CN221015869U - Concentrated feed accurate proportioning stirring equipment - Google Patents

Abstract

The utility model relates to the field of feed processing, in particular to concentrated feed precise proportioning stirring equipment. Technical problems: in the process of processing concentrated feed, the user can repeatedly add feed into the weighing container or reduce the feed in the container to adjust the feed amount so that the feed amount can reach the required amount. The technical scheme is as follows: the utility model provides a concentrated feed accurate ratio stirring equipment, includes power component, stirring subassembly, material loading subassembly, lifting subassembly, mark subassembly. According to the utility model, by arranging the quantitative feeding structure, a user does not need to weigh the materials one by one when feeding at a fixed ratio, and can feed materials in proportion only by fully filling different materials in corresponding positions. Therefore, the problem that the work efficiency is reduced because the user needs to repeatedly add or reduce the feed into the weighing container to adjust the feed components because the components of various feeds are weighed firstly when the user processes the concentrated feed is solved.

Description

Concentrated feed accurate proportioning stirring equipment

Technical Field

The utility model relates to the field of feed processing, in particular to concentrated feed precise proportioning stirring equipment.

Background

The concentrated feed is a uniform mixture prepared from protein feed, mineral feed, microorganism feed, additives and the like according to a certain proportion, so that when the concentrated feed is processed, the components of various feeds are required to be weighed first, and then various feeds are put into a stirrer, however, in the process of weighing the feeds, a user needs to repeatedly add the feeds into a weighing container or reduce the feeds in the container, so that the feeds in the container can reach the components wanted by the user, and the working efficiency is reduced.

Disclosure of utility model

In order to overcome the problem that in the process of processing concentrated feed, a user can repeatedly add feed into a weighing container or reduce the feed in the container so as to adjust the feed component in order to enable the feed component to reach the required quantity.

The technical scheme of the utility model is as follows: the concentrated feed precise proportioning stirring equipment comprises a power component, a stirring component, a feeding component, a lifting component and a marking component; a stirring assembly for stirring the feed is arranged above the power assembly; feeding components for feeding feed are arranged on two sides of the stirring component; a lifting assembly for assisting in feeding is arranged below the feeding assembly; one side of the lifting assembly is provided with a marking assembly for marking.

Preferably, the feeding assembly is used for placing fixed feed of weight and adjusting the position of the stuffing box, when the position of the stuffing box is adjusted to the middle of the equipment, the operating lifting assembly can lift one side of the stuffing box so as to pour the feed in the stuffing box into the stirring bin, and then the power assembly provides power for the stirring equipment in the stirring assembly through the motor so as to mix various feeds.

Preferably, the power assembly comprises a base, a power bin shell, a motor, a main shaft, a countershaft and a conveyor belt; the base is provided with a power bin shell; a motor is arranged in the power bin shell; a main shaft is arranged above the motor, and the main shaft is rotationally connected with the motor through a rotating shaft and a coupler; auxiliary shafts are arranged on two sides of the main shaft; two conveyor belts are arranged on the main shaft. The motor drives the main shaft to rotate, and the main shaft enables auxiliary shafts on two sides to rotate through the conveying belt.

Preferably, the stirring assembly comprises a main stirring blade, an auxiliary stirring blade, a flow dividing plate, a stirring bin shell, a sliding door and a slide; a main stirring blade is arranged above the main shaft; auxiliary stirring blades are arranged on two sides of the main stirring blade; a splitter plate is arranged above the auxiliary stirring blade. The main stirring blade and the auxiliary stirring She Hui which are rotated under the driving of the main shaft and the auxiliary shaft which rotate stir various feeds which fall from above.

Preferably, the flow dividing plate is provided with a stirring bin shell; the front end of the stirring bin shell is provided with a sliding door; one side of the sliding door is provided with a slide. The fodder that drops from the top drops downwards under the effect of flow distribution plate evenly, makes the process of stirring more high-efficient, after the stirring is accomplished, opens the sliding door on the stirring storehouse shell, makes the fodder slide down along with the slide under the use of gravity.

