CN219330403U - Flexible bidirectional egg collector for cultivation - Google Patents

Abstract

The utility model provides a flexible bidirectional egg collector for cultivation, which comprises at least one egg collecting claw capable of being freely combined, wherein the egg collecting claw comprises an outer triangular support plate, an outer egg protecting bracket, an egg protecting trailing edge and an inner egg protecting bracket, wherein the egg collecting claw comprises an outer triangular support plate, an inner egg protecting bracket, an outer egg protecting trailing edge and an inner egg protecting bracket, wherein the inner egg protecting bracket comprises a plurality of egg collecting claws, an outer triangular support plate, an inner egg protecting tray and an outer egg collecting tray, wherein the inner egg supporting tray comprises a plurality of egg collecting claws, a plurality of egg collecting claw and a plurality of egg collecting claw, wherein the outer triangular support: the outer triangular support plates are triangular, are two and are symmetrically arranged left and right; the top ends of the two outer triangular support plates are connected through an outer egg-protecting bracket, the two bottom ends are connected through corresponding egg-protecting trailing edges, and the two middle parts are connected through an inner egg-protecting bracket, so that hollowed egg collecting spaces are respectively formed by surrounding the outer egg-protecting bracket, the inner egg-protecting bracket and the egg-protecting trailing edges corresponding to the two sides. The utility model adopts a plurality of egg collecting claws to freely combine, and can realize positive rotation egg collection and reverse rotation egg collection according to egg collecting spaces formed at two sides of the egg collecting claws, thereby being flexible and convenient to use; the egg collecting claw adopts a single design, a plurality of combination use, flexible installation and convenient maintenance, is suitable for poultry houses such as chicken houses, duck houses and the like for egg collection, and has good practicability.

Description

Flexible bidirectional egg collector for cultivation

Technical Field

The utility model relates to a culture egg collecting claw, in particular to a flexible bidirectional egg collector for culture.

Background

The egg collecting machine is an important component of automatic egg cage raising equipment, plays a very important role in the egg collecting process, and mainly adopts the working principle that: eggs laid by the raised laying hens are conveyed to the position of an egg collector through a conveying belt, and then the egg collector conveys away the eggs through egg collecting claws. At present, in the automatic centralized breeding (chicken and duck raising) process, the problem of egg collection and the problem of egg breaking rate always puzzle the breeding technicians. The egg collecting claw is used as a core component of the egg collecting machine, and the green belt type C-shaped claw egg collecting machine is commonly adopted in the market at present to realize the automatic egg collecting.

But the green belt type egg picking machine can influence the longitudinal ventilation of the chicken house, and the C-shaped claw type egg collecting machine has the problem of too high egg breaking rate, and the two methods can only forward rotate for egg collection. Moreover, eggs need to be overturned when reaching the top end of the machine, broken eggs are extremely easy to cause in the overturning process, the safety is not high, and the broken eggs pollute other eggs and egg collecting machines, so that the egg collecting effect and egg collecting efficiency of egg collecting claws are reduced, and the egg collecting cost is increased.

Disclosure of Invention

The utility model aims to solve the technical problems of the prior art, and provides the flexible bidirectional egg collector for culturing, which can collect eggs positively and negatively, can effectively ensure the safety and stability of eggs during transportation and reduce the damage probability during laying and laying eggs.

The utility model adopts the following technical scheme for solving the technical problems:

the utility model provides a flexible bidirectional egg collector for cultivation, which comprises at least one egg collecting claw capable of being freely combined, wherein the egg collecting claw comprises an outer triangular support plate, an outer egg protecting bracket, an egg protecting trailing edge and an inner egg protecting bracket, wherein the egg protecting outer bracket comprises a plurality of triangular support plates, a plurality of egg protecting trailing edges and a plurality of egg protecting inner brackets, wherein the egg supporting outer bracket comprises a plurality of triangular support plates, a plurality of egg supporting pull edges and a plurality of egg supporting inner brackets, the egg supporting pull edges are arranged on the outer triangular support plates, and the egg supporting inner brackets are arranged on the egg supporting inner brackets, and the egg supporting inner brackets comprise a plurality of egg supporting pull edges and a plurality of egg supporting pull edges, wherein: the outer triangular support plates are triangular, are two and are symmetrically arranged left and right; the two outer triangular support plates are connected through the outer egg-protecting brackets, the two bottom ends are connected through corresponding egg-protecting trailing edges, and the two middle parts are connected through the inner egg-protecting brackets, so that hollowed egg collecting spaces are respectively formed by enclosing the outer egg-protecting brackets, the inner egg-protecting brackets and the egg-protecting trailing edges corresponding to the two sides.

