more sufficient, and the materials can be more uniformly mixed.

In this embodiment, referring to fig. 5, a material baffle is further disposed in the mixing box 310, and the material baffle includes a material receiving section 362 and a material blocking section 361, wherein the material blocking section 361 extends from the bottom surface of the inner cavity of the mixing box 310 to the direction close to the air inlet pipe in an inclined manner, one end of the material receiving section 362 is connected to one end of the top of the material blocking section, and the other end extends in an inclined manner to the direction away from the air inlet pipe in an inclined manner, and is at least opposite to the inner hole of the material receiving pipe 311. And a filter screen 363 is arranged between the other end of the material receiving section and the top surface of the inner cavity of the mixing box 310. The filter screen is capable of allowing the passage of gas while organizing the passage of material particles.

In this embodiment, through setting up foretell striker plate, the material falls back and will be just to the one side of intake pipe through connecing the material section to get into and hinder the material section, because hinder material section slope setting, after the material is blown to gas, the material will collide with hindering the material section to change the direction of motion of material, thereby can make the mixture of material more even.

In this embodiment, the mixing box 310 is provided with the exhaust valve, and the exhaust valve is located on one side of the filter screen away from the air inlet pipe, so that the air in the mixing box 310 can be smoothly exhausted by the exhaust valve.

Wherein, can be provided with the opening on the bottom surface of mixing box 310 to be equipped with a door body that can open or close on the bottom surface of mixing box 310, when the opening was closed, the material can mix in mixing box 310, and when the opening was opened, the material that the mixing was accomplished in mixing box 310 can flow through the opening. The materials mixed in the mixing box 310 can be collected or enter a filling device to be filled into the capsule

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Mixing apparatus for the production of cough-suppressing immediately-acting capsules, comprising:

a bracket (100);

the bin body assembly (200) is arranged on the bracket (100), the bin body assembly (200) comprises a plurality of storage bins (210) and an opening and closing unit, and each storage bin (210) is provided with a discharge hole (211) with a downward opening; the opening and closing unit comprises a power device and a material receiving part (220), a material receiving hole (221) is formed in the material receiving part (220), the material receiving part (220) is driven by the power device to rotate, the material receiving hole (221) is opposite to one of the material outlets (211) along with the rotation of the material receiving part (220), and materials in the corresponding storage bin (210) flow out through the material outlets (211) of the storage bin (210);

a mixing assembly (300) comprising a plurality of mixing boxes (310), each mixing box (310) being annularly arranged on the support (100) and movable on an annular path; each mixing box (310) can move in sequence to receive the discharge of each discharge port (211), and each mixing box (310) is provided with an air inlet.

2. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in claim 1, wherein the ratio of the discharge flow rate of each discharge port (211) is the same as the ratio of the material stored in the corresponding storage bin (210) in the cough-suppressing immediately effective capsule.

3. The mixing apparatus for the production of cough-suppressing immediately effective capsules as claimed in claim 1 wherein the receiving member (220) comprises a hopper and a discharge pipe;

the hopper is conical, and the section of the hopper is gradually reduced from top to bottom; an end plate is arranged at the top end of the hopper, and the material receiving hole (221) penetrates through the end plate;

the discharging pipe is connected with one end of the bottom of the hopper in series.

4. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in claim 1, wherein said holder (100) comprises a fixed seat (110) and a rotating seat;

the rotating seat comprises a core body (121), a rotating ring (122) and a plurality of connecting rods (123), the core body (121) is rotatably arranged on the fixed seat (110), the rotating ring (122) is sleeved on the core body (121), and each connecting rod (123) is connected between the core body (121) and the rotating ring (122); the mixing boxes (310) are arranged on the rotating ring (122) at intervals;

the air inlet structure is characterized in that an air inlet hole (111) is formed in the fixed seat (110), a plurality of middle holes (1212) which are respectively communicated with the air inlet hole (111) are formed in the core body (121), each middle hole (1212) corresponds to an air inlet of each mixing box (310) one by one, and a ventilation pipeline is arranged between each middle hole (1212) and the corresponding air inlet.

5. The mixing apparatus for producing cough-suppressing immediately effective capsule as set forth in claim 4, wherein said air intake hole (111) is extended to the top surface of said holder (110);

the bottom surface of the core body (121) is abutted against the top surface of the fixed seat (110), an annular groove (1211) is formed in the bottom surface of the core body (121), and the annular groove (1211) is communicated with the air inlet hole (111);

the central bores (1212) each extend through a side wall of the annular groove (1211) radially outward of the core (121).

6. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in any one of claims 1 to 5, wherein said mixing tank (310) is square, and the top of said mixing tank (310) is provided with a feeding pipe, said feeding pipe is liftably provided on said mixing tank (310);

an elastic piece (330) is arranged between the feeding pipe and the mixing box (310), and the elastic piece (330) applies a pushing force on the feeding pipe to lift the feeding pipe;

a material blocking block is arranged on the mixing box (310), the material blocking block extends into the feeding pipe and rises along with the feeding pipe, and the material blocking block blocks the feeding pipe; and a gap is formed between the material blocking block and the inner wall of the feeding pipe along with the descending of the feeding pipe.

7. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in claim 6, wherein the inner hole of said feed pipe is arranged to be gradually smaller in the direction from top to bottom; and the material blocking block is umbrella-shaped.

8. The mixing apparatus for producing cough-suppressing capsule according to claim 6, wherein one side of the feeding tube is provided with a first wedge surface (350), the other side of the feeding tube is provided with a second wedge surface, and a stop rod is arranged in the inner hole of the feeding tube;

-said discharge pipe is pushed down said feed pipe while sliding on said first wedge-face (350); after the discharge pipe passes through the first wedge-shaped surface (350), the discharge pipe penetrates into the feed pipe and is abutted against the stop lever; and the discharge tube may delineate the feed tube via the second wedge.

9. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in any one of claims 1 to 5 wherein, an air inlet pipe is provided on the side wall of the mixing box (310), the inner hole of the air inlet pipe is communicated with the inner cavity of the mixing box (310), and the inner hole of the air inlet pipe is disposed obliquely downward toward the direction close to the inner cavity of the mixing box (310).

10. The mixing apparatus for producing cough-suppressing immediately effective capsule as claimed in claim 9, wherein a striker plate is provided in said mixing tank (310), said striker plate comprising a receiving section and a blocking section;

the material blocking section is formed by extending the bottom surface of the inner cavity of the mixing box (310) upwards in an inclined mode towards the direction close to the air inlet pipe, one end of the material receiving section is connected with the top end of the material blocking section, and the other end of the material receiving section extends upwards in an inclined mode towards the direction far away from the air inlet pipe.

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