CN219437889U - Farm fodder feeding system - Google Patents

Abstract

The utility model discloses a farm feed feeding system, which comprises an auger conveyor and a plurality of feeding tanks, wherein a temporary storage tank is arranged above each feeding tank, a feed inlet is arranged above each temporary storage tank, a discharge outlet is arranged below each temporary storage tank, a first discharge valve is arranged at each discharge outlet, the auger conveyor is arranged above each temporary storage tank, a feed inlet is arranged at the bottom of each temporary storage tank, a second discharge valve electrically connected with the auger conveyor is arranged at each feed inlet, a first material level sensor electrically connected with the first discharge valve on each temporary storage tank above each feeding tank is arranged at the bottom and the top of each feeding tank, and a second material level sensor electrically connected with the second discharge valve above each temporary storage tank is arranged at the middle lower part and the top of each temporary storage tank; the feeding trough can be automatically fed according to the eating condition of the feed in the feeding trough, so that the automation degree is improved, and the labor is reduced; and set up a plurality of feed inlets that automatic control unloaded and a plurality of feeding grooves of independent setting on the dragon conveyer, can carry out reasonable feed to every feeding groove.

Description

Farm fodder feeding system

Technical Field

The utility model belongs to the technical field of feeding equipment of farms, and particularly relates to a feed feeding system of a farm.

Background

In the feeding management of farms such as cattle, sheep, pigs and the like, particularly large-scale farms, an automatic feeding system is generally arranged for improving feeding efficiency, so that feeding tanks can be automatically fed to replace manual feeding, and time and labor are saved.

In the prior art, through retrieving, the utility model patent of chinese patent publication No. CN206402888U discloses a fodder feeding device for plant, as shown in fig. 1, including material platform (a) and along the length direction of material platform (a) set up feed tank (b), one side parallel arrangement of feed tank (b) has flood dragon conveyer (c), flood dragon conveyer (c) one end is equipped with the feed inlet, has seted up on the flood dragon conveyer with feed tank communicating feed inlet (d).

In the prior art, the feed in the feeding trough is transmitted into the feeding trough through the dragon so as to feed the feeding trough, and the trouble caused by manual feeding is avoided. However, the prior art scheme has certain defects in the implementation process: the feeding groove is a long through groove, one side of the screw conveyor, which is close to the feeding groove, is also required to be provided with a long feeding port along the length direction of the screw conveyor, and the structure causes that more feed is arranged on the feeding groove, which is close to one side of the screw conveyor, in the feeding direction, and less feed is arranged on the feeding groove, which is far away from one side of the screw conveyor, in the feeding process, so that the orderly and normal eating of livestock is influenced, and the screw conveyor is inconvenient to manage and control; in addition, this kind of structure can't monitor the fodder condition in the feeding groove automatically to can't realize intelligent automatic feeding, consequently need the improvement.

Disclosure of Invention

In view of the defects and shortcomings existing in the prior art, the utility model aims to provide a livestock feed feeding system, which solves the problems that in the prior art, more feed is fed to a feeding trough on one side close to the direction of a feed hopper of a screw conveyor and less feed is fed to a feeding trough on one side far away from the direction of the feed hopper of the screw conveyor in the process of conveying, ordered normal eating of livestock is affected, management and control are inconvenient, and the condition of the feed in the feeding trough cannot be automatically monitored, so that intelligent automatic feeding cannot be realized.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a plant's fodder feeding system, includes auger conveyer and feeding groove, auger conveyer one end is equipped with the feeder hopper of being connected with the feed bin, feeding groove have a plurality ofly to arrange in proper order and set up, the top of every feeding groove all be equipped with a temporary storage groove, the top of temporary storage groove is equipped with the feed inlet, the below is equipped with the discharge gate, and be equipped with first discharge valve in discharge gate department, auger conveyer sets up the top of keeping in the groove, and its bottom is equipped with a feed inlet in the top of every temporary storage groove, feed inlet department is equipped with the second discharge valve of being connected with the auger conveyer is electromechanical, the bottom and the top of feeding groove all be equipped with a first charge level sensor who is connected with the first discharge valve electricity on the temporary storage groove of its top, lower part and top all be equipped with a second charge level sensor who is connected with the second discharge valve electricity of its top in the temporary storage groove, and every feed inlet department all be equipped with a material detection sensor who is connected with the auger conveyer is electromechanical.

As a further improvement of the utility model, the cross section of the feeding trough is arched.

As a further improvement of the utility model, the feeding trough is provided with an arc-shaped opening at one side close to livestock.

As a further improvement of the utility model, the feeding trough is made of stainless steel material.

As a further improvement of the utility model, the bottom of each temporary storage groove is provided with a discharge pipe, and the first discharge valve is arranged on the discharge pipe.

As a further development of the utility model, the discharge pipe is arranged at the rear side of the feeding trough.

