CN210184185U - Feeding device for feed capable of avoiding arching - Google Patents

Abstract

The utility model relates to a avoid tying feeding device for feeding that encircles, including the cylindric casing that the level set up, set up the feed inlet at cylindric casing one end top, set up the discharge gate in cylindric casing other end bottom, rotate the auger that sets up at the inside feed auger of cylindric casing and set up at cylindric casing one end and be connected with the transmission of feed auger, one on one the one side in the feed inlet be equipped with respectively with the broken mechanism that encircles of feed bin looks adaptation and with the material dispersion mechanism of feed auger looks adaptation. Compared with the prior art, the utility model discloses a set up brokenly in the feed inlet simultaneously and encircle mechanism and material dispersion mechanism, can effectively avoid the material in the feed bin to lead to the ejection of compact difficulty because of the knot encircles to avoid the material to take place to pile up the extrusion in feed inlet department, effectively solve the material and connect the arch problem, and the delivery of high-efficient, accurate completion multiple material, the feed is even, the precision is good, efficient, remain low, has improved work efficiency and product quality.

Description

Feeding device for feed capable of avoiding arching

Technical Field

The utility model belongs to the technical field of feed with the feed, a avoid tying feeding device for feeding of hunch is related to.

Background

In the process of feed processing, a plurality of different materials need to be mixed and proportioned. In order to ensure the stability of the material ratio, a screw feeder is generally arranged between the bin and the tail end batching tank of each material, and the materials are quantitatively fed in a screw feeding mode. However, there are a number of problems with existing screw feeders, such as:

1) because a lot of materials have certain viscosity, the materials stored in the storage bin often have the phenomenon of material arching when being discharged into the screw feeder, so that the discharging is difficult, and the normal rhythm of the screw feeding is influenced;

2) the feed inlet of screw feeder is less, leads to the feed bin to take place the material easily when the ejection of compact to the screw feeder and piles up the extruded problem in the feed inlet department of screw feeder, has influenced the smooth transport of material.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding device for feeding which avoids arching in order to overcome the defects of the prior art.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a avoid tying feeding device for feeding of hunch, the device sets up the bottom at the feed bin, the device include the cylindric casing that the level set up, set up at the feed inlet at cylindric casing one end top, set up at the discharge gate of cylindric casing other end bottom, rotate the auger that sets up at the inside feed auger of cylindric casing and set up at cylindric casing one end and be connected with the auger drive motor of feed auger transmission, the feed inlet in one-on-one be equipped with respectively with the broken mechanism of encircleing of feed bin looks adaptation and with the material dispersion mechanism of feed auger looks adaptation.

Furthermore, the feed inlet comprises a feed inlet equal-diameter section and a feed inlet diameter expanding section arranged between the feed inlet equal-diameter section and the cylindrical shell, and the inner diameter of the feed inlet diameter expanding section is sequentially increased from top to bottom. The feed inlet constant diameter section is connected with the bottom of the storage bin. The diameter-expanding section of the feeding hole is arranged in a large opening, and the wide feeding hole is favorable for smoothly discharging materials in the storage bin into the cylindrical shell.

Furthermore, the inner diameter of the top of the feeding hole expanding section is the same as that of the feeding hole equal-diameter section, the arch breaking mechanism is located inside the feeding hole equal-diameter section, and the material dispersing mechanism is located inside the feeding hole expanding section.

Furthermore, broken mechanism of encircleing include along the horizontal direction set up the pivot in feed inlet constant diameter section and a plurality of evenly lay in the pivot and with pivot looks vertically broken rod of encircleing, the outside of feed inlet constant diameter section be equipped with the pivot driving motor that the pivot transmission is connected. The rotating shaft driving motor drives the rotating shaft to rotate, so that the arch breaking rod strikes and breaks the arch of the material at the bottom of the storage bin.

Furthermore, the material dispersing mechanism comprises a plurality of distributors uniformly distributed in the diameter-expanding section of the feeding port along the axial direction of the feeding auger. The distributor is fixedly arranged on the inner wall of the diameter-expanding section of the feeding hole. The materials falling into the diameter-expanding section of the feeding port are dispersed by a plurality of distributors and enter a plurality of positions in the cylindrical shell, and are simultaneously conveyed by corresponding parts of the feeding auger, so that the distribution of various materials is efficiently and accurately completed.