Preferably, the outer triangle support plate comprises a side guard plate and a support rod, wherein:

the two support rods are respectively arranged at the two ends of the bottom of the side guard plate in a left-right inclined mode and are arranged in an inverted Y-shaped mode with the side guard plate;

and the width of the side guard plate is larger than that of the supporting rod, so that a baffle mechanism positioned outside the egg collecting space is formed between the top end of the side guard plate and the supporting rod.

Preferably, the cross section of the bracket in the egg protection is V-shaped or triangular, the end surfaces at two sides of the bracket are positioned at the bottom of the egg collecting space, and the end surfaces at two sides of the bracket are plane or inner arc curved surfaces.

Preferably, the triangular support plate, the egg-protecting outer bracket, the egg-protecting trailing edge and the egg-protecting inner bracket are of an integrated structure.

Preferably, the flexible bidirectional egg collector for cultivation further comprises at least one inner triangle support plate, wherein:

the inner triangular support plates are of a Y-shaped structure and are arranged between the left outer triangular support plate and the right outer triangular support plate at intervals;

and the top end, the two bottom ends and the middle part of the egg-protecting frame are correspondingly connected with the egg-protecting outer bracket, the egg-protecting trailing edge and the egg-protecting inner bracket respectively.

More preferably, the number of the inner triangular support plates is two, the inner triangular support plates and the outer triangular support plates on two sides are respectively arranged at equal intervals, and three egg collecting positions are formed between the two outer triangular support plates.

Preferably, the flexible bidirectional egg collector for cultivation further comprises transmission sleeves respectively and correspondingly arranged in the middle of the outer side wall of the outer triangular support plate, wherein:

the transmission sleeve is of an 8 shape, the two ends of the transmission sleeve are respectively provided with a connecting hole, and the transmission sleeve is respectively connected with the transmission chains on the two sides through connecting pin shafts penetrating through the connecting holes.

Preferably, the flexible bidirectional egg collector for cultivation further comprises reinforced fixing plates respectively and correspondingly arranged in the middle of the outer side wall of the outer triangular support plate, wherein:

the reinforcing fixing plate is triangular, the bottom of the reinforcing fixing plate is connected with the outer triangular supporting plate, and the side wall of the reinforcing fixing plate is connected with the transmission sleeve.

Preferably, the flexible bidirectional egg collector for cultivation further comprises flexible guard edges respectively coated on the outer triangular support plate, the outer egg-protecting bracket, the egg-protecting trailing edge and the outer part of the inner egg-protecting bracket.

Preferably, the number of the egg collecting claws is at least two, and two ends of each egg collecting claw are respectively connected with a transmission chain which is synchronous with the outer side;

and each egg collecting claw is arranged on the transmission chain at intervals respectively, so that the egg collecting claws are synchronously driven to move up and down by the transmission chain to realize intermittent egg collection.

