CN222358385U - A biological feed mixing machine - Google Patents

Abstract

The utility model relates to the technical field of feed processing and provides a biological feed stirring mixer which comprises a base, wherein a screening device is fixedly arranged at the top of the base, a feed pipeline is fixedly embedded in the center of the top of the screening device, sliding grooves are formed in the centers of two sides of the inner wall of the screening device, sliding blocks are connected to the inner surfaces of the two sliding grooves in a sliding mode, a screen disc is fixedly arranged on one side, opposite to the two sliding blocks, of the inner surface of the screening disc, return springs are fixedly arranged on the periphery of the bottom of the screening disc, telescopic columns are fixedly arranged on the periphery of the bottom of the screening disc, and the inner surfaces of the four return springs are movably sleeved on the outer surfaces of the telescopic columns.

Description

Biological feed stirring mixer

Technical Field

The utility model relates to the technical field of feed processing, in particular to a biological feed stirring mixer.

Background

The biological feed stirring mixer is used for mixing and stirring various biological feed raw materials so as to achieve uniform mixing and improve the feed quality.

However, the existing biological feed stirring mixers have a remarkable problem in use that they generally stir and mix biological feeds directly, and as a result of the direct stirring of the biological feeds, serious quality problems may be caused in the case of impurities contained in the feeds, which may include, but are not limited to, foreign matters, stones, etc., the possibility of which are present in the feeds is unavoidable, and once these impurities are mixed with the feeds, the quality and safety of the biological feeds are seriously affected.

Disclosure of utility model

The utility model aims to solve the problem that the quality of biological feed is greatly affected once sundries are contained in the feed because the biological feed is directly stirred in the prior art.

In order to achieve the aim, the biological feed stirring mixer comprises a base, wherein a screening device is fixedly arranged at the top of the base, a feeding pipeline is fixedly embedded in the center of the top of the screening device, sliding grooves are formed in the centers of two sides of the inner wall of the screening device, sliding blocks are connected to the inner surfaces of the two sliding grooves in a sliding mode, a screen disc is fixedly arranged on one side, opposite to the sliding blocks, of the two sliding grooves, return springs are fixedly arranged on the periphery of the bottom of the screen disc, telescopic columns are fixedly arranged on the periphery of the bottom of the screen disc, the inner surfaces of the four return springs are movably sleeved on the outer surfaces of the telescopic columns, the bottoms of the four return springs and the four telescopic columns are fixedly arranged on the inner wall of the screening device, a first motor is fixedly arranged on the left side of the screening device, and the outer surface of an output shaft of the first motor is movably embedded on the left side inside the screening device.

As a preferred implementation mode, the right side surface of first motor just is located the fixed cover in bottom of sieve tray is equipped with the impeller, the output shaft surface of first motor just is close to the fixed cover in left side of sieving mechanism is equipped with first belt pulley, the right side of sieving mechanism is close to the activity of top and is inlayed and is equipped with first apron.

The technical effect of adopting the further scheme is that the first motor can drive the pushing block to move around the circle when in operation.

As a preferred implementation mode, the drainage plates are fixedly installed on two sides of the inner wall of the screening device, the first rotating rods are movably embedded on two sides, close to the bottom, of the inner side of the screening device, and the second belt pulleys are fixedly sleeved on the left outer surfaces of the two first rotating rods.

The belt pulley driving device has the technical effects that the first belt pulley can be driven by the first motor to rotate, and the belt pulley is driven by the belt body to rotate on the second belt pulley.

As a preferable implementation mode, the outer surfaces of the two second belt pulleys are movably sleeved with belt bodies, and the outer surfaces of the two first rotating rods and the inside of the screening device are fixedly sleeved with grinding rollers.

The technical effect of adopting the further scheme is that the grinding roller is driven to synchronously rotate by the first rotating rod when the second belt pulley rotates.

As a preferable implementation mode, the other end of the belt body is movably sleeved on the outer surface of the first belt pulley, and a discharging pipeline is fixedly arranged at the bottom of the screening device.

The technical effect of adopting the further scheme is that the feed can fall into the mixing device on the base through the discharging pipeline after passing through the grinding roller.

As a preferable implementation mode, the outer surface of the bottom of the discharging pipeline is fixedly sleeved with a mixing device, the bottom of the mixing device is fixedly installed at the top of the base, and a hinge is fixedly installed at the bottom of the mixing device close to the front side.

The technical effect of adopting the further scheme is that the second cover plate can be opened through the hinge.

