CN221268850U - Conical powder sieve for feed - Google Patents

Abstract

The utility model provides a feed conical powder sieve, which comprises a sieve material tank with a conical barrel-shaped lower end, a top cover, a feed hopper, a supporting leg, a discharge pipe, a first control valve, a first fixing ring, a plurality of springs, a second fixing ring, a vibrating motor, a sieve filter cylinder, a discharge pipe, a second control valve, a discharge pipe vertically arranged at the side end of the sieve material tank, a material guide hose arranged between the lower end of the discharge pipe and the upper end of the discharge pipe, a first stirring module arranged in the sieve filter cylinder, and a second stirring module arranged in the sieve material tank. The feed conical powder sieve provided by the utility model not only can meet the basic requirement of sieving treatment of feed, but also can effectively clean the feed clamped in the sieve holes of the sieving structure in a vibration mode of the sieving structure, so that the overall efficiency of sieving treatment of the feed is improved.

Description

Conical powder sieve for feed

Technical Field

The utility model belongs to the technical field of feed screening processing, and particularly relates to a feed conical powder screen.

Background

In the process of sieving feed with a sieving device, a conical powder sieve for feed is often used. Existing fodder circular cone powder sieves, though can satisfy the basic demand of sieving the processing to the fodder, but often only can promote the ejection of compact process of fodder through stirring structure, can not clear up effectively to the part fodder of card in sieving structure sieve mesh, along with the extension of time, a large amount of sieve meshes of sieving structure can be blocked to effect and the efficiency to sieving influence, at this moment, the user often can only waste time and energy and dismantle the clearance to sieving structure, not only troublesome, can produce adverse effect to the overall efficiency of sieving the processing of fodder moreover.

The utility model of publication number CN 207746089U discloses a cone powder clearance sieve for feed production is watched to pig, among the technical scheme of this patent, can stir the processing, promote screening process to the fodder through stirring structure, but can not clear up effectively to the fodder of card in screening structure sieve mesh, along with the extension of time, can lead to screening structure a large amount of sieve mesh to be blocked to influence the overall efficiency of carrying out screening processing to the fodder, need the user waste time and energy to clear up screening structure's sieve mesh.

Disclosure of utility model

In view of the above, the utility model aims at the defects of the prior art, and provides the feed conical powder sieve which not only can meet the basic requirement of sieving treatment of feeds, but also can effectively clean the feeds clamped in the sieve holes of the sieving structure in a vibration mode of the sieving structure, thereby improving the overall efficiency of sieving treatment of the feeds.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a fodder circular cone powder sieve, including the lower extreme is cone cylindric sieve material jar, the top detachably of sieve material jar is provided with the top cap, be provided with the feeder hopper on the top cap, the bottom side of sieve material jar is provided with the supporting leg, the bottom of sieve material jar is provided with the discharging pipe, be provided with first control valve on the discharging pipe, the inside upper end of sieve material jar is provided with first retainer plate through the support, the vertical a plurality of springs that are provided with in top of first retainer plate, the top of a plurality of springs is provided with the second retainer plate jointly, still be provided with vibrating motor on the second retainer plate, the inside of second retainer plate is provided with the lower extreme for cone cylindric sieve and strains the section of thick bamboo, the bottom of sieve strain the section of thick bamboo is provided with row material pipe, be provided with the second control valve on the row material pipe, the side of sieve material jar still is vertical to be provided with the discharging pipe, be provided with the guide hose between the lower extreme of discharging pipe and the upper end of discharging pipe, be provided with first stirring module in the sieve material jar.

As a further improvement of the utility model, the first stirring module comprises a first transverse plate which is arranged on the inner wall of the upper end of the sieve filter cylinder and is staggered with the feed hopper, a first stirring motor is arranged on the first transverse plate, a first stirring shaft which extends into the sieve filter cylinder is arranged at the lower end of an output shaft of the first stirring motor, and a first stirring blade which is matched with the sieve filter cylinder is arranged on the first stirring shaft.

