CN210782528U - Three-dimensional cage utensil is raised to breed duck - Google Patents

Abstract

The utility model provides a three-dimensional cage utensil is raised to seed duck belongs to poultry raising equipment technical field. The technical scheme is as follows: a three-dimensional cage for breeding ducks comprises a fixed frame, two third slide rails correspondingly arranged on the inner side of the bottom of the fixed frame, two auxiliary frames respectively arranged on two sides of the lower end part of each end of the fixed frame, two groups of breeding units correspondingly arranged among the fixed frame, the auxiliary frames and the third slide rails, and a sliding driving assembly arranged on the fixed frame and respectively controlling the two groups of breeding units to correspondingly slide inwards and outwards; each group of feeding units is in a step shape when sliding outwards. The utility model has the advantages that: an object of the utility model is to provide a three-dimensional cage utensil is raised to kind of duck that can make full use of sunshine, energy saving and consumption saving, area is little, the operating efficiency is high.

Description

Three-dimensional cage utensil is raised to breed duck

Technical Field

The utility model relates to a poultry raising equipment technical field especially relates to a kind of duck raises three-dimensional cage utensil.

Background

The breeding of the improved variety is the precondition of ensuring stable yield and high yield, and the breeding of the duck is particularly important. The breeding duck has strong adaptability and good cold resistance, and if the breeding duck is properly raised, corresponding heat preservation or heating measures are adopted, so that the high yield performance of the breeding duck can be fully exerted even in winter and early spring, the high and stable yield can be obtained, the market quantity of the fresh eggs in winter is increased, and the economic benefit of breeding duck is further improved.

The breeding duck breeding has entered into the cage culture era, the three-dimensional breeding cage is increasingly popularized among farmers, electric energy is consumed for warming and illumination, days with abundant sunlight are frequent in winter and early spring, a large amount of electric energy can be properly saved, for small farmers, a large amount of cost can be saved, and the three-dimensional cage in the prior art cannot fully utilize the sunlight.

How to solve the problems in the prior art is the subject of the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a three-dimensional cage utensil is raised to kind of duck that can make full use of sunshine, energy saving and consumption saving, area is little, the operating efficiency is high.

The utility model discloses a realize through following measure: a three-dimensional cage for breeding ducks comprises a fixed frame, two third slide rails correspondingly arranged on the inner side of the bottom of the fixed frame, two third slide rails arranged on the ground, two auxiliary frames respectively arranged on two sides of the lower end part of each end of the fixed frame, two groups of breeding units correspondingly arranged among the fixed frame, the auxiliary frames and the third slide rails, and a sliding driving assembly arranged on the fixed frame and respectively controlling the two groups of breeding units to correspondingly slide inwards and outwards;

each group of the feeding units is in a step shape when sliding outwards.

The utility model is characterized in that the feeding unit comprises three layers of feeding components, the sliding driving component controls the feeding components at the middle and lower layers, when the feeding unit slides inwards to a complete recovery state, the feeding components at the middle and lower layers are positioned in the orthographic projection of the feeding components at the top layer on the ground, and the floor area of the cage is reduced;

the sliding driving assembly comprises two first sliding driving parts which are correspondingly arranged at two ends of the fixing frame and control the feeding assembly at the middle layer, two second sliding driving parts which are correspondingly arranged at two ends of the fixing frame and control the feeding assembly at the lower layer, and a linkage mechanism arranged between the two first sliding driving parts; and a mechanism box is arranged outside the sliding driving component.

The first sliding driving part comprises a lead screw, a sliding block, two connecting rods, a first sliding block and a second sliding block, wherein the lead screw is rotatably connected to the fixed frame along the vertical direction in the axis direction; the lead screw is connected with the linkage mechanism;

the second sliding driving part comprises two sliding plates which are respectively matched with the fixed frame in a sliding way along the horizontal direction, a connecting arm arranged between each sliding plate and the feeding component at the corresponding middle layer, a belt transmission mechanism arranged on each sliding plate, a first connecting block arranged between each belt transmission mechanism and the fixed frame, and a second connecting block arranged between each belt transmission mechanism and the feeding component at the corresponding lower layer; two belt pulleys in the belt transmission mechanism are correspondingly hinged at two ends of the sliding plate, and a belt in the transmission mechanism is fixedly connected with the first connecting block and the second connecting block respectively; the first connecting blocks are fixed on the fixing frame and respectively correspond to the auxiliary frames close to the same side, and the second connecting blocks are respectively and correspondingly fixed on the inner sides of the end parts of the feeding assemblies at the lower layer; the first sliding driving part and the second sliding driving part are arranged, so that the sliding synchronization can be realized, and the working efficiency is improved.