As a preferred implementation mode, a second cover plate is movably arranged at the center of the hinge and positioned at the bottom of the mixing device, a second motor is fixedly arranged on the right side of the mixing device, and a second rotating rod is fixedly arranged on the left side of the second motor.

The technical effect of adopting the further scheme is that the second motor can drive the stirring blade to rotate through the second rotating rod when in operation, so that the feed falling into the second motor is stirred and mixed.

As a preferable implementation mode, the second rotating rod is movably embedded in the mixing device, a plurality of stirring paddles are fixedly arranged on the outer surface of the second rotating rod, and a discharge chute is formed in the center of the bottom of the mixing device.

The technical effect of adopting the further scheme is that the feed in the mixing device can flow out of the mixing device through the discharge chute.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. When the device is used, through the structures of the first motor, the screen disc and the like, the screen disc can vibrate through reciprocating up-and-down motion, so that sundries can be continuously cleaned when feed passes through the screen disc, the quality and the safety of the feed are ensured, and the problem that the quality of the biological feed is greatly influenced once the sundries are contained in the feed due to direct stirring of the biological feed in the prior art is solved.

2. When the device is used, the structure such as the grinding roller and the stirring blade is adopted, so that the feed can be ground when the device is used and the feed is mixed, the feed particles are more uniform and fine, the uniform mixing is facilitated, the quality and the taste of the feed are improved, and the acceptance of animals to the feed is increased.

Drawings

Fig. 1 is a schematic rear perspective view of a biological feed stirring mixer according to the present utility model;

fig. 2 is a schematic cross-sectional perspective view of a screening device of a biological feed stirring mixer according to the present utility model;

Fig. 3 is a schematic cross-sectional perspective view of a screening device of a biological feed stirring mixer according to the second embodiment of the present utility model;

fig. 4 is a schematic perspective view of a mixing device of a biological feed stirring mixer according to the present utility model;

Fig. 5 is a schematic sectional perspective view of a mixing device of a biological feed stirring mixer.

Legend description:

1. The device comprises a base, 101, a screening device, 102, a feeding pipeline, 103, a sliding chute, 104, a sliding block, 105, a screening disc, 106, a telescopic column, 107, a reset spring, 108, a first motor, 109, a pushing block, 110, a first cover plate, 2, a first belt pulley, 201, a drainage plate, 202, a first rotating rod, 203, a second belt pulley, 204, a belt body, 205, a grinding roller, 206, a discharging pipeline, 207, a mixing device, 208, a hinge, 209, a second cover plate, 210, a second motor, 211, a second rotating rod, 212, a stirring blade, 213 and a discharging chute.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the utility model provides a biological feed stirring mixer, which comprises a base 1, wherein a screening device 101 is fixedly installed at the top of the base 1, a feed pipeline 102 is fixedly embedded in the center of the top of the screening device 101, sliding grooves 103 are formed in the centers of two sides of the inner wall of the screening device 101, sliding blocks 104 are slidably connected to the inner surfaces of the two sliding grooves 103, a screen disc 105 is fixedly installed on one side opposite to the two sliding blocks 104, return springs 107 are fixedly installed around the bottom of the screen disc 105, telescopic columns 106 are fixedly installed around the bottom of the screen disc 105, inner surfaces of the four return springs 107 are movably sleeved on the outer surfaces of the telescopic columns 106, the bottoms of the four return springs 107 and the four telescopic columns 106 are fixedly installed on the inner wall of the screening device 101, a first motor 108 is fixedly installed on the left side of the screening device 101, a pushing block 109 is movably embedded on the outer surface of an output shaft of the first motor 108 on the left side of the inside of the screening device 101, return springs 107 are fixedly sleeved on the bottom of the screen disc 105, a pushing block 109 is fixedly arranged on the outer surface of the screen disc 108, a belt pulley is movably sleeved on the outer surface of the output shaft of the first motor 108, and a first belt pulley is movably sleeved on the left side of the screening device close to the screening device 101 is provided with a first cover plate 110, and is movably sleeved on the right side of the left side of the first cover device 101 is close to the first cover plate 101.

