CN114391379B

CN114391379B - A fodder storage tank for breeding sika

Info

Publication number: CN114391379B
Application number: CN202210010375.0A
Authority: CN
Inventors: 窦凤鸣
Original assignee: Jilin Agricultural Science and Technology College
Current assignee: Jilin Agricultural Science and Technology College
Priority date: 2022-01-06
Filing date: 2022-01-06
Publication date: 2022-12-30
Anticipated expiration: 2042-01-06
Also published as: CN114391379A

Abstract

The invention discloses a feed storage tank for breeding sika deer, which structurally comprises a support frame, an electric rotating shaft and a storage device, wherein the electric rotating shaft is arranged at the outer side end of the support frame, the electric rotating shaft is welded with the middle end of the outer side of the storage device and synchronously rotates, an elastic force is applied to a sliding block through a spring rod, a pressing plate slides up and down on the outer side of a supporting rod, the length of a linkage plate is automatically adjusted through elastic folds of a fold plate, the effect of compacting grass at the lower end is improved, the storage space of the storage tank for the grass is increased, the air pressure in an expansion hose is changed, the air pressure is conducted to air jet holes through an air guide plate to be jetted out, the aeration work is carried out on the lower end of the grass, the accumulation of gaps between the grass is reduced, the sliding is carried out downwards through the self weight of the expansion plate, the connection length area between the expansion plate and the sliding plate is enlarged, the sliding is carried out in the storage tank, the grass in the storage tank is pushed out, and the grass is prevented from being clamped in the storage tank.

Description

A fodder storage tank for breeding sika

Technical Field

The invention relates to the field of livestock breeding, in particular to a feed storage tank for breeding sika deer.

Background

The sika deer belongs to herbivores, forage is taken as staple food, concentrated feed is taken as supplement, the amount of forage fed by each sika deer is not more than 15 kilograms at most every day, common forage comprises green-cut soybean, green-cut corn, sudan grass, clover and various succulent feeds, the feeds need to be stored through a storage tank when being fed, but when the forage is stacked inside the storage tank, the forage has larger gap property, the forage and the forage are stored inside the storage tank, the gap is stacked greatly, the forage is difficult to extrude and mix, the volume is increased, the storage space of the storage tank for the forage is reduced, the forage inside the storage tank needs to be overturned and poured out when being fed, the gap property between the forage is larger, the forage and the inner wall of the storage tank expand, the forage is easy to be clamped inside the storage tank and difficult to pour out, and the feeding effect of the sika deer is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this a fodder holding tank for breeding sika, its structure includes support frame, electricity pivot, storage device, support frame outside end is equipped with the electricity pivot, electricity pivot and storage device outside middle-end weld mutually and synchronous rotation, storage device includes holding tank, closing mechanism, pushing mechanism, the holding tank upper end is equipped with closing mechanism to pushing mechanism is installed to the inboard bottom of holding tank.

As a further improvement of the invention, the opening and closing mechanism comprises a sealing plate, a sealing strip, an elastic push rod and an extrusion mechanism, wherein the sealing strip is tightly attached to the outer surface of the sealing plate, one end of the sealing plate is connected with the inner side of the storage groove through a shaft, one end of the elastic push rod is arranged on the inner wall of the storage groove, the other end of the elastic push rod is fixed to the inner side surface of the sealing plate, the extrusion mechanism is arranged on the inner side surface of the sealing plate, the elastic push rod is of an arc structure, a spring is arranged in the elastic push rod, and the arc circle of the elastic push rod is located at the same point with the axis of the sealing plate and the axis of the storage groove.

As a further improvement of the invention, the extrusion mechanism comprises a support rod, a spring rod, a sliding block, a compaction mechanism and a limiting piece, wherein the upper end of the support rod is welded with the inner side surface of the sealing plate, the limiting piece is arranged at the lower end of the support rod, the spring rod is arranged inside the support rod, the spring rod penetrates through the sliding block in a clearance fit manner, the outer side of the sliding block is fixed with the inner wall of the compaction mechanism, the support rod penetrates through the compaction mechanism in a clearance fit manner, the bottom of the compaction mechanism is abutted against the upper end surface of the limiting piece, the two spring rods and the two sliding blocks are arranged symmetrically left and right, and the two sliding blocks are fixed with the left end and the right end of the inner wall of the compaction mechanism.

