CN216292601U - Feeding machine device - Google Patents

Abstract

The utility model relates to the technical field of poultry raising equipment, in particular to a feeder device. A feeder apparatus for connection to a frame of a poultry facility, the feeder apparatus comprising: a material box group, a regulator and a feeding trough group. The material box group comprises n first material boxes and a second material box; n is a positive integer, m is a positive integer with m being more than or equal to 2 and less than or equal to n; the first bin comprises; the first bin is divided into a first chamber and a second chamber by the partition plate; the second chamber of the (m-1) th first material box is communicated with the m-th first material box, and the second chamber of the nth first material box is communicated with the second material box; the regulator is arranged on the first material box. And the feeding trough group comprises n first feeding troughs and n second feeding troughs, the first feeding troughs are communicated with the first material box, and the second feeding troughs are communicated with the second feeding port. The feeding machine device provided by the embodiment of the utility model has the following beneficial effects: the structure of the equipment is simplified, the volume of the equipment is reduced, and the occupied space is reduced.

Description

Feeding machine device

Technical Field

The utility model relates to the technical field of poultry raising equipment, in particular to a feeder device.

Background

In poultry farms, the number of the raised poultry is huge, and feeding of foodstuff and water, cleaning of the farm, production and collection of eggs, raising of young poultry and the like bring great difficulty to the raising personnel, so that the raising is carried out by utilizing the multi-layer stacked cage type raising equipment in all the farms at present.

The utility model discloses a chinese utility model patent of application number 201920953279.3 discloses a concentrate feeding system for multilayer chicken coop, including raising layer one, raising layer two, raising layer three and mobile device, the present invention divides the chicken coop into upper and lower three-layer, improves the space of raising to improve the efficiency of raising, inlet pipe one, inlet pipe two and inlet pipe three through main shaft department provide the fodder to corresponding raising layer respectively, provide convenience for people feed the chicken. Feeding groove and outer feeding groove in being provided with, the space of food is fed in the increase, avoids appearing the condition that partial chicken can not eat the fodder, and at the fixed passage that the layer bottom set up of raising, people through the position of adjusting valve two, the different suction tube of switch-on and suction pump are taken out other materials such as excrement and urine of gathering up in with the fixed passage through the suction pump, and it provides convenience to clear up the layer of raising for people. Be provided with the mobile device, through the removal of filter plate, can improve the utilization ratio of fodder, the filter plate moves up, covers the fodder, avoids the chicken when not eating, destroys the fodder. A feeding pipe is arranged corresponding to each feeding layer, and each feeding layer is filled with foodstuff, so that the foodstuff is greatly convenient to add. But the structure is complicated, and bulky, a plurality of inlet pipes occupy a large amount of space.

SUMMERY OF THE UTILITY MODEL

To overcome the problems of the related art, the present invention provides a feeder apparatus.

According to an aspect of an embodiment of the present invention there is provided a feeder apparatus for connection to a frame of poultry equipment, the feeder apparatus comprising:

the material box group comprises n first material boxes and one second material box;

when n is 1, the first material box is communicated with the second material box;

when n is larger than 1, the (m-1) th first material box is communicated with the (m) th first material box, the (n) th first material box is communicated with the second material box, wherein n is a positive integer, and m is a positive integer which is larger than or equal to 2 and smaller than or equal to n;

the first bin comprises;

a partition plate through which the first bin is partitioned into a first chamber and a second chamber;

when n is 1, the second chamber is communicated with the second material box;

when n > 1, the second chamber of the (m-1) th first bin is in communication with the (m) th first bin, and the second chamber of the (n) th first bin is in communication with the second bin;

a regulator provided to the first hopper for regulating the amount of foodstuff input to the first and second chambers;

and the feeding trough group is fixed on the frame and comprises n first feeding troughs and n second feeding troughs, the first feeding troughs are communicated with the first material box, and the second feeding troughs are communicated with the second feeding port.

Further, the first material box comprises a first feeding port, a first feeding port and a material conveying port;

the first feeding port is communicated with the first chamber and the second chamber, and the regulator is arranged at the first feeding port;

the first feeding port is communicated with the first feeding groove;

the material conveying opening is communicated with the first material inlet or the second material box of the adjacent first material box.

Further, the second material box comprises a second feeding port and a second feeding port;

the second feeding port is communicated with the adjacent material conveying port;

the second feeding port is communicated with the second feeding groove.

Further, the regulator is plate-shaped, detachably covers a portion of the first feeding port communicating with the first chamber, and extends toward the second chamber and communicates with the second chamber.