Preferably, the feeding component comprises a sliding rail, a sliding block, a stuffing box and a rotating shaft; slide rails are arranged on two sides of the stirring bin shell; the sliding rail is provided with a sliding block; five stuffing boxes are arranged on the sliding block; one side of the packing box is provided with a rotating shaft, and the packing box is rotationally connected with the sliding block through the rotating shaft. The sliding block slides on the sliding rail, so that the position of the packing box rotationally connected with the sliding block is changed, and the rotating shaft is inserted into the linkage position of the sliding block and the packing box, so that each packing box can independently rotate on the sliding block.

Preferably, the lifting assembly comprises a cylinder, a first rotating seat, a rotating arm and a second rotating seat; an air cylinder is arranged below the sliding rail; a first rotating seat is arranged above the air cylinder; a rotating arm is arranged above the first rotating seat; a second rotating seat is arranged above the rotating arm. After the stuffing box slides to the middle position of the equipment along with the sliding block on the sliding rail, the cylinder can be started to enable the cylinder to start to lift, and then the cylinder, the first rotating seat, the rotating arm and the second rotating seat can jointly act to lift one side of the stuffing box, so that the stuffing box rotates on the sliding block, and feed contained in the stuffing box falls into the stirring bin along with gravity.

Preferably, the marking assembly comprises a chute plate and a marking sliding sheet; a chute plate is arranged on one side of the air cylinder; one side of the chute plate is provided with a marking sliding sheet. The user can stir the mark sliding sheets on the chute plates to the corresponding positions before leaving the device so as to separate different kinds of feeds by the mark sliding sheets.

The utility model has the beneficial effects that:

1. By arranging the quantitative feeding structure, when a user inputs different kinds of feeds according to the proportioning requirement, only one filling box is filled with one feed, so that the proportion of the feed in a finished product is increased by one, and the method can be used for feeding according to the proportion of different feeds without weighing the components of the feeds one by one, thereby improving the working efficiency;

2. Through the fixed capacity of the stuffing boxes, when the stuffing boxes are filled with feed, the volume of the feed is consistent with that of the feed in other stuffing boxes, so that the ratio of the corresponding feed in a finished product is increased by one each time of feeding of each stuffing box, a user can directly feed according to the volume ratio of different feeds without repeatedly weighing different types of feeds, and the working efficiency is improved;

3. Through the mark slider, let the user after filling the fodder in the packing box, can stir the mark gleitbretter, let the gleitbretter stay in the middle of the packing box that is equipped with different kinds of fodder to distinguish the different kind but look similar fodder.

Drawings

FIG. 1 shows a schematic overall structure of the present utility model;

FIG. 2 shows a schematic structural view of a stirring assembly according to the present utility model;

FIG. 3 shows a schematic diagram of a feeding assembly according to the present utility model;

Figure 4 shows a schematic view of the lifting assembly of the present utility model.

Reference numerals illustrate: 1. a power assembly; 2. a stirring assembly; 3. a feeding assembly; 4. a lifting assembly; 5. a marking assembly; 101. a base; 102. a power bin housing; 103. a motor; 104. a main shaft; 105. a secondary shaft; 106. a conveyor belt; 201. a main stirring blade; 202. auxiliary stirring blades; 203. a diverter plate; 204. a stirring bin housing; 205. a sliding door; 206. a slide; 301. a slide rail; 302. a slide block; 303. a stuffing box; 304. a rotating shaft; 401. a cylinder; 402. a first rotary base; 403. a rotating arm; 404. a second rotating seat; 501. a chute plate; 502. the slide is marked.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1, the present utility model provides an embodiment: the concentrated feed precise proportioning stirring equipment comprises a power assembly 1, a stirring assembly 2, a feeding assembly 3, a lifting assembly 4 and a marking assembly 5; a stirring assembly 2 for stirring the feed is arranged above the power assembly 1; feeding components 3 for feeding feed are arranged on two sides of the stirring component 2; a lifting assembly 4 for assisting in feeding is arranged below the feeding assembly 3; one side of the lifting assembly 4 is provided with a marking assembly 5 for marking. The feeding assembly 3 is used for placing fixed amount of feed and adjusting the position of the stuffing box 303, when the position of the stuffing box 303 is adjusted to the middle of the device, the operating lifting assembly 4 lifts one side of the stuffing box 303 so as to pour the feed in the stuffing box 303 into the stirring bin, and then the power assembly 1 provides power for the stirring device in the stirring assembly 2 through the motor 103 so as to mix various feeds.

