CN212049613U - Automatic device that adds of benefit fungus - Google Patents

Abstract

The utility model discloses an automatic probiotic adding device, which comprises a raw material conveying assembly, a spraying assembly, a conveyer, a baler and a controller; the raw material conveying assembly comprises a raw material collecting box and spiral conveyors, and the spiral conveyors are distributed at the bottom of the raw material collecting box; the spraying assembly comprises a probiotic storage box, a first high-pressure water pump, a second high-pressure water pump, a first atomizing nozzle, a second atomizing nozzle and a signal sensor; the controller is arranged on the raw material collecting box; the conveyer is distributed at the lower part of the spiral conveyer; the baler is distributed at the left part of the conveyor; the baler, the conveyor, the screw conveyor, the signal sensor, the first high-pressure water pump and the second high-pressure water pump are respectively connected with the controller. The utility model has the advantages of the probiotic is added evenly, and degree of automation is high, stable in quality, low in production cost, and production efficiency is high.

Description

Automatic device that adds of benefit fungus

Technical Field

The utility model relates to a feed processing technology field, concretely relates to automatic device that adds of benefit fungus.

Background

The probiotics are required to be added in the silage production process, and are added before the raw materials enter the raw material collecting box, so that the probiotics are required to be added in a raw material stacking yard or are added before the raw materials are packaged and sealed by a hydraulic baler. At present, the two probiotic adding modes have the problems of uneven probiotic adding, large labor force, high cost, unstable quality of silage products, low production efficiency and the like.

The above background disclosure is only provided to aid in understanding the concepts and technical solutions of the present invention, and it does not necessarily belong to the prior art of the present patent application, and it should not be used to assess the novelty and inventive step of the present application without explicit evidence that the above content has been disclosed at the filing date of the present patent application.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic device that adds of benefit fungus to above-mentioned technical problem.

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

the utility model provides an automatic device that adds of probiotic which characterized in that: comprises a raw material conveying component, a spraying component, a conveyor, a baler and a controller; the raw material conveying assembly comprises a raw material collecting box and spiral conveyors, and the spiral conveyors are distributed at the bottom of the raw material collecting box; the spraying assembly comprises a probiotic storage box, a first high-pressure water pump, a second high-pressure water pump, a first atomizing nozzle, a second atomizing nozzle and a signal sensor, the probiotic storage box is distributed on the raw material collection box, the first high-pressure water pump and the second high-pressure water pump are distributed in the probiotic storage box, the first atomizing nozzle is connected with the first high-pressure water pump, and the second atomizing nozzle is connected with the second high-pressure water pump; the controller is arranged on the raw material collecting box; the conveyer is distributed at the lower part of the spiral conveyer; the baler is distributed at the left part of the conveyor; the baler, the conveyor, the screw conveyor, the signal sensor, the first high-pressure water pump and the second high-pressure water pump are respectively connected with the controller.

Further, screw conveyer includes conveyer pipe, screw axis, reduction gear, inverter motor, the conveyer pipe left end is the discharge opening, the conveyer pipe right part is equipped with the feed inlet, the screw axis distributes in the conveyer pipe, reduction gear and inverter motor are connected, reduction gear and inverter motor distribute at the conveyer pipe right-hand member, the reduction gear with the screw axis is connected, inverter motor with the controller is connected.

Furthermore, a material guide plate is arranged at the position of the discharge hole.

Further, probiotic bin right-hand member upper portion is equipped with dress liquid mouth, dress liquid mouth department is equipped with the filter screen, probiotic bin bottom is equipped with the leakage fluid dram.

Further, the first atomizing nozzle and the second atomizing nozzle are distributed above the conveyor, and the signal sensor is distributed behind the first atomizing nozzle and the second atomizing nozzle.

Furthermore, the bottom of the raw material collecting box is provided with a material gathering port.