Compared with the prior art, the utility model has the following technical effects:

(1) Flexible use: the flexible bidirectional egg collector can be freely combined by adopting a plurality of egg collecting claws according to the height of the equipment, and can realize positive rotation egg collection and reverse rotation egg collection according to egg collecting spaces formed on two sides of the egg collecting claws, so that the flexible bidirectional egg collector is flexible and convenient to use;

(2) Safety and reliability: the egg collecting claw adopts a hollow structure design, is not choke, is integrally injection molded by adopting a synthetic material, has the structure toughness and flexibility which are completely suitable for the requirements of eggs on a machine, and can be matched with the egg collecting claw to realize intermittent egg collection, so that the eggs are prevented from being damaged due to collision when being put on or put off;

(3) The overhaul is convenient: the egg collecting claw adopts a single design, a plurality of egg collecting claws are combined for use, the egg collecting claws are fixedly arranged on a transmission chain at intervals during use and are arranged at the egg collecting output end of the machine, the egg collecting claw is simple and flexible to install and convenient to replace and overhaul;

(4) The application range is wide: the egg collecting claw is integrally injection molded by adopting a synthetic material, has a bidirectional egg collecting space, can realize positive and negative rotation egg collection, is suitable for egg collection of poultry houses such as chicken houses and duck houses, and has good practicability.

Drawings

FIG. 1 is a schematic diagram of a front view of a flexible bi-directional egg collector for farming according to the present utility model;

FIG. 2 is a schematic side view of a flexible bi-directional egg collector for farming according to the present utility model;

FIG. 3 is a schematic perspective view of a flexible bi-directional egg collector for farming according to the present utility model;

FIG. 4 is a schematic view of a portion A of the flexible bi-directional egg collector for farming of FIG. 3 according to the present utility model;

FIG. 5 is a schematic view of a partially enlarged structure of a portion B of the flexible bi-directional egg collector for farming of FIG. 3 according to the present utility model;

fig. 6 is a schematic view of a structure of a flexible bidirectional egg collector for cultivation, which is matched with a conveying machine to collect eggs in a forward rotation or in a reverse rotation.

Detailed Description

The technical scheme of the utility model is further described in detail below with reference to the accompanying drawings.

In some embodiments, as shown in fig. 1, 2 and 3, in order to solve the defects of the existing green belt type and C-shaped claw type egg collector, a flexible bidirectional egg collector for cultivation is provided, which comprises at least one egg collecting claw which is designed independently and can be used in a free combination mode according to requirements, and the egg collecting claw can collect eggs in a forward rotation mode or a reverse rotation mode, can effectively ensure safety and stability during transportation of eggs, and reduces damage probability during egg loading and egg unloading.

The egg collecting claw mainly comprises an outer triangular support plate 10, an outer egg protecting bracket 30, an egg protecting trailing edge 40 and an inner egg protecting bracket 50 which are designed in an integral structure, wherein the outer triangular support plate 10 is triangular, is two in number and is symmetrically arranged left and right. An outer egg-protecting bracket 30, two egg-protecting trailing edges 40 and an inner egg-protecting bracket 50 are fixedly arranged between the two outer triangular support plates 10 on the left and right sides.

Specifically, the top support legs of the two outer triangular support plates 10 are connected through the outer egg-protecting bracket 30, the outer egg-protecting bracket 30 forms an egg-supporting edge of the egg collecting claw, and when eggs are collected, the outer egg-protecting bracket 30 is positioned at the bottom of the eggs, so that the effect of supporting and limiting is achieved. The bottom ends of the two side supporting legs of the outer triangular supporting plate 10 are connected through two corresponding egg-protecting trailing edges 40, the egg-protecting trailing edges 40 are positioned above or below the side of the egg-protecting outer bracket 30, and when eggs are collected, the egg-protecting trailing edges 40 are positioned at one side of the eggs, so that the effect of limiting and supporting is achieved.

In addition, a triangular supporting space is formed by the egg-protecting inner bracket 30, the egg-protecting inner bracket 50 and the corresponding egg-protecting trailing edge 40 in the cross-sectional direction by being connected between the middle portions of the two outer triangular supporting plates 10, and the triangular supporting space forms an obtuse angle at the position of the egg-protecting inner bracket 50.

Through outer triangle backup pad 10, egg protection outer bracket 30, egg protection drag limit 40 and egg protection inner bracket 50 of integrated structural design egg protection outer bracket 30, egg protection inner bracket 50 and both sides are corresponding respectively enclose into the hollow form egg collection space that can be used to the positive rotation egg collection or reverse rotation egg collection between the egg protection drag limit 40, and this egg collection claw adopts full fretwork design, does not hinder the vertical wind speed of poultry house. Eggs are stored between the outer egg-protecting bracket 30 and the egg-protecting trailing edge 40, so that the eggs are stably transported when being put on or put off, and the breakage is reduced.

