CN215957246U - Fodder silage cladding mechanism - Google Patents

Abstract

The utility model provides a feed silage cladding mechanism, which comprises a plurality of multistage rings and a lifting piece, wherein the cross sections of the multistage rings are sequentially reduced, so that the multistage rings can be sleeved together step by step or mutually pulled to be unfolded, and two adjacent multistage rings can be mutually limited when the multistage rings are unfolded; the lifter is connected with the multistage ring that the cross section is the biggest, the lifter can expand or shrink, and it can protect silage and can dismantle step by step and take silage.

Description

Fodder silage cladding mechanism

Technical Field

The utility model relates to the technical field of livestock breeding tools, in particular to a feed silage wrapping mechanism.

Background

The silage is usually silage in a silage bag mode, has the characteristics of low cost, easiness in operation, small loss and the like, is particularly suitable for self-making silage in medium and small-scale cattle farms, but the silage bag mode mostly adopts a plastic film to wrap and ferment silage, and the side wall of the plastic film is easy to be bitten by mice or scratched by external machinery in the storage and fermentation process to cause damage to a silage bag, so that silage raw materials deteriorate, and property loss is caused.

For solving above-mentioned problem, prior art has the silage that adopts the wire netting will have the cladding to have plastic film to carry out the parcel measure, but take from the top to the bottom gradually after fodder silage is accomplished, take the time with plastic film from last down peeling off gradually, and adopt the wire netting can't carry out the operation of down peeling off from last after with the silage cladding, can only destroy the back with the wire netting and take the fodder again, not only the operation is inconvenient and consume the wire netting.

Disclosure of Invention

The present invention is directed to solve one of the above-mentioned technical problems, and provides a silage wrapping mechanism, which can protect silage and can take out silage in a step-by-step manner.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

a feed silage cladding mechanism comprises a plurality of multi-stage rings and a lifting piece, wherein the cross sections of the multi-stage rings are sequentially reduced, so that the multi-stage rings can be sleeved together step by step or mutually pulled to be unfolded, and when the multi-stage rings are unfolded, two adjacent multi-stage rings can be mutually limited; the lifting piece is connected with the multistage ring with the largest cross section, and the lifting piece can drive a plurality of multistage rings to expand or contract.

Furthermore, the lifting piece comprises a plurality of sleeving blocks, the cross sections of the sleeving blocks are sequentially reduced, so that the sleeving blocks can be sleeved together or pulled to be unfolded, and two adjacent sleeving blocks can limit each other when the sleeving blocks are unfolded; the splicing block with the largest cross section is connected with the multistage ring with the largest cross section, and the splicing block with the smallest cross section corresponds to the multistage ring with the smallest cross section.

Furthermore, the lifting piece further comprises a containing seat, the containing seat corresponds to the multistage ring with the smallest cross section, the containing seat is provided with a containing groove, and one end of the sleeving block with the smallest cross section is connected with the bottom of the containing groove.

Furthermore, the sleeving and connecting block with the largest cross section is provided with a position avoiding opening corresponding to the wall body of the containing seat.

Further, the sleeving connection block with the largest cross section is provided with an operation handle.

Further, the number of the lifting pieces is two, and the two lifting pieces are connected with the multistage ring with the largest cross section.

Furthermore, when the multiple multistage rings are unfolded, the adjacent two multistage rings are mutually limited through the clamping balls of the compression springs.

Further, the fodder silage cladding mechanism still includes the lid, the removable lid of lid is located the biggest cross section the multistage ring deviates from the side of the minimum multistage ring of cross section.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

according to the feed silage coating mechanism, the multistage ring with the smallest cross section is covered outside the bottom of the silage coated with the plastic film, the lifting piece is operated, when the lifting piece is unfolded, the lifting piece drives the multistage ring with the largest cross section to move towards the direction away from the multistage ring with the smallest cross section, at the moment, the plurality of multistage rings are unfolded, two adjacent multistage rings are limited mutually, the plurality of multistage rings are in an unfolded state, and the silage coated with the plastic film can be protected; when the lifter contracts, remove the multistage ring that the cross section is the biggest towards the direction that is close to the multistage ring that the cross section is the minimum, and a plurality of multistage ring overlaps each other step by step and establishes this moment, when the multistage ring that the cross section is the biggest encircles and receives on adjacent multistage ring, just can take the silage that is located the top, refers to this operation, and remaining silage also can take step by step, and is visible, and fodder silage cladding mechanism can protect silage and can dismantle step by step and take silage.