The utility model has the advantages of compared with the prior art: the utility model discloses a raw materials collecting box bottom is equipped with screw conveyer, screw conveyer distributes down has the bed to send the machine, conveyer and baler cooperation, through screw conveyer, the spraying subassembly, cooperate between the conveyer, utilize the controller to adjust screw conveyer's discharge speed and the transfer rate of conveyer, the in-process that the fodder transmitted the baler on the conveyer, the signal sensor of spraying subassembly can monitor the fodder magnetotherapy on the conveyer, it then can evenly spout living fungus evenly on the fodder to have the fodder atomizing nozzle on the conveyer to sense, it is even to have the joining of living fungus of benefit, degree of automation is high, the steady quality, low in production cost, advantage that production efficiency is high.

Drawings

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

FIG. 2 is a schematic structural view of the material conveying assembly of the present invention;

fig. 3 is a front view of the material conveying assembly of the present invention.

Detailed Description

As shown in figures 1-3, an automatic probiotic adding device is characterized in that: comprises a raw material conveying component 1, a spraying component 2, a conveyer 3, a baler 4 and a controller 5; the raw material conveying assembly 1 comprises a raw material collecting box 6 and a spiral conveyor 7, wherein the spiral conveyor 7 is distributed at the bottom of the raw material collecting box 6, and a material gathering port 8 is arranged at the bottom of the raw material collecting box 6 and used for gathering raw materials to lead to the spiral conveyor 7; the screw conveyer 7 comprises a conveying pipe 9, a screw shaft 10, a speed reducer 11 and a variable frequency motor 12, wherein the left end of the conveying pipe 9 is provided with a discharge hole 13 for discharging raw materials, a guide plate 14 is arranged at the discharge hole 13 for guiding the raw materials onto the conveyer 3, the right part of the conveying pipe 9 is provided with a feed inlet 15 for connecting with a material gathering port 8 at the bottom of a raw material collecting box 6 to convey the raw materials into the feed inlet 15, the screw shaft 10 is distributed in the conveying pipe 9, the raw materials in the raw material collecting box 6 are conveyed onto the conveyer 3 through a screw blade 16 on the screw shaft 10, the speed reducer 11 is connected with the variable frequency motor 12, the speed reducer 11 and the variable frequency motor 12 are distributed at the right end of the conveying pipe 9, the speed reducer 11 is connected with the screw shaft 10 for driving the screw shaft 10, and the variable frequency motor, the conveying speed of the screw conveyor 7 to the raw materials is adjusted by adjusting the rotating speed of the variable frequency motor through the controller 5; the spraying assembly 2 comprises a probiotic storage box 17, a first high-pressure water pump 18, a second high-pressure water pump 19, a first atomizing nozzle 20, a second atomizing nozzle 21 and a signal sensor 22, a liquid loading port 23 is formed in the upper portion of the right end of the probiotic storage box 17 and used for loading prepared probiotics into the probiotic storage box 17, a filter screen 24 is arranged at the liquid loading port 23 and used for preventing impurities from blocking the first atomizing nozzle 20 and the second atomizing nozzle 21 in the probiotic storage box 17, a liquid discharging port 25 is formed in the bottom of the probiotic storage box 17 and used for facilitating cleaning and maintenance of the probiotic storage box 17, the probiotic storage box 17 is distributed on a raw material collecting box 6, the first high-pressure water pump 18 and the second high-pressure water pump 19 are distributed in the probiotic storage box 17, the first atomizing nozzle 20 is connected with the first high-pressure water pump 18 and used for independently providing pressure for the first atomizing nozzle 20, the second atomizing nozzle 21 is connected with the second high-pressure water pump 19 to provide pressure for the second atomizing nozzle 21 independently; the first atomizing nozzle 20 and the second atomizing nozzle 21 are distributed above the conveyor 3 and used for uniformly spraying probiotics onto the raw materials, the signal sensors 22 are distributed behind the first atomizing nozzle 20 and the second atomizing nozzle 21 and used for detecting the raw materials on the conveyor 3, when the raw materials are detected on the conveyor 3, the controller 5 starts the first high-pressure water pump 18 and the second high-pressure water pump 19 to add the probiotics to the raw materials with the raw materials on the conveyor 3, and when the raw materials are detected not to exist on the conveyor 3, the controller 5 closes the first high-pressure water pump 18 and the second high-pressure water pump 19 to stop adding the probiotics; the controller 5 is arranged on the raw material collecting box 6; the conveyor 3 is distributed at the lower part of the spiral conveyor 7; the baler 4 is distributed at the left part of the conveyor 3, and the conveyor 3 conveys the raw materials to the baler 4 for baling and packaging; the baler 4, the conveyor 3, the screw conveyor 7, the signal sensor 22, the first high-pressure water pump 18 and the second high-pressure water pump 19 are connected to the controller 5, respectively.