As a further improvement of the utility model, the second stirring module comprises a second transverse plate arranged on the inner wall of the lower end of the sieving tank, a second stirring motor is arranged on the second transverse plate, a second stirring shaft extending to the inside of the sieving tank is arranged on an output shaft of the second stirring motor, and a second stirring blade matched with the sieving tank is arranged on the second stirring shaft.

As a further improvement of the utility model, the side end of the first stirring blade is also provided with a first scraping plate which is matched with the screening cylinder.

As a further improvement of the utility model, the side end of the second stirring blade is also provided with a second scraping plate which is matched with the sieving tank.

As a further improvement of the utility model, the top cover is fixedly clamped with the screening material tank, the top cover is also provided with a fixing bolt for fixing the screening material tank, and the screening material tank is provided with a threaded fixing hole matched with the fixing bolt.

As a further improvement of the utility model, the front side end of the screen tank is also provided with a transparent observation window.

Compared with the prior art, the utility model has the following beneficial effects: firstly, after the feed is added into the screening cylinder through the feed hopper, the feed can be stirred and screened by the first stirring module, small-volume feed can enter the lower end of the inside of the screening cylinder through the screen holes of the screening cylinder, and the small-volume feed can be stirred by the second stirring module only by opening the first control valve, so that the small-volume feed smoothly passes through the discharge pipe to be discharged; in the process of screening the feed, the vibrating motor is matched with the springs, so that the screening cylinder and the first stirring module synchronously vibrate and run, the feed clamped in the sieve holes of the screening cylinder is cleaned, and the efficiency and the effect of screening the feed are prevented from being influenced due to the fact that a large number of sieve holes of the screening cylinder are blocked; for large volumes of feed retained in the screen cartridge, the second control valve may be opened so that the large volumes of feed exit the screen cartridge into and out of the discharge through the discharge tube, the guide hose and the discharge tube.

Secondly, through first scraping plate, can scrape the fodder of adhesion on screening cylinder inner wall and get the clearance, through the second scraping plate, can scrape the fodder of adhesion on screening jar inner wall and get the clearance.

Thirdly, only the top cover is fixed with the screening tank in a clamping way, and then the fixing bolts penetrate through the side wall of the top cover and are connected with the threaded fixing holes, so that the flexible fixation of the top cover and the screening tank can be realized.

Fourth, through transparent observation window, the user can conveniently look over the condition inside the sieve feed tank, for example the condition of intercepting the large-volume fodder in the sieve filter cylinder, the condition of the accumulation volume of the small-volume fodder inside the sieve feed tank.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of a feed hopper, a bracket, a first fixed ring, a spring, a second fixed ring, a vibrating motor, a screen cartridge, a discharge pipe, a second control valve, a discharge pipe, a guide hose and a first stirring module;

FIG. 3 is a schematic diagram of a second stirring module according to the present utility model;

Fig. 4 is a schematic structural view of a screen bucket, a supporting leg, a discharge pipe, a second control valve, a discharge pipe, a guide hose and a transparent observation window according to the present utility model.

In the figure: 101. a screening tank; 102. a top cover; 103. a feed hopper; 104. support legs; 105. a discharge pipe; 106. a first control valve; 107. a bracket; 108. a first fixing ring; 109. a spring; 110. a second fixing ring; 111. a vibration motor; 112. a screen cartridge; 113. a discharge pipe; 114. a second control valve; 115. a discharge tube; 116. a material guiding hose; 117. a fixing bolt; 118. a transparent viewing window; 201. a first cross plate; 202. a first stirring motor; 203. a first stirring shaft; 204. a first stirring blade; 205. a first scraping plate; 301. a second cross plate; 302. a second stirring motor; 303. a second stirring shaft; 304. a second stirring blade; 305. and a second scraping plate.

Detailed Description

For a better understanding of the present utility model, the following examples are set forth to further illustrate the utility model, but are not to be construed as limiting the utility model. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details.