Drawings

Fig. 1 is a schematic structural diagram of a feed silage wrapping mechanism according to the present invention.

Fig. 2 is a cross-sectional view taken along line a-a of fig. 1.

In the attached drawings, 1-a multi-stage ring, 10-a compression spring clamping bead, 11-a bottom ring, 12-a first-stage middle ring, 13-a second-stage middle ring, 14-a top ring, 2-a lifting piece, 21-a sleeving piece, 210-an avoiding opening, 211-a fixing block, 212-a first-stage stretching block, 213-a second-stage stretching block, 214-a third-stage stretching block, 22-a containing seat, 221-a containing groove, 3-an operating handle and 4-a cover body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 2, a preferred embodiment of the present invention provides a feed silage wrapping mechanism, including a plurality of multi-stage rings 1 and a lifting member 2, wherein cross sections of the plurality of multi-stage rings 1 are sequentially reduced, so that the plurality of multi-stage rings 1 can be sleeved together step by step or can be stretched by pulling each other, and when the plurality of multi-stage rings 1 are stretched, two adjacent multi-stage rings 1 can be limited to each other; the lifting piece 2 is connected with the multistage ring 1 with the largest cross section, and the lifting piece 2 can drive a plurality of multistage rings 1 to expand or contract.

According to the feed silage coating mechanism, the multistage ring 1 with the smallest cross section is covered outside the bottom of silage coated with a plastic film, the lifting piece 2 is operated, when the lifting piece 2 is unfolded, the lifting piece 2 drives the multistage ring 1 with the largest cross section to move towards the direction far away from the multistage ring 1 with the smallest cross section, namely the top of the silage of the plastic film moves, at the moment, the plurality of multistage rings 1 are unfolded, two adjacent multistage rings 1 are mutually limited, the plurality of multistage rings 1 keep the unfolded state, and the silage coated with the plastic film can be protected; when the shrink of lifter 2, with the biggest multistage ring of cross section 1 towards the direction removal of being close to the smallest multistage ring of cross section 1, a plurality of multistage ring 1 overlaps each other step by step and establishes this moment, when the biggest multistage ring of cross section 1 cup joints on adjacent multistage ring 1, just can take the silage that is located the top, refer to this operation, remaining silage also can take step by step, it is visible, fodder silage cladding mechanism can protect and can dismantle step by step and take silage to silage.

In the present embodiment, when the plurality of multistage rings 1 are expanded, the adjacent two multistage rings 1 are mutually restrained by the compression spring beads 10. Specifically, in two adjacent multistage rings 1, the great multistage ring 1 of cross section is equipped with the holding tank that holds the less multistage ring 1 of cross section, and the less multistage ring 1 of cross section deviates from the one end on ground and is equipped with compression spring card pearl 10, and the great multistage ring 1 of cross section corresponds compression spring card pearl 10 and is equipped with the joint groove. In the present embodiment, the plurality of multistage rings 1 include a bottom ring 11, a first-stage middle ring 12, a second-stage middle ring 13, and a top ring 14, and the cross-sectional sizes of the side facing the ground are ordered as follows: the bottom ring 11 is more than the first-level middle ring 12, more than the second-level middle ring 13 and more than the top ring 14. The bottom ring 11, the first-level middle ring 12, the second-level middle ring 13 and the top ring 14 are all circular rings, and the bottom ring 11 is positioned at the bottom of one side, facing the ground, of the lifting piece 2. One end of the second-stage middle ring 13, which is far away from the ground, is provided with a compression spring clamping bead 10, the side surface of the top ring 14, which faces the second-stage middle ring 13, is provided with an accommodating groove, and the top ring 14 is provided with a clamping groove corresponding to the compression spring clamping bead 10 of the second-stage middle ring 13. When the top ring 14 moves towards the bottom ring 11 under stress, the compression spring clamping bead 10 of the second-stage middle ring 13 is separated from the clamping groove of the top ring 14, the top ring 14 covers the second-stage middle ring 13 through the accommodating groove of the top ring, and the silage positioned at the top ring 14 is exposed and can be conveniently taken; when the top ring 14 is pulled in a direction departing from the bottom ring 11 under stress, the compression spring clamping bead 10 of the second-stage middle ring 13 can be clamped in the clamping groove of the top ring 14, at the moment, the second-stage middle ring 13 is fixed relative to the top ring 14, and the top ring 14 and the second-stage middle ring 13 can protect the corresponding silage. The connection mode and the limiting mode of the secondary middle ring 13 and the primary middle ring 12, and the primary middle ring 12 and the bottom ring 11 are the same as the connection mode and the limiting mode of the top ring 14 and the secondary middle ring 13, and are not described herein again. When the lifting member 2 continues to drive the top ring 14 to move in a direction away from the bottom ring 11, the second-stage middle ring 13 touches and presses the compression spring clamping bead 10 on the adjacent first-stage middle ring 12, the top ring 14 and the second-stage middle ring 13 can cover the first-stage middle ring 12, at this time, the lifting member 2 is stopped to operate, the top ring 14 and the second-stage middle ring 13 keep a state of covering the first-stage middle ring 12, at this time, silage originally corresponding to the second-stage middle ring 13 can be taken, and the silage taking method corresponding to other multi-stage rings 1 is the same as the silage taking method corresponding to the top ring 14 and the second-stage middle ring 13, and details are not described herein.

