CN212686912U - Be used for making wine electronic rice husk suction nozzle controlling means - Google Patents

Abstract

The utility model provides an electric rice hull suction nozzle control device for wine brewing, wherein rice hulls in a pit of a horizontal warehouse are conveyed into a cleaning device by suction nozzle wind, the pit is of an inverted cone-shaped structure and protrudes upwards from the center of the bottom to form a conical protruding structure, and a fence is arranged at the top end of the pit; the vertically arranged material conveying pipeline forms an outward-expanded bell mouth-shaped suction nozzle at the bottom end, extends downwards into the pit and is opposite to the conical bulge structure; the outer sleeve of the conveying pipeline is driven by an electric push rod to vertically displace along the axial direction of the conveying pipeline, a vertically communicated interlayer is formed between the inner wall of the air sleeve and the inner wall of the conveying pipeline and serves as an air supply duct, the top of the air supply duct is communicated with the outside, the bottom of the air supply duct forms a downward and outward flared air port which is arranged in a circle above the suction nozzle in a surrounding mode, and the flared air port is arranged above the suction nozzle in a close mode. The utility model discloses be favorable to controlling the feed volume, avoid causing the pipeline to block up because of the amount of wind is too big.

Description

Be used for making wine electronic rice husk suction nozzle controlling means

Technical Field

The utility model belongs to the technical field of the making wine technique and specifically relates to a be used for electronic rice husk suction nozzle controlling means of making wine that says so.

Background

The most common and most used auxiliary materials for brewing wine are rice husks, and the rice husks have very important functions in the production process of white spirit. The rice hull consumption is about 22% of the material charging amount in the brewing process, and the volume of the rice hull thrown into the fermented grains is large due to small volume weight of the rice hull.

In the items of rice husk impurity removal and pneumatic conveying systems, one of the feeding modes is to convey rice husk air in a horizontal warehouse to cleaning equipment through a suction nozzle for cleaning. The bin is internally provided with an inverted cone-shaped pit, and the suction nozzle is deep into the bottom of the pit and can automatically suck and convey rice husks.

The rice hulls are light in weight and complex in surface shape, so that the problems of unsmooth feeding, bridging and arching and feeding interruption are found after the project is operated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving above-mentioned technical problem to a certain extent at least. Therefore, the utility model provides an it is used for making wine electronic rice husk suction nozzle controlling means is favorable to controlling the feed rate, avoids causing the pipe blockage because of the amount of wind is too big.

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

the utility model provides a be arranged in making wine electronic rice husk suction nozzle controlling means, the rice husk in the horizontal warehouse pit by in the cleaning equipment is sent to the suction nozzle wind, its structural feature is:

the pit is of an inverted cone structure, the center of the bottom of the pit protrudes upwards to form a conical protruding structure, and a fence is arranged at the top end of the pit; the vertically arranged material conveying pipeline forms an outward-expanded bell mouth-shaped suction nozzle at the bottom end, extends downwards into the pit and is opposite to the conical bulge structure;

the air sleeve that can be along the vertical displacement of conveying pipeline's axial by electric putter drive is established to the conveying pipeline overcoat, the air sleeve inner wall with form the intermediate layer of vertical link up between the conveying pipeline inner wall, as the tonifying qi wind channel, tonifying qi wind channel top communicates with each other with the outside, and the bottom forms and encloses the tubaeform wind gap of expanding downwards of locating the round above the suction nozzle, tubaeform wind gap sets up in the suction nozzle top with closing on.

The utility model discloses a structural feature also lies in:

the upper end part of the outer wall of the material conveying pipeline is provided with at least two transverse guide blocks which are uniformly distributed at intervals along the circumferential direction, and the transverse guide blocks can be in contact with the inner wall of the air sleeve with vertical displacement to form the guide for the vertical displacement of the air sleeve.

The electric push rod is hoisted at the top end part of the outer wall of the material conveying pipeline, and the rod end of the push rod is fixedly connected to the connecting seat on the outer wall of the air sleeve.

Compared with the prior art, the utility model discloses beneficial effect embodies:

the utility model utilizes the air as the transportation medium to transport the rice hulls in the closed material conveying pipeline, the air sleeve is arranged outside the material conveying pipeline, an interlayer is formed between the material conveying pipeline and the air sleeve for air supplement, the upper and lower heights of the air sleeve are adjusted through the electric push rod, the air input can be adjusted, the purpose of controlling the conveying quantity of the rice hulls is achieved, and the pipeline blockage phenomenon caused by overlarge air quantity is avoided; in addition, through setting up pit bottom center into toper protruding structure, the cooperation suction nozzle can reach the unanimous effect of suction nozzle feeding all around.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1 a delivery pipeline; 2, an electric push rod; 3, an air sleeve; 4 an air supply channel; 5, a suction nozzle; 6 a trumpet-shaped air port; 7, a transverse guide block; 8, a pit; 9, fencing; 10 conical protrusion structure.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The rice hulls in the pits of the horizontal warehouse are conveyed to the cleaning equipment by the suction nozzle wind, referring to fig. 1, the electric rice hull suction nozzle control device for brewing wine of the embodiment is structurally arranged as follows:

the pit 8 is in an inverted cone structure, the center of the bottom of the pit protrudes upwards to form a conical protruding structure 10, and the top end of the pit is provided with a fence 9; the bottom end of the vertically arranged material conveying pipeline 1 is provided with an outward-expanded bell-mouth-shaped suction nozzle 5 which extends downwards into the pit 8 and is opposite to the conical bulge structure 10;

the outer cover of conveying pipeline 1 is equipped with by electric putter 2 drive can be along the air sleeve 3 of conveying pipeline 1's axial vertical displacement, forms vertical through-going intermediate layer between 3 inner walls of air sleeve and the conveying pipeline 1 inner wall, as the tonifying qi wind channel, and tonifying qi wind channel top communicates with each other with the outside, and the bottom forms and encloses the flared air port 6 that expands downwards that locates the round above suction nozzle 5, and flared air port 6 sets up in the suction nozzle 5 top with closing on.

In specific implementation, the corresponding structural arrangement also includes:

the upper end part of the outer wall of the material conveying pipeline 1 is provided with at least two transverse guide blocks 7 which are uniformly distributed at intervals along the circumferential direction, and the transverse guide blocks 7 can be contacted with the inner wall of the air sleeve 3 which is vertically displaced to form the guide for the vertical displacement of the air sleeve 3.

The electric push rod 2 is hoisted at the top end part of the outer wall of the material conveying pipeline 1, and the rod end of the push rod is fixedly connected to the connecting seat on the outer wall of the air sleeve 3.

The suction nozzle 5 can be provided with a screen.

The rice husk is thrown into pit 8 through fence 9, and the conveying pipeline 1 that carries through wind-force is taken out to conveying pipeline 1 in suction nozzle 5 department, carries to cleaning equipment, utilizes air sleeve 3 to supply the air in back taper pit 8, upwards or the downward displacement of air sleeve 3 is driven through electric putter 2 to control the clearance size between air sleeve 3 and the pit 8, can adjust the air input size from the tonifying qi wind channel, thereby can effectively adjust the feed rate. According to the thickness of a material layer at the position of the suction nozzle 5 in the bin, the suction force of the rice hulls sucked into the material conveying pipeline 1 is increased by additionally arranging the air supplementing channel 4, the problem of unsmooth feeding can be well solved, and the production efficiency is greatly improved. Meanwhile, the center of the bottom of the pit 8 is provided with a conical protruding structure 10 which is matched with the suction nozzle 5, so that the feeding uniformity of the periphery of the suction nozzle 5 can be achieved.

On the basis of this embodiment, as optional extension design, can set up the amount of wind size by remote control to further reduce on-the-spot operating personnel, improve work efficiency.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (3)

1. The utility model provides a be arranged in making wine electronic rice husk suction nozzle controlling means, the rice husk in the horizontal warehouse pit by in the cleaning equipment is sent to the suction nozzle wind, characterized by:

the pit is of an inverted cone structure, the center of the bottom of the pit protrudes upwards to form a conical protruding structure, and a fence is arranged at the top end of the pit; the vertically arranged material conveying pipeline forms an outward-expanded bell mouth-shaped suction nozzle at the bottom end, extends downwards into the pit and is opposite to the conical bulge structure;

the air sleeve that can be along the vertical displacement of conveying pipeline's axial by electric putter drive is established to the conveying pipeline overcoat, the air sleeve inner wall with form the intermediate layer of vertical link up between the conveying pipeline inner wall, as the tonifying qi wind channel, tonifying qi wind channel top communicates with each other with the outside, and the bottom forms and encloses the tubaeform wind gap of expanding downwards of locating the round above the suction nozzle, tubaeform wind gap sets up in the suction nozzle top with closing on.

2. The electric rice husk suction nozzle control device for wine brewing as claimed in claim 1, wherein: the upper end part of the outer wall of the material conveying pipeline is provided with at least two transverse guide blocks which are uniformly distributed at intervals along the circumferential direction, and the transverse guide blocks can be in contact with the inner wall of the air sleeve with vertical displacement to form the guide for the vertical displacement of the air sleeve.

3. The electric rice husk suction nozzle control device for wine brewing as claimed in claim 1, wherein: the electric push rod is hoisted at the top end part of the outer wall of the material conveying pipeline, and the rod end of the push rod is fixedly connected to the connecting seat on the outer wall of the air sleeve.

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