Further, the regulator is hinged to a wall plate of the first chamber opposite to the second chamber, so that the plate-shaped regulator can be rotationally switched between a state of covering the first feeding port and a vertically upward standing state.

Further, the feeder device further comprises:

the support, it is a plurality of first workbin is fixed in respectively from the top down along vertical direction on the support, the second workbin is fixed in the bottom of support.

Furthermore, a walking mechanism matched with the frame is arranged at the upper part of the bracket, and the material box group moves along the feeding trough group through the shape walking mechanism.

Furthermore, the lower part of the support is provided with an adjusting mechanism, and the angle between the material box group and the vertical direction is adjusted through the adjusting mechanism.

Further, the adjustment mechanism includes: a support frame and a roller;

one end of the support frame is provided with at least two long holes which are fixed on the support frame through bolts;

the roller is rotatably fixed to the other end of the support frame, and the roller is in rolling contact with the frame.

Further, material homogenizers are arranged on two sides of the first feeding port and the second feeding port.

The feeding machine device provided by the embodiment of the utility model has the following beneficial effects: through one set of feeding machine device simultaneously for multilayer workbin interpolation foodstuff, add the foodstuff for multilayer feeding groove simultaneously, simplified the structure of equipment, reduced the volume of equipment, reduced the space that occupies.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a perspective view of a feeder device shown in an exemplary embodiment of the present invention;

FIG. 2 is a perspective view of a bin stack according to an exemplary embodiment of the present invention;

FIG. 3 is a perspective view of a first bin shown in an exemplary embodiment of the utility model;

fig. 4 is an enlarged view of a portion a of fig. 2 according to an exemplary embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the utility model, as detailed in the appended claims.

The principles and spirit of the present disclosure will be described with reference to a number of exemplary embodiments. It is understood that these embodiments are given solely for the purpose of enabling those skilled in the art to better understand and to practice the present disclosure, and are not intended to limit the scope of the present disclosure in any way.

It should be noted that, although the expressions "first", "second", etc. are used herein to describe different modules, steps, data, etc. of the embodiments of the present disclosure, the expressions "first", "second", etc. are merely used to distinguish between different modules, steps, data, etc. and do not indicate a particular order or degree of importance. Indeed, the terms "first," "second," and the like are fully interchangeable.

In order to solve the above-mentioned drawbacks of the related art, embodiments of the present invention provide a feeder apparatus.

According to an aspect of an embodiment of the present invention, there is provided a feeder apparatus for connection to a frame of poultry equipment, as shown in FIG. 1, the feeder apparatus comprising: a material box group 100 and a feeding trough group 200.

As shown in fig. 2, the bin group 100 comprises n first bins 110 and one second bin 120.

When n is 1, the first bin 110 is communicated with the second bin 120.

When n is larger than 1, the (m-1) th first material box 110 is communicated with the (m) th first material box 110, the (n) th first material box 110 is communicated with the second material box 120, wherein n is a positive integer, and m is a positive integer which is larger than or equal to 2 and smaller than or equal to n.

As shown in fig. 1-3, the first bin 110 includes; a diaphragm 114 and a regulator 130.

The first tank 110 is divided by the partition 130 into a first chamber 115 and a second chamber 116.

When n is 1, the second chamber 116 communicates with the second tank 120.

When n > 1, the second chamber 116 of the m-1 th first bin 110 communicates with the m-th first bin 110, and the second chamber 116 of the n-th first bin 110 communicates with the second bin 120.

A regulator 130 is provided at the first bin 110 for regulating the amount of foodstuff input into the first chamber 115 and the second chamber 116.

The feeding trough set 200 is fixed on the frame, the feeding trough set 200 comprises n first feeding troughs 210 and n second feeding troughs 220, the first feeding troughs 210 are communicated with the first material box 110, and the second feeding troughs 220 are communicated with the second feeding ports.

The n first bins 110 are communicated with each other, the n first bin 110 is communicated with the second bin 120, the foodstuff is input from the 1 st first bin 110, the foodstuff is input to the 2 nd, 3 … … n first bins 110 and the second bin 120 in sequence, after the second bin 120 is filled with the foodstuff, the filling of the n first bin 110 is continued until the 1 st first bin 110 is filled, and all bins are filled. The first and second feeding troughs 210 and 220 are filled with foodstuff while the bin is filled with foodstuff.