In some embodiments, as shown in fig. 2, 3, 4 and 5, the outer triangle support plate 10 mainly includes two parts, namely a side guard 11 and a support bar 12. The two support rods 12 are respectively arranged at two ends of the bottom of the side guard plate 11 in a left-right inclined manner, and are arranged in an inverted Y-shaped manner with the side guard plate 11, so that the overall triangular structural characteristics of the outer triangular support plate 10 are formed.

And it should be noted that, as shown in fig. 2 and 3, the upper side guard 11 has a plane width greater than that of the support bars 12 so as to form a baffle mechanism between the top end thereof and the support bars 12, which is formed of a relatively wide side guard 11 for preventing eggs collected in the inner egg collecting space from falling off from the side guard 11, outside the egg collecting space.

In some embodiments, as shown in fig. 3, 4 and 5, in order to ensure the stability of the eggs after they are collected in the egg collecting space, and avoid shaking and collision during the up-down transfer of the eggs, the structure of the middle in-egg-protecting bracket 50 is flattened, for example, the cross section of the in-egg-protecting bracket 50 is V-shaped or triangular, and may be designed to be planar, so as to increase the width of the bottom of the egg collecting space for supporting and supporting the eggs.

And in order to further improve the degree of fit of the egg and the egg-protecting inner bracket 50 during egg collection, the end surfaces of the two sides of the egg-protecting inner bracket 50 are designed into inner arc curved surfaces, so that the egg is better supported in a fit manner, and the loss caused by severe expansion during egg collection is avoided.

In some embodiments, the triangular support plate 10, the egg-protecting outer bracket 30, the egg-protecting trailing edge 40 and the egg-protecting inner bracket 50 are integrally formed, which may be injection molded from a synthetic material. The egg collecting claw is made of synthetic materials such as nylon glass fiber materials. The material is fully adapted to the toughness and flexibility required of the egg product to the machine.

In addition, the plastic can be made of other materials which are commonly used in daily life, such as PET, PE, PP, PS, PVC, PC, ABS, EVA, EPS, etc., according to the specific requirements.

In some of these embodiments, as shown in fig. 1 and 3, the flexible bi-directional egg collector for farming further includes at least one inner triangular support plate 20 to avoid collisions of multiple eggs during collection. Wherein the inner triangular support plates 20 are in a Y-shaped structure and are arranged between the left and right outer triangular support plates 10 at intervals; and the top end, the two bottom ends and the middle part of the egg-protecting outer bracket 30, the egg-protecting trailing edge 40 and the egg-protecting inner bracket 50 are respectively and correspondingly connected. The egg collecting space enclosed between the two outer triangular support plates 10 is divided into a plurality of independent egg collecting positions by the inner triangular support plates 20 arranged at intervals, and each egg collecting position can collect one or more eggs respectively.

As one embodiment, as shown in fig. 1 and 3, two inner triangular support plates 20 are respectively arranged at equal intervals with the outer triangular support plates 10 on two sides, and three egg collecting positions are formed between the two outer triangular support plates 10.

In some embodiments, as shown in fig. 1, 2, 3, 4 and 5, the flexible bidirectional egg collector for cultivation further includes a transmission sleeve 60 for fixedly mounting egg collecting claws on a transmission chain 90 to drive the egg collecting claws to move, where the two transmission sleeves 60 are respectively and correspondingly disposed at middle positions of outer side walls of the outer triangular support plate 10.

Specifically, as shown in fig. 4, 5 and 6, the transmission sleeve 60 has a 8-shaped columnar structure, two ends of the transmission sleeve are respectively provided with a connecting hole 61, and the transmission sleeve 60 and the egg collecting claw are integrally injection molded. And are fixedly connected with the transmission chains 90 on two sides respectively through the connecting pin shafts 62 which are arranged in the connecting holes 61 in a penetrating way. In the process of rotating the two side transmission chains 90, the egg collecting claw can be synchronously driven to move up and down through the two side transmission sleeves 60, so that the aim of collecting eggs is fulfilled.