The utility model discloses a theory of operation does: the controller 5 can start the spraying component 2, the conveyor 3, the baler 4 and the screw conveyor 7, the speed of the conveyor 3 and the screw conveyor 7 can be adjusted through the controller 5, the conveyor 3 and the baler 4 can be started synchronously, in the silage production process, raw materials enter the raw material collection box 6 and are conveyed to the conveyor 3 through the screw conveyor 7, at the moment, the signal sensor 22 can detect the raw materials on the conveyor 3, when the raw materials are detected on the conveyor 3, the controller 5 can start the first high-pressure water pump 18 and the second high-pressure water pump 19, the first atomizing nozzle 20 and the second atomizing nozzle 21 can uniformly add probiotics to the raw materials with the raw materials on the conveyor 3, if the raw materials in the raw material collection box 6 are not fed in time, the material is broken, when the signal sensor 22 detects that no raw materials are on the conveyor 3, the controller 5 can close the first high-pressure water pump 18 and the second high-pressure water pump 19, the first atomizing nozzle 20 and the second atomizing nozzle 21 stop adding the probiotics, and the raw material on the conveyor 3 is directly conveyed to the baler 4 for baling and packaging after the probiotics are added.

The foregoing is a more detailed description of the invention, taken in conjunction with specific/preferred embodiments, and it is not intended that the invention be limited to the specific embodiments shown and described. For those skilled in the art, without departing from the spirit of the present invention, several alternatives or modifications can be made to the described embodiments, and all such alternatives or modifications should be considered as falling within the scope of the present invention.

Claims (6)

1. The utility model provides an automatic device that adds of probiotic which characterized in that: comprises a raw material conveying component, a spraying component, a conveyor, a baler and a controller; the raw material conveying assembly comprises a raw material collecting box and spiral conveyors, and the spiral conveyors are distributed at the bottom of the raw material collecting box; the spraying assembly comprises a probiotic storage box, a first high-pressure water pump, a second high-pressure water pump, a first atomizing nozzle, a second atomizing nozzle and a signal sensor, the probiotic storage box is distributed on the raw material collection box, the first high-pressure water pump and the second high-pressure water pump are distributed in the probiotic storage box, the first atomizing nozzle is connected with the first high-pressure water pump, and the second atomizing nozzle is connected with the second high-pressure water pump; the controller is arranged on the raw material collecting box; the conveyer is distributed at the lower part of the spiral conveyer; the baler is distributed at the left part of the conveyor; the baler, the conveyor, the screw conveyor, the signal sensor, the first high-pressure water pump and the second high-pressure water pump are respectively connected with the controller.

2. The automatic probiotic adding device according to claim 1, characterized in that: the screw conveyer comprises a conveying pipe, a screw shaft, a speed reducer and a variable frequency motor, wherein the left end of the conveying pipe is a discharge hole, a feed inlet is formed in the right part of the conveying pipe, the screw shaft is distributed in the conveying pipe, the speed reducer is connected with the variable frequency motor, the speed reducer and the variable frequency motor are distributed at the right end of the conveying pipe, the speed reducer is connected with the screw shaft, and the variable frequency motor is connected with the controller.

3. The automatic probiotic adding device according to claim 2, characterized in that: and a material guide plate is arranged at the discharge hole.

4. The automatic probiotic adding device according to claim 1, characterized in that: probiotic bin right-hand member upper portion is equipped with dress liquid mouth, dress liquid mouth department is equipped with the filter screen, probiotic bin bottom is equipped with the leakage fluid dram.

5. The automatic probiotic adding device according to claim 1, characterized in that: the first atomizing nozzle and the second atomizing nozzle are distributed above the conveyor, and the signal sensor is distributed at the rear parts of the first atomizing nozzle and the second atomizing nozzle.

6. The automatic probiotic adding device according to claim 1, characterized in that: the bottom of the raw material collecting box is provided with a material gathering port.

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