Referring to fig. 2, in the present embodiment, the power assembly 1 includes a base 101, a power compartment housing 102, a motor 103, a main shaft 104, a secondary shaft 105, and a conveyor belt 106; the base 101 is provided with a power bin shell 102; a motor 103 is arranged in the power bin shell 102; a main shaft 104 is arranged above the motor 103, and the main shaft 104 is rotatably connected with the motor 103 through a rotating shaft and a coupler; two sides of the main shaft 104 are provided with auxiliary shafts 105; two conveyor belts 106 are provided on the main shaft 104. The motor 103 drives the main shaft 104 to rotate, and the main shaft 104 rotates the auxiliary shafts 105 on both sides via the belt 106. The splitter plate 203 is provided with a stirring bin shell 204; the front end of the stirring bin shell 204 is provided with a sliding door 205; a slide 206 is provided on one side of the sliding door 205. The fodder that drops from the top drops downwards evenly under the effect of flow distribution plate 203, makes the process of stirring more efficient, after the stirring is accomplished, opens the sliding door 205 on the stirring storehouse shell 204, makes the fodder slide down along with slide 206 under the use of gravity.

Referring to fig. 3, in this embodiment, the feeding assembly 3 includes a sliding rail 301, a sliding block 302, a packing box 303, and a rotating shaft 304; slide rails 301 are arranged on two sides of the stirring bin shell 204; the slide rail 301 is provided with a slide block 302; five stuffing boxes 303 are arranged on the sliding block 302; one side of the stuffing box 303 is provided with a rotation shaft 304, and the stuffing box 303 and the sliding block 302 are rotatably connected through the rotation shaft 304. The slide block 302 slides on the slide rail 301 to change the position of the packing box 303 rotatably connected to the slide block 302, and the rotation shaft 304 is inserted into the linkage between the slide block 302 and the packing box 303, so that each packing box 303 can independently rotate on the slide block 302.

Referring to fig. 4, in the present embodiment, the lifting assembly 4 includes a cylinder 401, a first rotating seat 402, a rotating arm 403, and a second rotating seat 404; an air cylinder 401 is arranged below the sliding rail 301; a first rotating seat 402 is arranged above the air cylinder 401; a rotating arm 403 is arranged above the first rotating seat 402; a second rotating seat 404 is provided above the rotating arm 403. After the stuffing box 303 slides to a position in the middle of the device along with the sliding block 302 on the sliding rail 301, the air cylinder 401 can be started to lift the air cylinder 401, and then the air cylinder 401, the first rotating seat 402, the rotating arm 403 and the second rotating seat 404 can act together to lift one side of the stuffing box 303, so that the stuffing box 303 rotates on the sliding block 302, and the feed contained in the stuffing box 303 falls into the stirring bin along with gravity. The marking assembly 5 comprises a chute plate 501 and a marking slide plate 502; a chute plate 501 is provided at one side of the cylinder 401; one side of the runner plate 501 is provided with a marking slide 502. The user can toggle the marking slide 502 on the chute plate 501 to a corresponding position before leaving the apparatus to separate different kinds of feed with the marking slide 502.

In operation, feed is first placed into the stuffing box 303 and manually trowelled to level the upper end of the feed with the middle upper end of the stuffing box 303, then the slide 302 is slid on the slide rail 301, thereby changing the position of the stuffing box 303 rotatably connected with the slide 302, and the rotation shaft 304 is inserted into the linkage between the slide 302 and the stuffing box 303, so that each stuffing box 303 can independently rotate on the slide 302.

In addition, after the feed is filled into the stuffing box 303, the marking slide 502 on the chute plate 501 can be shifted to the corresponding position so as to separate different kinds of feed by the marking slide 502.