As a further improvement of the invention, the compacting mechanism comprises a pressing plate, a linkage plate and a fold plate, the supporting rod penetrates through the inside of the pressing plate in a clearance fit manner, the inner wall of the pressing plate is fixed with the outer side of the sliding block, the linkage plate is connected with the inner shaft of the pressing plate, the fold plate is arranged at the middle end of the linkage plate and is made of rubber, and the fold plate has certain resilience.

As a further improvement of the invention, the pushing mechanism comprises a flexible hose, an aeration mechanism, a guide rod, a top spring and a flexible plate, wherein one end of the flexible hose is fixed with the bottom of the inner side of the storage tank, the other end of the flexible hose is fixed with the bottom of the aeration mechanism, the outer side end of the aeration mechanism is slidably mounted on the outer side of the guide rod, the guide rod is arranged on the inner wall of the storage tank, the top spring is arranged in the aeration mechanism, the outer side end of the flexible plate is arranged in the aeration mechanism in a clearance fit mode, the outer side end of the flexible plate is welded with the top spring, the flexible hose is provided with twelve flexible hoses, the three flexible hoses are in one group and are respectively arranged at the front end and the rear end of the two aeration mechanisms, and the left end and the right end of the flexible plate are respectively arranged in the two aeration mechanisms in a clearance fit mode and are in elastic connection with the two top springs.

The aeration mechanism comprises a sliding plate, an air guide plate, an air injection hole, a limiting rod, a torsion shaft and an opening and closing sheet, wherein a top spring is arranged inside the sliding plate, the outer side end of the telescopic plate is installed inside the sliding plate in a clearance fit mode, the upper end of a telescopic hose is fixed with the bottom of the sliding plate, the upper end of the sliding plate is provided with the air guide plate, the inside of the lower end of the air guide plate is communicated with the upper end of the telescopic hose, the upper end face of the air guide plate is embedded with the air injection hole, the limiting rod is installed at the middle end inside the air injection hole, the middle end of the limiting rod is hinged with the middle end of the opening and closing sheet through the torsion shaft, the opening and closing sheet is located at the upper end inside the air injection hole, the air injection hole is of a cavity structure with the wide lower end and the narrow upper end, and the inside of the air injection hole is connected with the two opening and closing sheets through the two torsion shafts in an elastic shaft mode.

The invention has the beneficial effects that:

1. apply elasticity to the sliding block through the spring rod to make the clamp plate slide from top to bottom in the branch outside, through the elasticity fold of fold board, at this moment the length of linkage board self carries out automatically regulated, improves and carries out the effect of compaction to the lower extreme forage, thereby avoids having great voidage between the forage through the compaction of relapse, increases the storage space of holding tank to the forage.

2. Expansion hose receives the extrusion, thereby shrink, the inside atmospheric pressure of the in-process expansion hose of shrink changes, conduct atmospheric pressure to the fumarole through the air guide plate and spout, carry out aeration work to the forage lower extreme, it piles up to reduce the space between the forage, the forage is when pouring, slide down through the weight of expansion plate self, thereby make the long-pending grow of being connected between expansion plate and the slide, slide in the storage tank inside, release the forage of storage tank inside, avoid the forage card inside the storage tank.

Drawings

Fig. 1 is a schematic structural view of a feed storage tank for breeding sika deer according to the present invention.

Fig. 2 is a schematic diagram of an internal structure of a storage device according to the present invention.

Fig. 3 is a partially enlarged schematic view of the operating state and the opening/closing mechanism of the storage device according to the present invention.

Fig. 4 is a schematic view of a pressing mechanism according to the present invention and a partial enlarged structure.

Fig. 5 is a schematic view of the working state of the compaction mechanism.

Fig. 6 is a schematic structural diagram of a working state of a pushing mechanism of the present invention.

Fig. 7 is a schematic diagram of an aeration mechanism according to the present invention in a three-dimensional and partially enlarged top view.

In the figure: the device comprises a support frame-1, an electric rotating shaft-2, a storage device-3, a storage tank-31, an opening and closing mechanism-32, a pushing mechanism-33, a sealing plate-321, a sealing strip-322, an elastic push rod-323, an extrusion mechanism-324, a support rod-24 a, a spring rod-24 b, a sliding block-24 c, a compaction mechanism-24 d, a limiting plate-24 e, a pressing plate-d 1, a linkage plate-d 2, a corrugated plate-d 3, a flexible pipe-331, an aeration mechanism-332, a guide rod-333, a top spring-334, a telescopic plate-335, a sliding plate-32 a, an air guide plate-32 b, an air injection hole-32 c, a limiting rod-32 d, a torsion shaft-32 e and an opening and closing plate-32 f.