As shown in fig. 1, a feed conical powder sieve comprises a sieve material tank 101 with a conical lower end, wherein a top cover 102 is detachably arranged at the top of the sieve material tank 101, a feed hopper 103 is arranged on the top cover 102, a supporting leg 104 is arranged at the side end of the bottom of the sieve material tank 101, a discharge pipe 105 is arranged at the bottom of the sieve material tank 101, a first control valve 106 is arranged on the discharge pipe 105, a first fixing ring 108 is arranged at the upper end of the inside of the sieve material tank 101 through a bracket 107, a plurality of springs 109 are vertically arranged at the top of the first fixing ring 108, a second fixing ring 110 is jointly arranged at the top of the plurality of springs 109, a vibrating motor 111 is further arranged on the second fixing ring 110, a sieve filter cylinder 112 with a conical lower end is arranged in the inside of the second fixing ring 110, a discharge pipe 113 is arranged at the bottom of the sieve filter cylinder 112, a second control valve 114 is arranged on the discharge pipe 113, a discharge pipe 115 is further vertically arranged at the side end of the sieve material tank 101, a guide hose 116 is arranged between the lower end of the discharge pipe 113 and the upper end of the discharge pipe 115, a first stirring module is arranged in the sieve cylinder 112, and a second stirring module 101 is arranged in the sieve cylinder.

As shown in fig. 2, the first stirring module comprises a first transverse plate 201 which is arranged on the inner wall of the upper end of the screen filter cylinder 112 and is staggered with the feed hopper 103, a first stirring motor 202 is arranged on the first transverse plate 201, a first stirring shaft 203 which extends to the inside of the screen filter cylinder 112 is arranged at the lower end of the output shaft of the first stirring motor 202, and a first stirring blade 204 which is matched with the screen filter cylinder 112 is arranged on the first stirring shaft 203.

As shown in fig. 3, the second stirring module includes a second transverse plate 301 disposed on an inner wall of a lower end of the screen material tank 101, a second stirring motor 302 is disposed on the second transverse plate 301, a second stirring shaft 303 extending to an inside of the screen material tank 101 is disposed on an output shaft of the second stirring motor 302, and a second stirring blade 304 adapted to the screen material tank 101 is disposed on the second stirring shaft 303.

As shown in fig. 1, the top cover 102 is fastened and fixed with the screening can 101, a fixing bolt 117 for fixing the screening can 101 is further provided on the top cover 102, and a threaded fixing hole adapted to the fixing bolt 117 is provided on the screening can 101. The top cover 102 and the sieve material tank 101 are clamped and fixed, and the fixing bolts 117 penetrate through the side wall of the top cover 102 and are connected with the threaded fixing holes, so that the flexible fixation of the top cover 102 and the sieve material tank 101 can be realized.

The first stirring motor 202 and the second stirring motor 302 can be started firstly, then the feed to be screened is added into the screening cylinder 112 through the feed hopper 103, so that the feed can be stirred and screened through the first stirring shaft 203 and the first stirring blade 204, the small-volume feed can enter the inner lower end of the screening cylinder 101 through the screen holes of the screening cylinder 112, and a user only needs to open the first control valve 106, and simultaneously, the small-volume feed is stirred through the second stirring shaft 303 and the second stirring blade 304, so that the small-volume feed smoothly passes through the discharge pipe 105 to be discharged.

In the process of screening the feed, the vibrating motor 111 and the springs 109 can be matched, so that the screening cylinder 112 and the first stirring module synchronously vibrate and run, the feed clamped in the sieve holes of the screening cylinder 112 is cleaned, and the efficiency and the effect of screening the feed are prevented from being influenced due to the fact that a large number of sieve holes of the screening cylinder 112 are blocked.

For large volumes of feed retained in the screen cartridge 112, the second control valve 114 may be opened while allowing the large volumes of feed to exit the screen cartridge 112 into and out of the discharge tube 113, the guide hose 116, and the discharge tube 115 with the assistance of the agitation of the first agitator shaft 203 and the first agitator blade 204.