The utility model is characterized in that the linkage mechanism comprises two second bevel gears with axes respectively coaxial with the axis of the screw at each end, two first bevel gears respectively meshed with each second bevel gear, a driving shaft respectively coaxial with the two first bevel gears, and a motor with an output shaft coaxial with the driving shaft; and a motor box is arranged outside the motor.

The utility model is characterized in that the three-dimensional cage for breeding ducks further comprises a plurality of support columns which are arranged between the fixed frames above and below the second sliding driving part and between the auxiliary frames above and below the second sliding driving part, and each support column is in sliding fit with the fixed frame corresponding to the support column and/or the auxiliary frame corresponding to the support column; when the feeding unit slides outwards, according to the outwards sliding degree of the feeding unit, part or all of the support columns slide outwards to prevent the second sliding driving part from interfering with the support columns; after the feeding unit slides inwards and retracts, all the supporting columns slide inwards, and the supporting strength of the fixing frame and/or the auxiliary frame is improved.

The utility model discloses a concrete characteristics are in addition, set up on the mount with the mutual sliding fit's of support column second spout, set up on the auxiliary frame with the mutual sliding fit's of support column fourth spout.

The utility model discloses a concrete features still, the tip set up under the mount terminal surface with the mutual sliding fit's of sliding plate first spout, set up on the auxiliary frame with the mutual sliding fit's of sliding plate third spout, first spout and corresponding the third spout flushes each other.

The utility model discloses a concrete features still, the auxiliary frame can be dismantled the setting and be in on the mount, accessible hinged joint is in corresponding position on the mount works as after raising the unit and inwards sliding and withdrawing, can with the auxiliary frame is dismantled, or will the auxiliary frame is inwards folded, avoids interfering breeder's daily operation.

The utility model discloses a concrete characteristics are in addition, raise the subassembly and include the rearging frame, fix the rearging cage at rearging frame top sets up tip under the rearging frame is located the excrement area under the rearging cage, and set up and be in rearging frame one side is close to the trough of tip under the rearging cage.

The utility model discloses a concrete characteristics are in addition, set up on the mount with the middle part raise the first slide rail of the mutual sliding fit of frame bottom surface, the auxiliary frame top surface set up with the middle part raise the second slide rail of the mutual sliding fit of frame bottom surface, first slide rail with the second slide rail flushes each other.

The utility model discloses during the in-service use: when the feeding unit needs to be slid to the step shape, firstly, the auxiliary frame is installed or rotated to the corresponding position, meanwhile, the first sliding rail is enabled to be parallel and level with the second sliding rail, the first sliding groove is enabled to be parallel and level with the third sliding groove, secondly, the supporting column slides outwards along the second sliding groove or the fourth sliding groove, and then the motor is started;

the driving shaft coaxial with the output shaft of the motor rotates along with the motor to drive the first bevel gear to drive the second bevel gear meshed with the first bevel gear to rotate, the screw rod with the axis coaxial with the second bevel gear rotates to drive the sliding block to slide downwards, and under the action of the connecting rod, the two feeding components at the middle layer slide outwards, namely the bottom surface of the feeding frame slides along the first sliding rail and extends onto the second sliding rail;

when the feeding component on the middle layer slides outwards, the sliding plate slides along the first sliding groove and extends to the third sliding groove under the driving of the connecting arm to drive the belt pulley to move along with the first sliding groove;

when the feeding units need to be retracted, the motor is started to rotate in the opposite direction, at the moment, the sliding direction of the sliding block slides upwards, and under the action of the connecting rod, the two feeding assemblies on the middle layer slide inwards to be retracted to drive the feeding assemblies on the lower layer to be retracted;

after the feeding unit is completely retracted, the supporting columns slide inwards along the second sliding grooves or the fourth sliding grooves, and then the auxiliary frame is detached or folded.

The utility model has the advantages that: the utility model is provided with the feeding unit which can slide outwards and is in a ladder shape, thereby fully utilizing the sunlight, saving energy consumption and cost; the feeding unit can be retracted inwards, so that the floor area of the cage is reduced; the first sliding driving part and the second sliding driving part are arranged, so that the sliding synchronization can be realized, and the working efficiency is improved; the supporting columns which are mutually matched with the fixed frame and/or the auxiliary frame in a sliding way are arranged, so that on one hand, the interference generated when the cage slides can be avoided, and on the other hand, the supporting strength of the fixed frame and/or the auxiliary frame can be improved; the auxiliary frame is arranged and can be detachably arranged on the fixing frame, so that the interference of the daily operation of a breeder can be avoided, and meanwhile, the floor area of the cage is further reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a partial structure of the present invention.

Fig. 3 is a schematic view of a part a of the enlarged structure in fig. 2.