In some embodiments, as shown in fig. 1, 2, 3 and 4, the flexible bidirectional egg collector for cultivation further comprises reinforcing fixing plates 70 respectively and correspondingly arranged at the middle parts of the outer side walls of the outer triangular support plates 10.

Specifically, the reinforcing fixing plate 70 is triangular, the bottom of the reinforcing fixing plate is connected with the outer triangular support plate 10, and the side wall of the reinforcing fixing plate is connected with the transmission sleeve 60, so as to strengthen the structural strength between the transmission sleeve 60 and the egg collecting claw body, and avoid the transmission sleeve 60 from breaking in the use process.

In some embodiments, as shown in fig. 2, 3, 4 and 5, to further improve the flexibility of the egg collecting claw, and avoid the breakage of the eggs due to expansion during egg collection, the flexible bidirectional egg collector for cultivation further comprises flexible protection edges 80 respectively coated on the outer triangle support plate 10, the egg protecting outer bracket 30, the egg protecting trailing edge 40 and the egg protecting inner bracket 50, wherein the flexible protection edges 80 are made of foamed rubber.

In some embodiments, as shown in fig. 6, in the flexible bidirectional egg collector for cultivation, at least two egg collecting claws are provided, and two ends of each egg collecting claw are respectively connected with a transmission chain 90 which is synchronous with the outer side. And each egg collecting claw is arranged on the transmission chain 90 at intervals respectively, so that the egg collecting claws are synchronously driven to move up and down by the transmission chain 90 to realize intermittent egg collection.

In particular, the driving chain 90 is a closed endless chain, which is driven by a driving motor and a driving gear, and is located at a side of the conveyor for receiving eggs conveyed from the conveyor. According to the requirement, the flexible bidirectional egg collector can be matched with a conveying machine to realize forward rotation egg collection and reverse rotation egg collection.

The forward rotation egg collecting device is shown in fig. 6, in which the transmission chain 90 rotates clockwise, the output end of the conveying machine is positioned at the left side of the transmission chain 9, the egg collecting claws rotate clockwise along with the transmission chain 90 and sequentially move from bottom to top at the left side of the transmission chain 9, eggs are loaded when passing through the outlet end of the conveying machine, and the egg collecting claws lift to the top end of the machine along with the transmission chain 9.

The reverse egg collection is shown on the right side of fig. 6, in which case the transmission chain 90 rotates anticlockwise, the output end of the conveying machine is located on the left side of the transmission chain 9, and the egg collection claws rotate anticlockwise along with the transmission chain 90 and sequentially move from top to bottom on the left side of the transmission chain 9, and egg feeding is performed when the egg passes through the output end of the conveying machine, and the egg is lowered to the bottom end of the machine along with the transmission chain 9.

The flexible bidirectional egg collector can be freely combined by adopting a plurality of egg collecting claws according to the height of the equipment, and can realize positive rotation egg collection and reverse rotation egg collection according to egg collecting spaces formed on two sides of the egg collecting claws, so that the flexible bidirectional egg collector is flexible and convenient to use; the wind-resistant poultry house adopts a hollow structure design, and does not resist the longitudinal wind speed of the wind-resistant poultry house; the egg collecting claw adopts a single design, a plurality of combination use, flexible installation and convenient maintenance, is suitable for poultry houses such as chicken houses, duck houses and the like for egg collection, and has good practicability.

The above description of the specific embodiments of the present utility model has been given by way of example only, and the present utility model is not limited to the above described specific embodiments. Any equivalent modifications and substitutions for this practical use will also occur to those skilled in the art, and are within the scope of the present utility model. Accordingly, equivalent changes and modifications are intended to be included within the scope of the present utility model without departing from the spirit and scope thereof.