The amount of foodstuff entering first chamber 115 and second chamber 116 may be adjusted by regulator 130 as appropriate, for example, foodstuff from first chamber 115 may be fed into first trough 210, whereas foodstuff from second chamber 116 may be fed into the next first bin 110 or second bin 120, and the amount of foodstuff that first trough 210 may hold may be relatively small, so that when foodstuff from first chamber 115 is sufficiently filled, first chamber 115 may be closed by regulator 130 and second chamber 116 may be fed. Alternatively, the feeding of foodstuff may be performed by first filling each of the first bin 110 and the second bin 120 and then feeding foodstuff into each of the first feed trough 210 and the second feed trough 220, so that the first chamber 115 may be closed by the regulator 130 and all foodstuff may be fed into the next first bin 110 or second bin 120 through the second chamber 116 until all bins are filled with foodstuff. At this point, the foodstuff within the second bin 120 has filled the second feed trough 220 and the second bin 120 when the conditioner 130 closes off the first chambers 115. The first chamber 115 is opened by the regulator 130, and foodstuff is fed into the 1 st first trough 210, while foodstuff from the upper second chamber 116 is filled into the lower first trough 210 through the lower first chamber 115 until all troughs are filled with foodstuff. Thus, in this manner, the regulator 130 is opened to fill only the first feed trough 210 and each of the second chambers 116. The two filling methods can be selected according to actual conditions.

Each material box is not required to be provided with an independent filling pipeline, and all the material boxes can be filled by one auger, so that the volume of the equipment is reduced, the occupied space is saved, the structure of the equipment is simplified, and the foodstuff filling efficiency is high.

Further, as shown in fig. 3, the first hopper 110 includes a first feeding port 111, a first feeding port 112 and a feeding port 113. The first inlet 111 is communicated with the first chamber 115 and the second chamber 116, and the regulator 130 is disposed at the first inlet 111. The first feeding port 112 is communicated with the first feeding trough 210. The material conveying opening 113 is communicated with the first material inlet 111 of the adjacent first material box 110 or the second material box 120.

Foodstuff is firstly input through the first feeding port 111 of the 1 st first bin 110 and then enters the first chamber 115 and the second chamber 116, foodstuff in the first chamber 115 is input into the 1 st first feeding trough 210 through the first feeding port 112, foodstuff input into the second chamber 116 is input into the 2 nd first bin 110 through the feeding port and the first feeding port 111 of the 2 nd first bin 110, and so on until foodstuff is input into each first feeding trough 210 through each first feeding port 112 and is input into each first bin 110 and each second bin 120 through each feeding port 113.

Further, the second material box 120 includes a second material inlet and a second material outlet. The second material inlet is communicated with the adjacent material conveying port 113. The second feeding port is communicated with the second feeding trough 220.

The second material box 120 is the last material box in the material box group, and therefore, it is not necessary to provide a material conveying port, and only a second material inlet for inputting materials and a second material feeding port for inputting materials to the second material feeding groove 220 are provided.

Further, as shown in fig. 1, the regulator 130 has a plate shape and detachably covers a portion of the first inlet 111 communicating with the first chamber 115, and the regulator 130 extends toward the second chamber 116 and communicates with the second chamber 116.

The regulator 130 may be a cover plate made of a plate material, and when the first chamber 115 needs to be closed, the cover plate is covered on the first chamber 115, and when foodstuff needs to be input into the first chamber 115, the cover plate is removed, so that the operation is convenient.

As another embodiment, the actuator 130 is hinged to a wall plate of the first chamber 115 opposite to the second chamber 116, so that the plate-shaped actuator 130 can be rotationally switched between a state of covering the first inlet port 111 and a vertically upward standing state.

Compared with the previous embodiment, the difference is that the cover plate of the present embodiment is hinged to the wall plate of the first chamber 115, and when the cover plate is switched from a state of closing the first chamber 115 to an open state, the cover plate is rotated to be in an upright state.

Both embodiments can be selected according to actual conditions.

Further, the feeder apparatus, as shown in fig. 2, further includes: the first material boxes 110 are sequentially fixed on the support 140 from top to bottom in the vertical direction, and the second material boxes 120 are fixed at the bottom end of the support 140.

A plurality of first material boxes 110 and second material boxes 120 are combined into an integral module type material box group through a support 140, and disassembly and assembly are facilitated. Preferably, the support frame 140 is a combined support frame, that is, two vertical frame members at two sides are combined by a plurality of members with specified lengths, and when in use, the support frame can be combined according to the number of layers or the height of the poultry cage.

Further, a running mechanism 150 engaged with the frame is provided at an upper portion of the bracket 140, and the bin group 100 moves along the feed chute group 200 through the running mechanism 150.

The shape-moving mechanism 150 can be driven by a motor or manually pushed and pulled to move along the frame by installing rollers on the upper part of the bracket 140.

Further, an adjusting mechanism 160 is disposed at a lower portion of the bracket 140, and an angle of the bin group 100 with respect to the vertical direction is adjusted by the adjusting mechanism 160.