Compared with the prior art, the utility model has the following advantages:

1. the feeding device comprises a plurality of feeding tanks which are arranged independently, a temporary storage tank is arranged above the feeding tanks, a first discharge valve is arranged at the discharge port of each temporary storage tank, an auger conveyor is arranged above each temporary storage tank, a feeding port is arranged above each auger conveyor, a second discharge valve is arranged at each feeding port, a first material level sensor which is electrically connected with the first discharge valve on the temporary storage tank above each feeding tank is arranged at the bottom and the top of each feeding tank, a second material level sensor which is electrically connected with the second discharge valve above each temporary storage tank is arranged at the lower part and the top of each temporary storage tank, a material detection sensor which is electrically connected with the auger conveyor is arranged at each feeding port, during feeding, the second discharge valve at the feeding port of each auger conveyor is opened, the auger conveyor starts to convey feed rightwards, during conveying, when the feeding to the first (leftmost) feeding port, the first material level sensor starts to discharge downwards at the first feeding port, the second material level sensor is arranged at the second feeding port, when the second feeding port is full, the second material level sensor is continuously connected with the auger conveyor, and the feeding port is continuously closed, and when the feeding port is full, and the second material level sensor is continuously connected to the second feeding port; when the fodder in the later temporary storage tank is less, the second material level sensor at the lower part in the temporary storage tank can not detect the fodder, then the feedback signal gives the second discharge valve of the feed inlet department of the dragon conveyer at its upper portion, and the second discharge valve is opened, if the dragon conveyer is shut down, and the material detection sensor of here can not detect the unloading of fodder, detect here no fodder promptly, then the feedback signal gives the dragon conveyer, the dragon conveyer starts and begins to transmit the fodder.

When the first material level sensor at the bottom of the feeding trough does not detect feed, a signal is transmitted to the first discharge valve at the discharge hole at the bottom of the temporary storage trough at the upper part of the feeding trough, the first discharge valve is opened to start discharging the feeding trough, and when the first material level sensor at the top of the feeding trough detects that the feed is full, the signal is fed back to the first discharge valve, so that the first discharge valve is closed, the feeding trough can be automatically fed according to the eating condition of the feed in the feeding trough, the automation degree is improved, and the labor is reduced; and set up a plurality of feed inlets that automatic control unloaded and a plurality of feeding grooves that set up alone on the dragon conveyer, can carry out reasonable feed to every feeding groove, avoid the rectangular feeding groove among the prior art, how many uneven problems of fodder cloth on its length direction, and set up temporary storage groove, when there is not the fodder in the feeding groove, can be fast to feeding groove feed, avoid the transmission time of dragon conveyer longer to the problem of long-time blank appears in the feeding groove that leads to.

1. The cross section of the feeding trough is arched, so that the feed is beneficial to downwards concentrated accumulation, and the detection accuracy of the first material level sensor is improved; the arc-shaped notch is arranged on one side of the breeding groove close to the livestock, so that the livestock can eat the breeding groove conveniently; the feeding trough is made of stainless steel materials, so that the oxidation corrosion and rust are avoided.

3. Through all being equipped with a discharge tube in the bottom of temporary storage groove, first discharge valve sets up on the discharge tube, reduces or avoids spilling the material, and the discharge tube sets up the rear side at feeding groove, avoids livestock collision discharge tube when eating.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a prior art structure;

FIG. 2 is a schematic diagram of the structure of the present utility model;

in the figure: 1. an auger conveyor; 2. a feeding trough; 3. a feed hopper; 4. a temporary storage groove; 5. a feed inlet; 6. a discharge port; 7. a first discharge valve; 8. a feed port; 9. a second discharge valve; 10. a first level sensor; 11. a second level sensor; 12. a material detection sensor; 13. arc-shaped openings; 14. and (5) discharging the material pipe.

Detailed Description

The present utility model will be described in further detail with reference to fig. 2. For the sake of clarity, only the structures related to the utility model are shown in the drawings.

For convenience of description, the coordinate system is defined as shown in fig. 2, and the left-right direction is a transverse direction, the front-rear direction is a longitudinal direction, and the up-down direction is a vertical direction.

The embodiment of the utility model discloses a feed feeding system for a farm. Referring to fig. 2, a farm feed feeding system, including auger conveyer 1 and feeding groove 2, auger conveyer 1 one end is equipped with the feeder hopper 3 of being connected with the feed bin, feeding groove 2 have a plurality ofly to arrange in proper order and set up, feeding groove 2's specific structure is: as shown in figure 2, the cross section of the feeding trough 2 is arched, which is beneficial to the downward concentrated accumulation of feed, and in addition, the feeding trough 2 is provided with an arc-shaped opening 13 at one side close to livestock, which is convenient for livestock to eat; and the feeding trough 2 is made of stainless steel materials, so that the oxidation corrosion and rust are avoided. In order to avoid rusting of the feeding trough 2, the feeding trough 2 is made of stainless steel materials.

When arranging, the top of every feeding groove 2 all is equipped with a temporary storage groove 4, and the top of temporary storage groove 4 is equipped with feed inlet 5, and the below is equipped with discharge gate 6, and is equipped with first discharge valve 7 in discharge gate 6 department, and in order to reduce or avoid spilling the material, every the bottom of temporary storage groove 4 all be equipped with a discharge tube 14, first discharge valve 7 sets up on discharge tube 14, in order to avoid the livestock to collide discharge tube 14 when eating, discharge tube 14 set up the rear side at feeding groove 2.