Furthermore, the distributor comprises a first inclined plate and a second inclined plate, and the first inclined plate is connected with the top of the second inclined plate. The distributor is in an inverted V shape. The materials falling on the distributor slide into different positions in the cylindrical shell along the first inclined plate and the second inclined plate respectively.

Further, the vertical section of the arch breaking rod is positioned between two adjacent distributors. A plurality of broken vaulting poles and a plurality of distributor staggered arrangement avoid mutual interference.

Furthermore, the feeding auger comprises a feeding section auger and a conveying section auger, and the feeding section auger is matched with the feeding hole.

Furthermore, the pitch of the blades of the auger at the feeding section is gradually increased along the material conveying direction. The material feeding section auger can avoid overstock of materials at the material feeding opening, effectively solves the problem of material arch connection, and has the advantages of uniform feeding, good precision and high efficiency.

Furthermore, the end part of the cylindrical shell is provided with a speed measuring sensor matched with the feeding auger. The speed sensor can monitor the rotating speed of the feeding auger, so that the rotating speed of the feeding auger can be monitored and adjusted conveniently, and the precision is high.

The utility model discloses when the in-service use, in the material in the feed bin got into the cylindric casing through the feed inlet, auger driving motor drove the feed auger and rotates, made the feed auger carry the material in the cylindric casing to discharge gate department gradually to finally arrange the material by the discharge gate. When the material arch formation phenomenon occurs in the storage bin, the arch breaking mechanism breaks the arch at the arch formation position; the material that falls into in the feed inlet gets into a plurality of positions in the cylindric casing through material dispersion mechanism dispersion, avoids the material to take place to pile up the extrusion in feed inlet department, effectively solves the material and connects the hunch problem to the feed is even, efficient, remain low.

Compared with the prior art, the utility model has the characteristics of it is following:

1) the arch breaking mechanism and the material dispersing mechanism are arranged in the feeding port at the same time, so that the problem that materials in the storage bin are difficult to discharge due to arch formation can be effectively avoided, the materials are prevented from being piled and extruded at the feeding port, the problem of material arch connection is effectively solved, distribution of various materials is efficiently and accurately completed, the feeding is uniform, the precision is good, the efficiency is high, the residue is low, and the working efficiency and the product quality are improved;

2) the wide feed inlet is adopted, so that the rapid discharge of materials in the feed bin is facilitated, and the feeding efficiency and the yield are improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

the notation in the figure is:

the device comprises a cylindrical shell 1, a feed inlet 2, a feed inlet 201, a feed inlet equal-diameter section 202, a feed inlet diameter expanding section 3, a discharge outlet 4, a feeding auger 401, a feeding auger 402, a conveying auger 402, an auger 5, an auger driving motor 6, a rotating shaft 7, an arch breaking rod 8, a rotating shaft driving motor 9, a distributor 901, a first inclined plate 902, a second inclined plate and a speed measuring sensor 10.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example (b):

as shown in figure 1, the feeding device for the feed capable of avoiding arching is arranged at the bottom of a storage bin and comprises a cylindrical shell 1 arranged horizontally, a feeding hole 2 arranged at the top of one end of the cylindrical shell 1, a discharging hole 3 arranged at the bottom of the other end of the cylindrical shell 1, a feeding packing auger 4 arranged inside the cylindrical shell 1 in a rotating mode and a packing auger driving motor 5 arranged at one end of the cylindrical shell 1 and in transmission connection with the feeding packing auger 4, and an arch breaking mechanism matched with the storage bin and a material dispersing mechanism matched with the feeding packing auger 4 are respectively arranged in the feeding hole 2 one above the other.

The feed port 2 comprises a feed port equal-diameter section 201 and a feed port expanding section 202 arranged between the feed port equal-diameter section 201 and the cylindrical shell 1, and the inner diameter of the feed port expanding section 202 is sequentially increased from top to bottom. The inner diameter of the top of the feed inlet diameter expanding section 202 is the same as that of the feed inlet equal-diameter section 201, the arch breaking mechanism is located inside the feed inlet equal-diameter section 201, and the material dispersing mechanism is located inside the feed inlet diameter expanding section 202.

The arch breaking mechanism comprises a rotating shaft 6 arranged in the feed inlet equal-diameter section 201 in the horizontal direction and a plurality of arch breaking rods 7 uniformly distributed on the rotating shaft 6 and vertical to the rotating shaft 6, and a rotating shaft driving motor 8 in transmission connection with the rotating shaft 6 is arranged outside the feed inlet equal-diameter section 201.