Detailed Description

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

example 1:

as shown in figures 1 to 5:

the invention discloses a feed storage tank for breeding sika deer, which structurally comprises a support frame 1, an electric rotating shaft 2 and a storage device 3, wherein the electric rotating shaft 2 is arranged at the outer side end of the support frame 1, the electric rotating shaft 2 is welded with the middle end of the outer side of the storage device 3 and synchronously rotates, the storage device 3 comprises a storage tank 31, an opening and closing mechanism 32 and a pushing mechanism 33, the opening and closing mechanism 32 is arranged at the upper end of the storage tank 31, and the pushing mechanism 33 is arranged at the bottom of the inner side of the storage tank 31.

The opening and closing mechanism 32 comprises a sealing plate 321, a sealing strip 322, an elastic push rod 323 and a squeezing mechanism 324, wherein the sealing strip 322 is closely attached to the outer surface of the sealing plate 321, one end of the sealing plate 321 is connected with the inner side shaft of the storage groove 31, one end of the elastic push rod 323 is arranged on the inner wall of the storage groove 31, the other end of the elastic push rod 323 is fixed to the inner side surface of the sealing plate 321, the squeezing mechanism 324 is arranged on the inner side surface of the sealing plate 321, the elastic push rod 323 is of an arc structure, a spring is arranged inside the elastic push rod 323, the arc circle of the elastic push rod 323 is located at the same point as the axis of the connection between the sealing plate 321 and the storage groove 31, the elastic push rod rotates through the storage groove 31, so that the elastic push rod extends in an arc shape, the sealing plate 321 is elastically pushed, an opening is ensured to exist between the storage groove 31 and the sealing plate 321 after the storage groove 31 rotates, and the forage in the storage groove 31 is poured out.

The squeezing mechanism 324 comprises a supporting rod 24a, a spring rod 24b, a sliding block 24c, a compacting mechanism 24d and a limiting sheet 24e, wherein the upper end of the supporting rod 24a is welded with the inner side surface of the sealing plate 321, the lower end of the rod 24a is provided with the limiting sheet 24e, the spring rod 24b is arranged inside the supporting rod 24a, the spring rod 24b penetrates through the sliding block 24c in a clearance fit mode, the outer side of the sliding block 24c is fixed with the inner wall of the compacting mechanism 24d, the supporting rod 24a penetrates through the compacting mechanism 24d in the clearance fit mode, the bottom of the compacting mechanism 24d is abutted to the upper end face of the limiting sheet 24e, the two spring rods 24b and the two sliding blocks 24c are arranged symmetrically left and right, the two sliding blocks 24c are fixed with the left end and the right end of the inner wall of the compacting mechanism 24d, and the compacting mechanism 24d is guaranteed to move up and down on the supporting rod 24a stably, and grass is compacted.

Wherein, compacting mechanism 24d includes clamp plate d1, interlock board d2, fold board d3, branch 24a adopts clearance fit to run through inside clamp plate d1, clamp plate d1 inner wall is fixed mutually with the sliding block 24c outside to interlock board d2 is connected with the inside hub connection of clamp plate d1, interlock board d2 middle-end is equipped with fold board d3, fold board d3 adopts the rubber material, has certain resilience to make the length of interlock board d2 self stretch out and draw back automatically, clamp plate d1 is carrying out the in-process that compacts to the forage, and interlock board d2 carries out angle skew from top to bottom, thereby improves and carries out the compacting effect to the forage.