In this embodiment, the staff can throw in the fodder to sieving mechanism 101 inside through feeding pipeline 102 for the fodder falls into above the sieve tray 105, the power supply system of rethread first motor 108, first motor 108 is started, make first motor 108 when the operation, drive the impeller 109 and carry out round motion, and when the convex one side of impeller 109 rotates the bottom of sieve tray 105, can promote sieve tray 105 and move, make slider 104 slide upwards at spout 103 internal surface, and then drive sieve tray 105 and rise, while reset spring 107 and telescopic column 106 extend, and when the convex one side of impeller 109 is kept away from the bottom of sieve tray 105, reset spring 107 drives telescopic column 106 and resets, make sieve tray 105 slide downwards through slider 104, and then make sieve tray 105 pass through reciprocal up-and-down motion, produce the vibration, make the fodder pass through sieve tray 105 and drop, clear up the debris of fodder inside, when the debris on sieve tray 105 is too much, just can open first apron 110 and clear up the debris that the sieve on the sieve tray 105, and pass through first motor 108 and the first 105 and the bottom of sieve tray 105, can be guaranteed to shake the quality when the sieve tray 105 is passed through in order to make the reciprocal quality of the sieve tray to guarantee.

In embodiment 2, as shown in fig. 1-5, drainage plates 201 are fixedly installed on two sides of an inner wall of a screening device 101, first rotating rods 202 are movably embedded near the bottom on two sides of the inner wall of the screening device 101, second belt pulleys 203 are fixedly sleeved on the left outer surfaces of the two first rotating rods 202, belt bodies 204 are movably sleeved on the outer surfaces of the two second belt pulleys 203, grinding rollers 205 are fixedly sleeved on the outer surfaces of the two first rotating rods 202 and the inner wall of the screening device 101, grinding rollers 205 are movably sleeved on the outer surfaces of the first belt pulleys 2, a discharge pipeline 206 is fixedly installed at the bottom of the screening device 101, a mixing device 207 is fixedly sleeved on the bottom outer surface of the discharge pipeline 206, a mixing device 207 is fixedly installed at the top of the base 1, a hinge 208 is fixedly installed near the front side of the bottom of the mixing device 207, a second cover plate 209 is movably installed at the center of the bottom of the hinge 208, a second motor 210 is fixedly installed on the right side of the mixing device 207, a second rotating rod 211 is fixedly installed on the left side of the second motor 210, a plurality of paddles 211 are fixedly embedded on the inner surfaces of the mixing device 207, and a plurality of paddles 212 are fixedly installed at the bottom of the outer surfaces of the mixing device 213.

In this embodiment, after the fodder passes through the screen disc 105, can drop into the top of two grinding rollers 205 through drainage plate 201 guide fodder, drive first belt pulley 2 through first motor 108 simultaneously and rotate, the rethread belt body 204 is transmitted in second belt pulley 203, make second belt pulley 203 when rotating, drive grinding roller 205 through first dwang 202 and rotate in step, and then grind the fodder that falls into its top, and after the fodder passes through grinding roller 205, can fall into the mixing arrangement 207 on base 1 through discharging pipeline 206, rethread second motor 210's power supply system, start second motor 210, make second motor 210 drive stirring paddle 212 through second dwang 211 when the operation and rotate, and then stir the mixture to the fodder that falls into its inside, and after the fodder is mixed, just can open second apron 209 through hinge 208, make the inside fodder of mixing arrangement 207 flow out the inside of mixing arrangement 207 through blown down tank 213, and through structures such as grinding roller 205 and stirring paddle 212, make the device when using, make the fodder grind when mixing, can grind the fodder, can make the fodder more even, the fodder has improved the quality of the fodder and has improved the fine and smooth quality to the animal taste.

When the device is used, a worker can throw in feed into the screening device 101 through the feed pipeline 102, so that the feed falls onto the screen disc 105, the power supply system of the first motor 108 is started, the pushing block 109 is driven to conduct round motion during operation, when one convex surface of the pushing block 109 rotates to the bottom of the screen disc 105, the screen disc 105 is pushed to conduct motion, the sliding block 104 slides upwards on the inner surface of the sliding groove 103, the screen disc 105 is driven to ascend, meanwhile, the reset spring 107 and the telescopic column 106 extend, when one convex surface of the pushing block 109 is far away from the bottom of the screen disc 105, the reset spring 107 drives the telescopic column 106 to reset, the screen disc 105 slides downwards through the sliding block 104, the screen disc 105 moves up and down in a reciprocating mode, vibration is generated, the feed drops through the screen disc 105, sundries in the feed are cleaned, when the sundries on the screen disc 105 are too much, the first cover plate 110 can be opened to conduct screening on the screen disc 105, the motor 108 is enabled to conduct cleaning on the screen disc 105, the screen disc 105 can be continuously moved through the first cover plate 105, and the screen disc 105 can be enabled to pass through the reciprocating device, and the quality of the screen disc 105 can be ensured to be continuously moved through the screen disc 105. When in use, after the fodder passes through the screen disc 105, can drop into the top of two grinding rollers 205 through drainage plate 201 guide fodder, drive first belt pulley 2 through first motor 108 simultaneously and rotate, rethread belt body 204 transmission is in second belt pulley 203, make second belt pulley 203 when rotating, drive grinding roller 205 through first dwang 202 and rotate in step, and then grind the fodder that falls into its top, and after the fodder passes through grinding roller 205, can fall into the mixing arrangement 207 on the base 1 through discharge pipeline 206, rethread second motor 210' S power supply system, start second motor 210 (what need be described is that the model of second motor 210 and first motor 108 is Y90S-2, the power is 1.5 KW), make second motor 210 drive stirring paddle 212 through second dwang 211 when the operation rotates, and then stir the mixture to the fodder that falls into its inside, and after the fodder mixing is accomplished, just can open second apron 209 through hinge 208, make the inside fodder of mixing arrangement 207 flow out the inside of mixing arrangement 207 through discharge tank 213, and through grinding roller 205 and the stirring paddle 205 and the model of first motor 108 are Y90S-2, the quality is improved when the fodder is used to the fodder is more evenly mixed, the quality is good for the fodder is more evenly mixed to the fodder, and the quality is more uniform and the quality is improved when the fodder is used to the fodder is used.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical matter of the present utility model will still fall within the protection scope of the technical solution of the present utility model.