In this embodiment, the number of the lifting members 2 is two, and the two lifting members 2 are both connected to the multistage ring 1 having the largest cross section, and specifically, the two lifting members 2 are oppositely disposed at opposite sides of the top ring 14. Lifting member 2 includes that a plurality of cup joints piece 21, and a plurality of cup joints the cross section of piece 21 and reduces in proper order to make a plurality of cup joint piece 21 can overlap each other and establish together or mutual tractive and expand and a plurality of cup joint piece 21 two adjacent cup joint piece 21 can be spacing each other when expanding, and is specific, and a plurality of cup joint piece 21 includes fixed block 211, the tensile piece 212 of one-level, the tensile piece 213 of second grade and the tensile piece 214 of third grade, and its sequencing towards the cross section size on one side of ground is: the fixed block 211 is more than the primary stretching block 212, the secondary stretching block 213 and the tertiary stretching block 214. The primary stretching block 212, the secondary stretching block 213 and the tertiary stretching block 214 are square blocks. The one end that fixed block 211 deviates from ground is equipped with a compression spring card pearl, and the tensile piece 212 of one-level is equipped with one-level cover towards fixed block 211 and connects the groove, and the tensile piece 212 of one-level corresponds the compression spring card pearl of fixed block 211 and is equipped with the joint groove. When the first-order tensile piece 212 atress moved towards fixed block 211 direction, fixed block 211 can slide into one-order cover connects in the groove, when the tensile piece 212 atress of one-order pulled towards the direction pulling that deviates from fixed block 211, the compression spring card pearl of fixed block 211 can the joint in the joint groove that corresponds, and the tensile piece 212 of one-order is fixed relative to fixed block 211 this moment. The connection mode and the limiting mode of the secondary stretching block 213 and the primary stretching block 212 and the tertiary stretching block 214 and the secondary stretching block 213 are the same as the connection mode and the limiting mode of the primary stretching block 212 and the fixed block 211, and are not described herein again. The splicing block 21 with the largest cross section is connected with the multistage ring 1 with the largest cross section, the splicing block 21 with the smallest cross section corresponds to the multistage ring 1 with the smallest cross section, specifically, the three-stage stretching block 214 is connected with the outer wall of the top ring 14, and the fixing block 211 corresponds to the bottom ring 11. A plurality of cup joint piece 21 and the multistage ring 1 of a plurality of are can expand step by step and spacing structure, and the user is when silage is taken step by step to needs, with three-level tensile piece 214 down-draw to the cup joint piece 21 that corresponds step by step towards ground direction can.

In this embodiment, the lifting member 2 further includes a receiving seat 22, the receiving seat 22 corresponds to the multistage ring 1 with the smallest cross section, that is, corresponds to the fixing block 211, the receiving seat 22 is provided with a receiving groove 221, one end of the sleeve block 21 with the smallest cross section is connected to the bottom of the receiving seat 22 corresponding to the receiving groove 221, and specifically, one end of the fixing block 211 departing from the first-stage stretching block 212 is fixed to the bottom of the receiving seat 22 corresponding to the receiving groove 221. The arrangement of the storage seat 22 can increase the overall stability of the lifting member 2, so that the expansion and contraction operations of the lifting member 2 are more stable.