The specific use mode and function of the embodiment are as follows:

in the invention, the sealing plate 321 is opened upwards, then the forage is placed in the storage groove 31, after the forage is fully placed, the sealing plate 321 is repeatedly opened and closed, in the opening and closing process of the sealing plate 321, the sliding block 24c continuously slides up and down on the spring rod 24b, the spring rod 24b applies elasticity to the sliding block 24c, so that the pressing plate d1 slides up and down outside the supporting rod 24a, at the moment, the pressing plate d1 extrudes the forage up and down, in the extrusion process, the length of the linkage plate d2 is automatically adjusted through elastic corrugation of the corrugated plate d3, so that the angle between the two connected linkage plates d2 is changed, the two linkage plates d2 generate inclination angle deviation, so that the effect of compacting the forage at the lower end is improved, the large gap between the forage is avoided through repeated compaction, the storage space of the storage groove 31 for the forage is increased, when the deer needs to be fed, the electric rotating shaft 2 is started to drive the storage groove 31 to rotate, and the elastic push force is applied by the elastic push rod 323, so that the sealing plate 323 and the forage is always placed in the storage groove 321, and the bottom surface of the deer is opened.

Example 2:

as shown in fig. 6 to 7:

wherein, the pushing mechanism 33 comprises a flexible hose 331, an aeration mechanism 332, a guide rod 333, a top spring 334, and a flexible plate 335, one end of the flexible hose 331 is fixed to the bottom of the inner side of the storage tank 31, the other end of the flexible hose 331 is fixed to the bottom of the aeration mechanism 332, the outer end of the aeration mechanism 332 is slidably mounted to the outer side of the guide rod 333, the guide rod 333 is disposed on the inner wall of the storage tank 31, the top spring 334 is disposed inside the aeration mechanism 332, the outer end of the flexible plate 335 is mounted inside the aeration mechanism 332 in a clearance fit manner, the outer end of the flexible plate 335 is welded to the top spring 334, the flexible hoses 331 are totally twelve and three are in one group, the three are respectively disposed at the front and rear ends of the two aeration mechanisms 332, the flexible hose 331 is used for extending and contracting to change the internal air pressure, so that the air pressure enters the aeration mechanism 332, the left and right ends of the flexible plate 335 are respectively mounted inside the two aeration mechanisms 332 in a clearance fit manner to be elastically connected to the two top springs 334, so that the connecting length between the flexible hose 335 and the aeration mechanism 332 is clamped inside the storage tank 31 when the storage tank 31 rotates, thereby preventing the grass from being pushed out of the grass.

The aeration mechanism 332 includes a slide plate 32a, an air guide plate 32b, an air injection hole 32c, a limiting rod 32d, a torsion shaft 32e, and an opening/closing plate 32f, wherein a top spring 334 is disposed inside the slide plate 32a, and the outer end of the expansion plate 335 is mounted inside the slide plate 32a with a clearance fit, the upper end of the expansion hose 331 is fixed to the bottom of the slide plate 32a, the air guide plate 32b is disposed on the upper end of the slide plate 32a, the inner portion of the lower end of the air guide plate 32b is communicated with the upper end of the expansion hose 331, the upper end of the air guide plate 32b is embedded with an air injection hole 32c, the inner portion of the air injection hole 32c is mounted with the limiting rod 32d at the middle end, the middle end of the limiting rod 32d is hinged to the middle end of the opening/closing plate 32f through the torsion shaft 32e, the opening/closing plate 32f is disposed on the inner upper end of the air injection hole 32c, the air injection hole 32c has a hollow structure with a wide lower end and is connected to the two opening/closing plates 32f through the elastic shaft, when the two opening/closing plates 32f rotate upward, the air injection hole closes the torsion shaft, thereby preventing the air injection hole 32f from entering the grass mixing hole 32c and increasing the strength, and preventing the grass mixed grass fodder from being accumulated between the grass.

The specific use mode and function of the embodiment are as follows:

in the invention, when the forage is placed, the forage presses down the expansion plate 335 in the storage tank 31, at this time, the top spring 334 elastically contracts, so that two ends of the expansion plate 335 move outwards in the aeration mechanism 332, the outer end of the aeration mechanism 332 is guided downwards by the guide rod 333 to slide, so that the length area formed between the aeration mechanism 332 and the expansion plate 335 is continuously reduced, the forage is supported, the expansion hose 331 is extruded to contract, the internal air pressure of the expansion hose 331 changes during contraction, the air pressure is extruded into the aeration mechanism 332, the air pressure is transmitted to the air injection hole 32c through the air guide plate 32b to be sprayed out, at this time, the opening and closing piece 32f rotates upwards around the force shaft 32e, the aeration operation is carried out on the lower end of the forage, the accumulation of gaps between the forage is reduced, when the forage is poured out, the forage turns over by the storage tank 31 itself, the self slides downwards through the weight of the expansion plate 335, so that the connection length area between the expansion plate 335 and the sliding plate 32a is clamped in the storage tank 31, and the forage is prevented from being pushed out.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a fodder storage tank for breeding sika, its structure includes support frame (1), electricity pivot (2), storage device (3), support frame (1) outside end is equipped with electricity pivot (2), electricity pivot (2) and storage device (3) outside middle-end welds and synchronous rotation, its characterized in that:

the storage device (3) comprises a storage tank (31), an opening and closing mechanism (32) and a pushing mechanism (33), wherein the opening and closing mechanism (32) is arranged at the upper end of the storage tank (31), and the pushing mechanism (33) is installed at the bottom of the inner side of the storage tank (31);

the opening and closing mechanism (32) comprises a sealing plate (321), a sealing strip (322), an elastic push rod (323) and an extrusion mechanism (324), wherein the sealing strip (322) is tightly attached to the outer side surface of the sealing plate (321), one end of the sealing plate (321) is connected with the inner side of the storage groove (31) in a shaft mode, one end of the elastic push rod (323) is arranged on the inner wall of the storage groove (31), the other end of the elastic push rod (323) is fixed to the inner side surface of the sealing plate (321), and the extrusion mechanism (324) is arranged on the inner side surface of the sealing plate (321);

the extruding mechanism (324) comprises a supporting rod (24 a), a spring rod (24 b), a sliding block (24 c), a compacting mechanism (24 d) and a limiting sheet (24 e), the upper end of the supporting rod (24 a) is welded with the inner side surface of the sealing plate (321), the limiting sheet (24 e) is arranged at the lower end of the supporting rod (24 a), the spring rod (24 b) is arranged inside the outer side of the supporting rod (24 a), the spring rod (24 b) penetrates through the sliding block (24 c) in a clearance fit mode, the outer side of the sliding block (24 c) is fixed with the inner wall of the compacting mechanism (24 d), the supporting rod (24 a) penetrates through the compacting mechanism (24 d) in a clearance fit mode, and the bottom of the compacting mechanism (24 d) is abutted to the upper end surface of the limiting sheet (24 e);

the compacting mechanism (24 d) comprises a pressing plate (d 1), a linkage plate (d 2) and a fold plate (d 3), the supporting rod (24 a) penetrates through the inside of the pressing plate (d 1) in a clearance fit mode, the inner wall of the pressing plate (d 1) is fixed with the outer side of the sliding block (24 c), the linkage plate (d 2) is connected with the inner shaft of the pressing plate (d 1), and the fold plate (d 3) is arranged at the middle end of the linkage plate (d 2);

the pushing mechanism (33) comprises a telescopic hose (331), an aeration mechanism (332), a guide rod (333), a top spring (334) and a telescopic plate (335), one end of the telescopic hose (331) is fixed to the bottom of the inner side of the storage tank (31), the other end of the telescopic hose (331) is fixed to the bottom of the aeration mechanism (332), the outer end of the aeration mechanism (332) is slidably mounted on the outer side of the guide rod (333), the guide rod (333) is arranged on the inner wall of the storage tank (31), the top spring (334) is arranged inside the aeration mechanism (332), the outer end of the telescopic plate (335) is mounted inside the aeration mechanism (332) in a clearance fit mode, and the outer end of the telescopic plate (335) is welded to the top spring (334).

2. The feed storage tank for cultivating sika deer as claimed in claim 1, wherein: aeration mechanism (332) include slide (32 a), air guide plate (32 b), fumarole (32 c), gag lever post (32 d), torsion shaft (32 e), switching piece (32 f), slide (32 a) inside is equipped with top spring (334) to expansion plate (335) outside end adopts clearance fit to install inside slide (32 a), bellows (331) upper end is fixed with slide (32 a) bottom, slide (32 a) upper end is equipped with air guide plate (32 b), air guide plate (32 b) lower extreme inside link up with bellows (331) upper end mutually, fumarole (32 c) have been inlayed to air guide plate (32 b) up end, gag lever post (32 d) are installed to fumarole (32 c) inside middle-end, gag lever post (32 d) are articulated through torsion shaft (32 e) and switching piece (32 f) middle-end mutually in gag lever post (32 d), switching piece (32 f) are located fumarole (32 c) inside upper end.