Claims (10)

1. The utility model provides a breed is with two-way egg collector of flexibility, its characterized in that includes at least one collection egg claw that can freely make up, collection egg claw includes outer triangle backup pad (10), egg protection outer bracket (30), egg protection drags limit (40) and egg protection inner bracket (50), wherein: the outer triangular support plates (10) are triangular, are two and are symmetrically arranged left and right; the top ends of the two outer triangular support plates (10) are connected through the outer egg-protecting brackets (30), the two bottom ends are connected through the corresponding egg-protecting trailing edges (40), and the two middle parts are connected through the inner egg-protecting brackets (50), so that hollowed egg collecting spaces are respectively formed by surrounding the outer egg-protecting brackets (30), the inner egg-protecting brackets (50) and the corresponding egg-protecting trailing edges (40) on two sides.

2. The flexible bi-directional egg collector for farming according to claim 1, wherein the outer triangular support plate (10) comprises a side guard (11) and a support bar (12), wherein:

the two support rods (12) are respectively arranged at the two ends of the bottom of the side guard plate (11) in a left-right inclined mode and are arranged in an inverted Y-shaped mode with the side guard plate (11);

and the width of the side guard plate (11) is larger than that of the supporting rod (12) so as to form a baffle mechanism positioned outside the egg collecting space between the top end of the side guard plate and the supporting rod (12).

3. The flexible bidirectional egg collector for cultivation according to claim 1, wherein the cross section of the inner bracket (50) for egg protection is V-shaped or triangular, the two side end surfaces are positioned at the bottom of the egg collecting space, and the two side end surfaces are plane or inner arc curved surfaces.

4. The flexible bidirectional egg collector for cultivation according to claim 1, wherein the triangular support plate (10), the egg-protecting outer bracket (30), the egg-protecting trailing edge (40) and the egg-protecting inner bracket (50) are integrally formed.

5. The flexible bi-directional egg collector for farming of claim 1, further comprising at least one inner triangular support plate (20), wherein:

the inner triangular support plates (20) are of Y-shaped structures and are arranged between the left outer triangular support plate (10) and the right outer triangular support plate at intervals;

and the top end, the two bottom ends and the middle part of the egg-protecting outer bracket are correspondingly connected with the egg-protecting trailing edge (40) and the egg-protecting inner bracket (50) respectively.

6. The flexible bidirectional egg collector for cultivation according to claim 5, wherein the number of the inner triangular support plates (20) is two, the inner triangular support plates and the outer triangular support plates (10) on two sides are respectively arranged at equal intervals, and three egg collecting positions are formed between the two outer triangular support plates (10).

7. The flexible bi-directional egg collector for farming according to claim 1, further comprising transmission sleeves (60) respectively correspondingly arranged in the middle of the outer side wall of the outer triangular support plate (10), wherein:

the transmission sleeve (60) is of an 8 shape, the two ends of the transmission sleeve are respectively provided with a connecting hole (61), and the transmission sleeve is respectively connected with transmission chains (90) on the two sides through connecting pins (62) penetrating through the connecting holes (61).

8. The flexible bi-directional egg collector for farming according to claim 7, further comprising reinforcing fixing plates (70) respectively provided in the middle of the outer side walls of the outer triangular support plates (10), wherein:

the reinforcing fixing plate (70) is triangular, the bottom of the reinforcing fixing plate is connected with the outer triangular support plate (10), and the side wall of the reinforcing fixing plate is connected with the transmission sleeve (60).

9. The flexible bi-directional egg collector for farming of claim 1, further comprising flexible beads (80) wrapped around the outer triangle support plate (10), the egg-protecting outer carrier (30), the egg-protecting trailing edge (40), and the egg-protecting inner carrier (50), respectively.

10. The flexible bidirectional egg collector for cultivation according to claim 1, wherein the number of the egg collecting claws is at least two, and two ends of each egg collecting claw are respectively connected with an outside synchronous transmission chain (90);

and each egg collecting claw is arranged on the transmission chain (90) at intervals respectively, so that the egg collecting claw is synchronously driven to move up and down by the transmission chain (90) to realize intermittent egg collection.

Images