The material dispersing mechanism comprises a plurality of distributors 9 which are uniformly distributed in the diameter-expanding section 202 of the feeding port along the axial direction of the feeding auger 4. The distributor 9 includes a first inclined plate 901 and a second inclined plate 902, and the first inclined plate 901 is connected to the top of the second inclined plate 902. The vertical section of the arch breaking rod 7 is positioned between two adjacent distributors 9.

The feeding auger 4 comprises a feeding section auger 401 and a conveying section auger 402, and the feeding section auger 401 is matched with the feeding port 2. The pitch of the blades of the auger 401 at the feeding section is gradually increased along the material conveying direction.

The end part of the cylindrical shell 1 is provided with a speed measuring sensor 10 matched with the feeding auger 4.

In practical application, materials in the bin enter the cylindrical shell 1 through the feeding hole 2, the packing auger driving motor 5 drives the feeding packing auger 4 to rotate, so that the feeding packing auger 4 gradually conveys the materials in the cylindrical shell 1 to the discharging hole 3, and finally the materials are discharged from the discharging hole 3. When the material arch formation phenomenon occurs in the storage bin, the arch breaking mechanism breaks the arch at the arch formation position; the material that falls into in feed inlet 2 gets into a plurality of positions in cylindric casing 1 through the dispersion of material dispersion mechanism, avoids the material to take place to pile up the extrusion in feed inlet 2 department, effectively solves the material and connects the arch problem to the feed is even, efficient, remain low.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. The utility model provides a avoid tying feeding device for feeding that encircles, the device sets up in the bottom of feed bin, a serial communication port, the device include cylindric casing (1) that the level set up, set up feed inlet (2) at cylindric casing (1) one end top, set up discharge gate (3) in cylindric casing (1) other end bottom, rotate feed auger (4) that set up in cylindric casing (1) inside and set up auger driving motor (5) in cylindric casing (1) one end and be connected with feed auger (4) transmission, feed inlet (2) in one on the other be equipped with respectively with the broken mechanism of encircleing of feed bin looks adaptation and with the material dispersion mechanism of feed auger (4) looks adaptation.

2. The feeding device for the feed for avoiding arching as claimed in claim 1, characterized in that the feeding hole (2) comprises a feeding hole equal-diameter section (201) and a feeding hole expanding section (202) arranged between the feeding hole equal-diameter section (201) and the cylindrical shell (1), and the inner diameter of the feeding hole expanding section (202) is sequentially increased from top to bottom.

3. The feeding device for the feed for avoiding arching as claimed in claim 2, wherein the top inner diameter of the feed inlet expanding section (202) is the same as the inner diameter of the feed inlet equal-diameter section (201), the arch breaking mechanism is positioned inside the feed inlet equal-diameter section (201), and the material dispersing mechanism is positioned inside the feed inlet expanding section (202).

4. The feeding device for the feed for avoiding arching as claimed in claim 3, wherein the arch breaking mechanism comprises a rotating shaft (6) arranged in the equal-diameter section (201) of the feeding hole along the horizontal direction and a plurality of arch breaking rods (7) uniformly arranged on the rotating shaft (6) and vertical to the rotating shaft (6), and a rotating shaft driving motor (8) in transmission connection with the rotating shaft (6) is arranged outside the equal-diameter section (201) of the feeding hole.

5. The feeding device for the feed for avoiding arching as claimed in claim 4, characterized in that the material dispersing mechanism comprises a plurality of distributors (9) which are uniformly distributed in the diameter-expanding section (202) of the feeding inlet along the axial direction of the feeding auger (4).

6. The feeding device for feeding of the claim 5, characterized in that the distributor (9) comprises a first inclined plate (901) and a second inclined plate (902), the first inclined plate (901) being connected to the top of the second inclined plate (902).

7. Feeding device for feeding purposes avoiding arching, according to claim 5, characterised in that the vertical section of the arch-breaking bar (7) is located between two adjacent distributors (9).

8. The feeding device for preventing arching as claimed in claim 5, characterized in that the feeding auger (4) comprises a feeding section auger (401) and a conveying section auger (402), and the feeding section auger (401) is matched with the feeding port (2).

9. The feeding device for feed use preventing arching as claimed in claim 8, characterized in that the pitch of the blades of the feeding section auger (401) increases gradually in the direction of material transport.

10. The feeding device for feeding that avoids arching of claim 1, characterized in that the end of the cylindrical housing (1) is provided with a speed sensor (10) that is adapted to the feeding auger (4).

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