The support 140 is in contact connection with the upper part of the frame through the upper part of the profiling mechanism 150, the lower part of the support 140 has the possibility that the support 140 cannot keep a vertical state due to the gravity effect, and the adjusting mechanism 160 is arranged at the lower part of the support 140, so that the material box group 100 can keep a vertical angle.

Specifically, as shown in fig. 4, the adjusting mechanism 160 includes: a support frame 161 and a roller 162. At least two elongated holes 1611 are formed at one end of the supporting frame 161, and are fixed to the bracket 140 by bolts. The roller 162 is rotatably fixed to the other end of the support frame 161, and the roller 162 is in rolling contact with the frame.

The position of the bolt can be adjusted through the long hole 1611, and the other end of the supporting frame 161 is connected with the frame in an abutting mode, so that the angle of the bin group 100 can be adjusted. The other end of the support frame 161 is provided with a roller 162, so that the support frame 161 and the frame are in a rolling connection relationship, and friction during traveling is reduced.

Further, a material homogenizer (not shown) is provided at both sides of the first and second feeding ports 112 and 112.

Set up the evener in the both sides of first pay-off mouth 112 and second pay-off mouth for when the material box group 100 filled the foodstuff to first feeding trough 210 and second feeding trough 220 in walking, it is even to pave the accumulational foodstuff in each feeding trough through the evener, is convenient for continue upwards to fill the foodstuff, can not lead to the foodstuff excessive in certain department, and the poultry of being convenient for simultaneously intakes the foodstuff.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the embodiments disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the wellbore arrangements described above and illustrated in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the utility model is limited only by the appended claims.

Claims (10)

1. A feeder apparatus, for connection to a frame of a poultry facility, the feeder apparatus comprising:

the material box group comprises n first material boxes and a second material box;

when n is 1, the first material box is communicated with the second material box;

when n is larger than 1, the (m-1) th first material box is communicated with the (m) th first material box, the (n) th first material box is communicated with the second material box, wherein n is a positive integer, and m is a positive integer which is larger than or equal to 2 and smaller than or equal to n;

the first bin comprises;

a partition plate through which the first bin is partitioned into a first chamber and a second chamber;

when n is 1, the second chamber is communicated with the second material box;

when n > 1, the second chamber of the (m-1) th first bin is in communication with the (m) th first bin, and the second chamber of the (n) th first bin is in communication with the second bin;

a regulator provided to the first hopper for regulating the amount of foodstuff input to the first and second chambers;

the feeding trough group is fixed on the frame and comprises n first feeding troughs and n second feeding troughs, the first feeding troughs are communicated with the first material box, and the second feeding troughs are communicated with the second feeding port.

2. The feeder apparatus of claim 1,

the first material box comprises a first feeding port, a first feeding port and a material conveying port;

the first feeding port is communicated with the first chamber and the second chamber, and the regulator is arranged at the first feeding port;

the first feeding port is communicated with the first feeding groove;

the material conveying opening is communicated with the first material inlet or the second material box of the adjacent first material box.

3. The feeder apparatus of claim 2,

the second material box comprises a second feeding port and a second feeding port;

the second feeding port is communicated with the adjacent material conveying port;

the second feeding port is communicated with the second feeding groove.

4. Feeder device according to claim 3,

the regulator is plate-shaped, detachably covers a portion of the first feeding port communicated with the first chamber, extends toward the second chamber, and is communicated with the second chamber.

5. Feeder device according to claim 3,

the regulator is hinged to a wall plate of the first chamber opposite to the second chamber, so that the plate-shaped regulator can be rotationally switched between a state of covering the first feeding port and a vertically upward standing state.

6. The feeder device of claim 5, further comprising:

the support, it is a plurality of first workbin is fixed in respectively from the top down along vertical direction on the support, the second workbin is fixed in the bottom of support.

7. The feeder apparatus of claim 6,

and the upper part of the bracket is provided with a walking mechanism matched with the frame, and the material box group moves along the feeding trough group through the walking mechanism.

8. The feeder device of claim 7,

and an adjusting mechanism is arranged at the lower part of the support, and the angle between the material box group and the vertical direction is adjusted through the adjusting mechanism.

9. The feeder device of claim 8,

the adjustment mechanism includes: a support frame and a roller;

one end of the support frame is provided with at least two long holes which are fixed on the support frame through bolts;

the roller is rotatably fixed to the other end of the support frame, and the roller is in rolling contact with the frame.

10. The feeder apparatus of claim 9,

and material homogenizers are arranged on two sides of the first feeding port and the second feeding port.

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