In the present embodiment, the sleeving block 21 with the largest cross section is provided with a position avoiding opening 210 corresponding to the wall body of the receiving seat 22, specifically, the position avoiding opening 210 is provided at one end of the third-stage stretching block 214 facing the receiving seat 22, when the third-stage stretching block 214 moves to the receiving seat 22 under a force, the position avoiding opening 210 can be embedded into the wall body of the receiving seat 22, so that the third-stage stretching block 214 can cover the second-stage stretching block 213 and the second-stage stretching block 213 is received in the receiving groove 221.

In the present embodiment, the sleeving block 21 with the largest cross section is provided with the operating handle 3, and specifically, the operating handle 3 is provided on the side of the tertiary stretching block 214 away from the top ring 14, so as to facilitate the operator to apply force to the tertiary stretching block 214.

In this embodiment, the fodder ensiling and coating mechanism further comprises a cover body 4, and the cover body 4 can be detachably covered on the multistage ring 1 with the largest cross section, namely, the side of the top ring 14, which is far away from the multistage ring 1 with the smallest cross section. The lid 4 is provided to protect the top of the silage bed material.

It is to be understood that the number of the multistage rings 1 is not limited to four in the present embodiment, and in other embodiments, the number of the multistage rings 1 may be several.

It is understood that the lifter 2 is not limited to the structure of the present embodiment, and in other embodiments, the lifter 2 may adopt an air cylinder, and the air cylinder controls the expansion and the mutual sleeving of the plurality of multistage rings 1.

It will be appreciated that in other embodiments, the cover 4 may be omitted.

The above description is intended to describe in detail the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the claims of the present invention, and all equivalent changes and modifications made within the technical spirit of the present invention should fall within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a fodder silage cladding mechanism which characterized in that: the multi-stage ring expansion device comprises a plurality of multi-stage rings (1) and lifting pieces (2), wherein the cross sections of the multi-stage rings (1) are sequentially reduced, so that the multi-stage rings (1) can be mutually sleeved together step by step or mutually pulled to be expanded, and two adjacent multi-stage rings (1) can be mutually limited when the multi-stage rings (1) are expanded; the lifting piece (2) is connected with the multistage ring (1) with the largest cross section, and the lifting piece (2) can drive a plurality of multistage rings (1) to expand or contract.

2. A feed silage wrapping mechanism as claimed in claim 1, wherein: the lifting piece (2) comprises a plurality of sleeving blocks (21), the cross sections of the sleeving blocks (21) are sequentially reduced, so that the sleeving blocks (21) can be sleeved together or pulled to be unfolded, and two adjacent sleeving blocks (21) can be limited when the sleeving blocks (21) are unfolded; the splicing block (21) with the largest cross section is connected with the multistage ring (1) with the largest cross section, and the splicing block (21) with the smallest cross section corresponds to the multistage ring (1) with the smallest cross section.

3. A feed silage wrapping mechanism as claimed in claim 2, wherein: the lifting piece (2) further comprises a containing seat (22), the containing seat (22) corresponds to the multistage ring (1) with the smallest cross section, a containing groove (221) is formed in the containing seat (22), and one end of the sleeving block (21) with the smallest cross section is connected with the bottom of the containing groove (221).

4. A feed silage wrapping mechanism as claimed in claim 3, wherein: the sleeving and connecting block (21) with the largest cross section is provided with a position avoiding opening (210) corresponding to the wall body of the containing seat (22).

5. A fodder silage wrapping mechanism as claimed in claim 4, wherein: the sleeving connection block (21) with the largest cross section is provided with an operation handle (3).

6. A feed silage wrapping mechanism as claimed in claim 1, wherein: the number of the lifting pieces (2) is two, and the two lifting pieces (2) are connected with the multistage ring (1) with the largest cross section.

7. A feed silage wrapping mechanism as claimed in claim 1, wherein: when the multiple multistage rings (1) are unfolded, the adjacent two multistage rings (1) are mutually limited through compression spring clamping beads (10).

8. A feed silage wrapping mechanism as claimed in claim 1, wherein: the fodder silage cladding mechanism still includes lid (4), lid (4) removable lid is located the cross section is biggest multistage ring (1) deviate from the one side of the minimum multistage ring (1) of cross section.

Images