CN208691986U - Cowboying factory with mechanically aided feeding systems - Google Patents

Abstract

A kind of cowboying factory with mechanically aided feeding systems, including the rectangle colony house surrounded by fence, which is divided into a row by jube and cultivates unit, is equipped with feeding area along the arragement direction of cultivation unit in colony house side, is equipped with feeding systems in the feeding area；Feeding systems include transfer tape assemble, dump skip and crib, and transfer tape assemble includes horizontally disposed conveyer belt；Crib is elongated, and crib is arranged along the arragement direction of cultivation unit, and crib is located between cultivation unit and conveyer belt；Conveyer belt is discharge side close to the side of crib, and each cultivation unit is corresponded between the discharge side and crib and is equipped with dump skip, the feed on conveyer belt falls into crib through dump skip water conservancy diversion.Using the utility model has the beneficial effects that the feed on conveyer belt is dumped into crib region corresponding to each cultivation unit through dump skip respectively, the automatic ox feeding in cultivation unit reduces manual labor's intensity.

Description

Cowboying factory with mechanically aided feeding systems

Technical field

The utility model relates to a kind of beef cattle breeding factories, and in particular to a kind of cowboying with mechanically aided feeding systems Factory.

Background technique

In recent years, beef farming is greatly developed in rural area, is the important component of rural economy.Beef cattle It is generally mixed using smashed forage and other feeds full of nutrition such as wheat bran, soya-bean cake or cottonseed cake, rape cake etc. to cultivate factory The mixed feed formed after conjunction.The large-scale beef cattle breeding factory of modernization generally use advanced automation feeding system, but its at This is higher, is unsuitable for the middle-size and small-size cultivation factory in rural area.So middle-size and small-size cultivation factory generally still relies upon manpower and launches feed, labor Fatigue resistance is larger.It is taken time and effort due to manually launching feed, it is necessary to low, the easy to maintain charging device of development cost, with full The demand of the middle-size and small-size beef cattle breeding factory of foot.

Utility model content

In order to solve the above technical problems, the utility model provides a kind of cowboying factory with mechanically aided feeding systems.

Technical solution is as follows:

A kind of cowboying factory with mechanically aided feeding systems, including the rectangle colony house surrounded by fence, the colony house by every Column is divided into a row and cultivates unit, it is critical that being equipped in the colony house side along the arragement direction of the cultivation unit Feeding area is equipped with feeding systems in the feeding area；

The feeding systems include transfer tape assemble, dump skip and crib, and the transfer tape assemble includes horizontally disposed Conveyer belt；

The crib is elongated, and the crib is arranged along the arragement direction of the cultivation unit, and the one of the crib Side is equipped with the transfer tape assemble close to the cultivation unit, in the other side, and the conveyer belt is parallel with the crib；

The conveyer belt is discharge side close to the side of the crib, corresponding each between the discharge side and the crib The cultivation unit is equipped with dump skip, and the feed on the conveyer belt falls into crib through the dump skip water conservancy diversion；

The dump skip includes stock guide, which is erected on the upper surface of the conveyer belt, before the stock guide End is located at the middle part of the conveyer belt, which extends along the feed direction of the conveyer belt to the discharge side, makes it Rear end extends close to the crib；

All dump skips are in a column distribution along the feed direction of the conveyer belt from front to back, all guides The distance of the front end of plate to the discharge side is sequentially increased along the feed direction of the conveyer belt.

Using the above design, the advantage is that after granular or intercept shape feed such as ammoniated straw are loaded into conveyer belt, with The movement of conveyer belt, since stock guide is in resting state, feed is scraped by stock guide and flows out conveyer belt along stock guide, along The distance of the stock guide of feed direction setting to discharge side is different, and the region between each stock guide and discharge side is its scraper area Domain, so that each stock guide distinguishes the feed that water conservancy diversion goes out on a banded zone, corresponding each cultivation unit is dumped into food respectively Slot corresponding region, the automatic ox feeding in cultivation unit, reduces manual labor's intensity.

As optimal technical scheme, fence of each cultivation unit close to the feeding area is equipped with to be stretched for ox head portion Feed mouth out, the crib are lower than the feed mouth.

Using the above design, cultivation unit is separated with crib, only allows the head of ox to stretch out, prevents crib contaminated.

As optimal technical scheme, the distance of front end to the discharge side of all stock guides uniformly increases.

Using the above design, so that the forage volume that the corresponding crib region of each cultivation unit is launched is unanimous on the whole.

As optimal technical scheme, above-mentioned stock guide shape in curved surface, the front end of the stock guide and the conveyer belt feeding Direction is tangent, and the rear end of the stock guide extends towards the discharging along the feed direction of the conveyer belt and stretches out the discharging Side.