The auger conveyor 1 is arranged above the temporary storage tank 4, a feeding port 8 is arranged at the bottom of the auger conveyor above each temporary storage tank 4, a second discharge valve 9 electrically connected with the auger conveyor is arranged at the feeding port 8, a first material level sensor 10 electrically connected with a first discharge valve 7 on the temporary storage tank 4 above the feeding tank 2 is arranged at the bottom and the top of the feeding tank 2, a second material level sensor 11 electrically connected with a second discharge valve 9 above the temporary storage tank 4 is arranged at the middle lower part and the top of the temporary storage tank 4, and a material detection sensor 12 electrically connected with the auger conveyor is arranged at the feeding port 8.

The implementation process of the utility model has the beneficial effects that: during feeding, a second discharge valve 9 at a feeding port 8 on the dragon conveyor is opened, the dragon conveyor is started, the dragon conveyor starts to convey feed rightwards, in the conveying process, when the feed is conveyed to a first (leftmost) feeding port 8, the feed starts to be discharged downwards into a first temporary storage tank 4 at the first feeding port 8, when a second material level sensor 11 at the inner top of the temporary storage tank 4 detects that the feed is full, a signal is transmitted to the second discharge valve 9 at the feeding port 8 at the upper part of the temporary storage tank 4, the second discharge valve 9 is closed, then the feed continues to be conveyed forwards, when the feed is conveyed to the second feeding port 8, feeding to the second temporary storage tank 4 is started, and so on until all the temporary storage tanks 4 are full of feed, and the dragon conveyor is closed; when the feed in the temporary storage tank 4 at the later stage is less, the feed cannot be detected by the second material level sensor 11 at the lower part in the temporary storage tank 4, a feedback signal is given to the second discharge valve 9 at the feed inlet 8 of the dragon conveyor at the upper part of the temporary storage tank, the second discharge valve 9 is opened, if the dragon conveyor is stopped, and the material detection sensor 12 at the position cannot detect the discharge of the feed, namely, the position without the feed is detected, the feedback signal is given to the dragon conveyor, and the dragon conveyor is started and starts to transmit the feed.

When the first material level sensor 10 at the bottom of the feeding tank 2 does not detect feed, a signal is transmitted to the first discharge valve 7 at the discharge hole 6 at the bottom of the temporary storage tank 4 at the upper part of the feeding tank, the first discharge valve 7 is opened, and the feeding tank 2 starts to discharge materials, when the first material level sensor 10 at the top of the feeding tank 2 detects that the feed is full, a feedback signal is fed to the first discharge valve 7, so that the first discharge valve 7 is closed, the feeding tank 2 can be automatically fed according to the eating condition of the feed in the feeding tank 2, the automation degree is improved, and the labor is reduced; and set up a plurality of feed inlets 8 that automatic control unloaded and a plurality of feeding groove 2 that set up alone on the flood dragon conveyer, can carry out reasonable feed to every feeding groove 2, avoid among the prior art rectangular feeding groove 2, how many uneven problems of fodder cloth on its length direction, and set up temporary storage groove 4, when feeding groove 2 in no fodder, can be fast to feeding groove 2 feed, avoid flood dragon conveyer's transfer time longer to the problem of long-time empty material appears in feeding groove 2 that leads to.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. It should be understood that the detailed description is presented for purposes of understanding only and is not intended to limit the utility model to all other embodiments that may be obtained by one skilled in the art without making any inventive effort.

Claims (6)

1. The utility model provides a plant's fodder feeding system, includes auger conveyer and feeding groove, auger conveyer one end is equipped with the feeder hopper of being connected with the feed bin, its characterized in that: the utility model provides a feeding groove have a plurality ofly to arrange in proper order and set up, the top of every feeding groove all be equipped with a temporary storage groove, the top of temporary storage groove is equipped with the feed inlet, the below is equipped with the discharge gate, and be equipped with first discharge valve in discharge gate department, auger conveyer sets up in the top of temporary storage groove, and its bottom is equipped with a feed inlet in the top of every temporary storage groove, feed inlet department is equipped with the second discharge valve that is connected with the dragon conveyer electricity, the bottom and the top of feeding groove all are equipped with a first material level sensor who is connected with the first discharge valve electricity on the temporary storage groove of its top, temporary storage groove well lower part and top all are equipped with a second material level sensor who is connected with the second discharge valve electricity of its top, and every feed inlet department all be equipped with a material detection sensor who is connected with the dragon conveyer electricity.

2. A farm feed feeding system according to claim 1, wherein: the section of the feeding trough is arched.

3. A farm feed feeding system according to claim 2, wherein: the feeding trough is provided with an arc-shaped opening at one side close to livestock.

4. A farm feed feeding system according to claim 3, wherein: the feeding trough is made of stainless steel materials.

5. A farm feed feeding system according to any of the claims 1-4, wherein: the bottom of each temporary storage groove is provided with a discharge pipe, and the first discharge valve is arranged on the discharge pipe.

6. A farm feed feeding system according to claim 5, wherein: the discharge pipe is arranged at the rear side of the feeding trough.