Claims (8)

1. A biological feed stirring mixer comprises a base (1) and is characterized in that a screening device (101) is fixedly arranged at the top of the base (1), a feeding pipeline (102) is fixedly embedded in the center of the top of the screening device (101), sliding grooves (103) are formed in the centers of two sides of the inner wall of the screening device (101), sliding blocks (104) are slidably connected to the inner surfaces of the sliding grooves (103), a screening disc (105) is fixedly arranged on one side opposite to the sliding blocks (104), return springs (107) are fixedly arranged on the periphery of the bottom of the screening disc (105), telescopic columns (106) are fixedly arranged on the periphery of the bottom of the screening disc (105), the outer surfaces of the telescopic columns (106) are movably sleeved with the inner surfaces of the four return springs (107), the bottoms of the four telescopic columns (107) and the bottoms of the telescopic columns (106) are fixedly arranged on the inner walls of the screening device (101), a first motor (108) is fixedly arranged on the left side of the screening device (101), and a left side of the screening device is movably embedded in the outer surface of the screening device (101).

2. The biological feed stirring mixer of claim 1, wherein a pushing block (109) is fixedly sleeved on the outer surface of the right side of the first motor (108) and positioned at the bottom of the screen disc (105), a first belt pulley (2) is fixedly sleeved on the outer surface of the output shaft of the first motor (108) and close to the left side of the screening device (101), and a first cover plate (110) is movably embedded on the right side of the screening device (101) close to the top.

3. The biological feed stirring mixer of claim 2, wherein drainage plates (201) are fixedly arranged on two sides of the inner wall of the screening device (101), first rotating rods (202) are movably embedded on two sides of the inner part of the screening device (101) close to the bottom, and second belt pulleys (203) are fixedly sleeved on the left outer surfaces of the two first rotating rods (202).

4. The biological feed stirring mixer according to claim 3, wherein the outer surfaces of the two second belt pulleys (203) are movably sleeved with belt bodies (204), and the outer surfaces of the two first rotating rods (202) are fixedly sleeved with grinding rollers (205) and positioned in the screening device (101).

5. The biological feed stirring mixer according to claim 4, wherein the other end of the belt body (204) is movably sleeved on the outer surface of the first belt pulley (2), and a discharging pipeline (206) is fixedly arranged at the bottom of the screening device (101).

6. The biological feed stirring mixer according to claim 5, wherein a mixing device (207) is fixedly sleeved on the outer surface of the bottom of the discharging pipeline (206), the bottom of the mixing device (207) is fixedly arranged on the top of the base (1), and a hinge (208) is fixedly arranged at the bottom of the mixing device (207) close to the front side.

7. A biological feed stirring mixer as set forth in claim 6, wherein a second cover plate (209) is movably mounted at the center of the hinge (208) and at the bottom of the mixing device (207), a second motor (210) is fixedly mounted on the right side of the mixing device (207), and a second rotating rod (211) is fixedly mounted on the left side of the second motor (210).

8. The biological feed stirring mixer according to claim 7, wherein the second rotating rod (211) is movably embedded in the mixing device (207), a plurality of stirring paddles (212) are fixedly arranged on the outer surface of the second rotating rod (211), and a discharge chute (213) is formed in the center of the bottom of the mixing device (207).