Using the above design, it the advantage is that curved stock guide is conducive to guide feed smooth flow.

As optimal technical scheme, above-mentioned dump skip includes blowpit, and the rear end of the stock guide is connected with the discharging Slot, discharge side of the feed inlet of the blowpit towards the conveyer belt, side wall of the blowpit far from the conveyer belt feed end It is connected with the stock guide, the discharge port of the blowpit is located above the crib.

Using the above design, convenient for the installation fixation and guidance feed flowing of stock guide.

As optimal technical scheme, above-mentioned dump skip further includes vertically arranged supporting leg, the supporting leg upper end and the discharging Slot is connected.

Using the above design, it the advantage is that and facilitate installation dump skip.

As optimal technical scheme, above-mentioned transfer tape assemble further includes support, driving roller, driven roller and driving electricity Machine, the driving roller and driven roller level are relatively arranged on the support, and the driving roller and driven roller pass through The conveyer belt transmission connection, the driving roller are connected on the output shaft of the driving motor.

Using the above design, the advantage is that simple and reliable for structure.

As optimal technical scheme, feed hopper is provided with above said conveyer belt feed end.

Using the above design, it the advantage is that facilitate and load feed on conveyer belt.

The utility model has the advantages that using after the utility model has the beneficial effects that granulated meal is loaded into conveyer belt, with conveying The movement of band, since stock guide is in resting state, feed is scraped by stock guide and flows out conveyer belt along stock guide, along feeding side Distance to stock guide to the discharge side of setting is different, and the region between each stock guide and discharge side is its scraper region, from And each stock guide distinguishes the feed that water conservancy diversion goes out on a banded zone, is dumped into crib corresponding to each cultivation unit respectively Region, the automatic ox feeding in cultivation unit, reduces manual labor's intensity.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic view of the mounting position of crib；

Fig. 3 is the structural schematic diagram of feeding systems；

Fig. 4 is the structural schematic diagram of dump skip.

Specific embodiment

Below with reference to embodiment and attached drawing, the utility model is described in further detail.

As shown in Figure 1, a kind of cowboying factory with mechanically aided feeding systems, including the rectangle colony house e surrounded by fence, Colony house e is divided into a row by jube and cultivates unit f, sets in the side the colony house e along the arragement direction of the cultivation unit f There is feeding area g, is equipped with feeding systems in feeding area g.

The feeding systems include transfer tape assemble a, dump skip b and crib c, and the transfer tape assemble a is set including level The conveyer belt a1 set.The crib c is elongated, and the crib c is arranged along the arragement direction of the cultivation unit f, described The side of crib c is equipped with the transfer tape assemble a, the conveyer belt a1 and the food close to the cultivation unit f, in the other side Slot c is parallel.

As shown in Fig. 2, the conveyer belt a1 is discharge side close to the side of the crib c, in the discharge side and the food Each cultivation unit f is corresponded between slot c and is equipped with dump skip b, and the feed on the conveyer belt a1 is through the dump skip b water conservancy diversion Fall into crib c.Each cultivation unit f is equipped with the feed stretched out for ox head portion close to a face fence of the feeding area g Mouth h, the crib c are lower than the feed mouth h.

As shown in figure 3, the transfer tape assemble a further includes support a5, driving roller a2, driven roller a3 and driving motor A4, the driving roller a2 and driven roller a3 level are relatively arranged on the support a5, the driving roller a2 and driven The conveyer belt a1 is arranged on idler wheel a3, the driving roller a2 is connected with the driving motor a4.It is described for convenience of feeding Feed hopper d is provided with above conveyer belt a1 feed end.

The dump skip b includes stock guide b1, and stock guide b1 is erected on the upper surface of the conveyer belt a1, the guide The front end of plate b1 is located at the middle part of the conveyer belt a1, and stock guide b1 is unloaded along the feed direction of the conveyer belt a1 to described Expect that side extends, its rear end is made to extend close to the crib c.All dump skip b along the conveyer belt a1 feeding side To being from front to back in a column distribution, the distance of the front end of all stock guide b1 to the discharge side is along the conveyer belt a1's Feed direction is sequentially increased.To keep the forage volume launched at each cultivation unit much the same, before all stock guide b1 The distance of the discharge side is held uniformly to increase.

The stock guide b1 shape in curved surface, the front end of the stock guide b1 and the conveyer belt a1 feed direction are tangent, institute The rear end for stating stock guide b1 extends towards the discharging along the feed direction of the conveyer belt a1 and stretches out the discharge side.