Then, the motor 103 is started, so that the motor 103 drives the main shaft 104 to rotate, and the main shaft 104 rotates the auxiliary shafts 105 on both sides via the conveyor belt 106. After the stuffing box 303 slides to a position in the middle of the device along with the sliding block 302 on the sliding rail 301, the air cylinder 401 is started to lift the air cylinder 401, and then the air cylinder 401, the first rotating seat 402, the rotating arm 403 and the second rotating seat 404 act together to lift one side of the stuffing box 303, so that the stuffing box 303 rotates on the sliding block 302, and the feed contained in the stuffing box 303 falls into the stirring bin along with gravity.

The feed falling from above falls down evenly under the action of the splitter plate 203, so that the stirring process is more efficient, then the main stirring blade 201 and the auxiliary stirring blade 202 which are driven by the main shaft 104 and the auxiliary shaft 105 to rotate can stir various feeds, after stirring is completed, the sliding door 205 on the stirring bin shell 204 is opened, so that the feed slides down along with the sliding board 206 under the action of gravity and falls into a previously prepared collector.

Through the steps, the quantitative feeding structure is arranged, so that a user can fill one filling box with one feed when feeding different types of feeds according to proportioning requirements, and then the ratio of the feed in a finished product can be increased by one.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. The concentrated feed precise proportioning stirring equipment comprises a power component (1); the method is characterized in that: the device also comprises a stirring assembly (2), a feeding assembly (3), a lifting assembly (4) and a marking assembly (5); a stirring assembly (2) for stirring the feed is arranged above the power assembly (1); feeding components (3) for feeding feed are arranged on two sides of the stirring component (2); a lifting assembly (4) for assisting in feeding is arranged below the feeding assembly (3); one side of the lifting component (4) is provided with a marking component (5) for marking.

2. The concentrated feed precise proportioning stirring device according to claim 1, wherein: the power assembly (1) comprises a base (101), a power bin shell (102), a motor (103), a main shaft (104), a secondary shaft (105) and a conveyor belt (106); a power bin shell (102) is arranged on the base (101); a motor (103) is arranged in the power bin shell (102); a main shaft (104) is arranged above the motor (103), and the main shaft (104) is rotationally connected with the motor (103) through a rotating shaft and a coupler; two sides of the main shaft (104) are provided with auxiliary shafts (105); two conveyor belts (106) are arranged on the main shaft (104).

3. The concentrated feed precise proportioning stirring device according to claim 2, wherein: the stirring assembly (2) comprises a main stirring blade (201), an auxiliary stirring blade (202), a flow dividing plate (203), a stirring bin shell (204), a sliding door (205) and a slide (206); a main stirring blade (201) is arranged above the main shaft (104); auxiliary stirring blades (202) are arranged on two sides of the main stirring blade (201); a splitter plate (203) is arranged above the auxiliary stirring blade (202).

4. A concentrated feed precise proportioning stirring apparatus as set forth in claim 3, wherein: a stirring bin shell (204) is arranged on the flow dividing plate (203); the front end of the stirring bin shell (204) is provided with a sliding door (205); a slide (206) is arranged on one side of the sliding door (205).

5. The concentrated feed precise proportioning stirring device of claim 4, wherein: the feeding assembly (3) comprises a sliding rail (301), a sliding block (302), a stuffing box (303) and a rotating shaft (304); slide rails (301) are arranged on two sides of the stirring bin shell (204); a sliding block (302) is arranged on the sliding rail (301); five stuffing boxes (303) are arranged on the sliding block (302); one side of the packing box (303) is provided with a rotating shaft (304), and the packing box (303) is rotatably connected with the sliding block (302) through the rotating shaft (304).

6. The concentrated feed precise proportioning stirring device of claim 5, wherein: the lifting component (4) comprises a cylinder (401), a first rotating seat (402), a rotating arm (403) and a second rotating seat

A swivel base (404); an air cylinder (401) is arranged below the sliding rail (301); a first rotating seat (402) is arranged above the air cylinder (401); a rotating arm (403) is arranged above the first rotating seat (402);

a second rotating seat (404) is arranged above the rotating arm (403).

7. The concentrated feed precise proportioning stirring device of claim 6, wherein: the marking component (5) comprises a chute plate (501) and a marking sliding sheet (502); a chute plate (501) is arranged on one side of the cylinder (401); one side of the chute plate (501) is provided with a marking slide sheet (502).