According to another embodiment of the present utility model, as shown in fig. 2, the side end of the first stirring blade 204 is further provided with a first scraping plate 205 adapted to the screen cylinder 112. The first scraping plate 205 scrapes and cleans the feed adhering to the inner wall of the screen cylinder 112.

According to another embodiment of the present utility model, as shown in fig. 3, the side end of the second stirring vane 304 is further provided with a second scraping plate 305 adapted to the sieve tank 101. By the second scraper 305, the feed adhering to the inner wall of the sieve tank 101 can be scraped and cleaned.

According to another embodiment of the present utility model, as shown in fig. 4, the front end of the screen tank 101 is further provided with a transparent viewing window 118. Through the transparent viewing window 118, the user can easily check the condition inside the sieve tank 101, for example, the interception condition of the large volume of the feed in the sieve cartridge 112, the accumulation condition of the small volume of the feed inside the sieve tank 101.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (7)

1. The utility model provides a fodder circular cone powder sieve, is cone cylindric sieve material jar (101) including the lower extreme, and the top detachably of sieve material jar (101) is provided with top cap (102), is provided with feeder hopper (103) on top cap (102), and the bottom side of sieve material jar (101) is provided with supporting leg (104), and the bottom of sieve material jar (101) is provided with discharging pipe (105), is provided with first control valve (106) on discharging pipe (105), its characterized in that: the inside upper end of sieve material jar (101) is provided with first retainer plate (108) through support (107), the top of first retainer plate (108) is vertical to be provided with a plurality of springs (109), the top of a plurality of springs (109) is provided with second retainer plate (110) jointly, still be provided with vibrating motor (111) on second retainer plate (110), the inside of second retainer plate (110) is provided with lower extreme and is cone cylindric sieve and strains section of thick bamboo (112), the bottom of sieve is strained section of thick bamboo (112) is provided with row material pipe (113), be provided with second control valve (114) on row material pipe (113), the side of sieve material jar (101) is still vertical to be provided with discharge pipe (115), be provided with between the lower extreme of discharge pipe (113) and the upper end of discharge pipe (115) and lead material hose (116), be provided with first stirring module in sieve section of thick bamboo (112), be provided with second stirring module in sieve material jar (101).

2. A feed cone powder screen as claimed in claim 1 wherein: the first stirring module comprises a first transverse plate (201) which is arranged on the inner wall of the upper end of the screening cylinder (112) and is staggered with the feeding hopper (103), a first stirring motor (202) is arranged on the first transverse plate (201), a first stirring shaft (203) which extends to the inside of the screening cylinder (112) is arranged at the lower end of an output shaft of the first stirring motor (202), and a first stirring blade (204) which is matched with the screening cylinder (112) is arranged on the first stirring shaft (203).

3. A feed cone powder screen as claimed in claim 2 wherein: the second stirring module comprises a second transverse plate (301) arranged on the inner wall of the lower end of the screening tank (101), a second stirring motor (302) is arranged on the second transverse plate (301), a second stirring shaft (303) extending to the inside of the screening tank (101) is arranged on an output shaft of the second stirring motor (302), and a second stirring blade (304) matched with the screening tank (101) is arranged on the second stirring shaft (303).

4. A feed cone powder screen as claimed in claim 3 wherein: the side end of the first stirring blade (204) is also provided with a first scraping plate (205) which is matched with the screening cylinder (112).

5. A feed cone powder screen as set forth in claim 4 wherein: the side end of the second stirring blade (304) is also provided with a second scraping plate (305) which is matched with the sieve tank (101).

6. A feed cone powder screen as set forth in claim 5 wherein: the top cover (102) is fixedly clamped with the screening material tank (101), a fixing bolt (117) used for fixing the screening material tank (101) is further arranged on the top cover (102), and a threaded fixing hole matched with the fixing bolt (117) is formed in the screening material tank (101).

7. A feed cone powder screen as set forth in claim 6 wherein: the front side end of the sieving tank (101) is also provided with a transparent observation window (118).