As shown in figure 4, the dump skip b includes blowpit b2, the rear end of the stock guide b1 is connected with the blowpit Towards the discharge side of the conveyer belt a1, blowpit b2 feeds the feed inlet of b2, blowpit b2 far from the conveyer belt a1 The side wall at end is connected with the stock guide b1, and the discharge port of blowpit b2 is located above the crib c.Under the blowpit b2 Side is connected with vertically arranged supporting leg b3.

In feed transmission process, conveyer belt is moved with respect to stock guide b1, so that area between stock guide b1 and discharge side Feed in domain is passively flowed out along stock guide b1, realizes automatic discharging.And the front end of each stock guide b1 is to discharge side Distance it is different, so as to realize dispersion discharging.To guarantee that discharging is completely abundant, the feed end of the conveyer belt a1 is slightly above The other end makes 3~10 ° of surface angle with horizontal plane of the conveyer belt a1.

Finally, it should be noted that foregoing description is only the preferred embodiment of the utility model, the common skill of this field Art personnel are under the enlightenment of the utility model, under the premise of without prejudice to the utility model aims and claim, can make Multiple similar expressions, such transformation are each fallen within the protection scope of the utility model.

Claims (8)

1. a kind of cowboying factory with mechanically aided feeding systems, including the rectangle colony house (e) surrounded by fence, the colony house (e) One row is divided by jube and cultivates unit (f), it is characterised in that: in colony house (e) side along cultivation unit (f) Arragement direction is equipped with feeding area (g), is equipped with feeding systems in the feeding area (g)；

The feeding systems include transfer tape assemble (a), dump skip (b) and crib (c), and the transfer tape assemble (a) includes water The conveyer belt (a1) of flat setting；

The crib (c) is elongated, and the crib (c) is arranged along the arragement direction of cultivation unit (f), the crib (c) side is equipped with the transfer tape assemble (a), the conveyer belt (a1) and institute close to the cultivation unit (f), in the other side It is parallel to state crib (c)；

The conveyer belt (a1) is discharge side close to the side of the crib (c), right between the discharge side and the crib (c) Each cultivation unit (f) is answered to be equipped with dump skip (b), the feed on the conveyer belt (a1) is through dump skip (b) water conservancy diversion Fall into crib (c)；

The dump skip (b) includes stock guide (b1), which is erected on the upper surface of the conveyer belt (a1), should The front end of stock guide (b1) is located at the middle part of the conveyer belt (a1), the stock guide (b1) along the conveyer belt (a1) feeding Direction extends to the discharge side, and its rear end is made to extend close to the crib (c)；

All dump skips (b) are in a column distribution along the feed direction of the conveyer belt (a1) from front to back, all described The distance of the front end of stock guide (b1) to the discharge side is sequentially increased along the feed direction of the conveyer belt (a1).

2. the cowboying factory according to claim 1 with mechanically aided feeding systems, it is characterised in that: each cultivation Unit (f) is equipped with the feed mouth (h) stretched out for ox head portion close to the fence of the feeding area (g), and the crib (c) is lower than institute State feed mouth (h).

3. the cowboying factory according to claim 1 with mechanically aided feeding systems, it is characterised in that: all guides The distance of the front end of plate (b1) to the discharge side uniformly increases.

4. the cowboying factory according to any one of claims 1 to 3 with mechanically aided feeding systems, it is characterised in that: The stock guide (b1) shape in curved surface, the front end of the stock guide (b1) and the conveyer belt (a1) feed direction are tangent, described The rear end of stock guide (b1) extends towards the discharge side along the feed direction of the conveyer belt (a1) and stretches out the discharge side.

5. the cowboying factory according to claim 4 with mechanically aided feeding systems, it is characterised in that: the dump skip It (b) include blowpit (b2), the rear end of the stock guide (b1) is connected with the blowpit (b2), the charging of the blowpit (b2) Mouthful towards the conveyer belt (a1) discharge side, the blowpit (b2) far from the conveyer belt (a1) feed end side wall with it is described Stock guide (b1) is connected, and the discharge port of the blowpit (b2) is located above the crib (c).

6. the cowboying factory according to claim 5 with mechanically aided feeding systems, it is characterised in that: the dump skip It (b) further include vertically arranged supporting leg (b3), which is connected with the blowpit (b2).

7. the cowboying factory according to claim 1 with mechanically aided feeding systems, it is characterised in that: the conveyer belt group Part (a) further includes support (a5), driving roller (a2), driven roller (a3) and driving motor (a4), the driving roller (a2) It is relatively arranged on the support (a5) with driven roller (a3) level, is covered on the driving roller (a2) and driven roller (a3) Equipped with the conveyer belt (a1), the driving roller (a2) is connected with the driving motor (a4).

8. the cowboying factory according to claim 1 with mechanically aided feeding systems, it is characterised in that: the conveyer belt (a1) feed hopper (d) is provided with above feed end.