Fig. 4 is a schematic view of a part of the enlarged structure at B in fig. 2.

Fig. 5 is a schematic structural diagram of the present invention.

Wherein the reference numerals are: 1. a rearing cage; 2. a feeding rack; 3. a fixed mount; 301. a first slide rail; 302. a first chute; 303. a second chute; 4. a trough; 5. a fecal belt; 6. an auxiliary frame; 601. a second slide rail; 602. a third chute; 603. a fourth chute; 7. a third slide rail; 8. a slip drive assembly; 801. a drive shaft; 802. a first bevel gear; 803. a second bevel gear; 804. a lead screw; 805. a slider; 806. a connecting rod; 807. a connecting arm; 808. a sliding plate; 809. a belt pulley; 810. a belt; 811. a first connection block; 812. a second connecting block; 80. a motor case; 81. a mechanism box; 9. and (4) a support column.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

Referring to fig. 1 to 5, the present invention is: a three-dimensional cage for breeding ducks comprises a fixed frame 3, two third slide rails 7 correspondingly arranged on the inner side of the bottom of the fixed frame 3, two third slide rails 7 arranged on the ground, two auxiliary frames 6 respectively arranged on two sides of the lower end part of each end of the fixed frame 3, two groups of breeding units correspondingly arranged among the fixed frame 3, the auxiliary frames 6 and the third slide rails 7, and a sliding driving assembly 8 arranged on the fixed frame 3 and respectively controlling the two groups of breeding units to correspondingly slide inwards and outwards;

each group of feeding units is in a step shape when sliding outwards.

The utility model is characterized in that the feeding unit comprises a three-layer feeding component, the sliding driving component 8 controls the middle and lower two-layer feeding components, when the feeding unit slides inwards to a complete withdrawing state, the middle and lower two-layer feeding components are positioned in the front projection of the feeding component on the top layer on the ground, and the floor area of the cage is reduced;

the sliding driving assembly 8 comprises two first sliding driving parts which are correspondingly arranged at two ends of the fixed frame 3 and control the feeding assembly at the middle layer, two second sliding driving parts which are correspondingly arranged at two ends of the fixed frame 3 and control the feeding assembly at the lower layer, and a linkage mechanism arranged between the two first sliding driving parts; a mechanism box 81 is arranged outside the sliding driving component 8.

The first sliding driving part comprises a screw rod 804 which is rotationally connected to the fixed frame 3 along the vertical direction along the axial direction, a sliding block 805 which is in threaded connection with the screw rod 804 and is in sliding fit with the fixed frame 3, two connecting rods 806, one end of each connecting rod is correspondingly hinged to the two feeding components at the middle layer, and the other end of each connecting rod is respectively hinged to the two corresponding sides of the sliding block 805; the lead screw 804 is connected with the linkage mechanism;

the second sliding driving part comprises two sliding plates 808 which are respectively matched with the fixed frame 3 in a sliding way correspondingly along the horizontal direction, a connecting arm 807 arranged between each sliding plate 808 and the corresponding feeding component at the middle layer, a belt transmission mechanism arranged on each sliding plate 808, a first connecting block 811 arranged between each belt transmission mechanism and the fixed frame 3 and a second connecting block 812 arranged between each belt transmission mechanism and the corresponding feeding component at the lower layer; two belt pulleys 809 in the belt transmission mechanism are correspondingly hinged at two ends of the sliding plate 808, and a belt 810 in the transmission mechanism is fixedly connected with the first connecting block 811 and the second connecting block 812 respectively; the first connecting blocks 811 are fixed on the fixing frame 3 and respectively and correspondingly close to the auxiliary frames 6 on the same side, and the second connecting blocks 812 are respectively and correspondingly fixed on the inner sides of the end parts of the feeding assemblies on the lower layer; the first sliding driving part and the second sliding driving part are arranged, so that the sliding synchronization can be realized, and the working efficiency is improved.

The utility model is also characterized in that the linkage mechanism comprises two second bevel gears 803 with axes respectively coaxial with the axis of the lead screw 804 at each end, two first bevel gears 802 meshed with each second bevel gear 803, a driving shaft 801 coaxial with the two first bevel gears 802, and a motor with an output shaft coaxial with the driving shaft 801; a motor case 80 is provided outside the motor.

The utility model is characterized in that the three-dimensional cage for breeding ducks also comprises a plurality of support columns 9 which are arranged between the fixed frames 3 above and below the second sliding driving part and between the auxiliary frames 6 above and below the second sliding driving part, and each support column 9 is mutually matched with the corresponding fixed frame 3 and/or the corresponding auxiliary frame 6 in a sliding way; when the feeding unit slides outwards, according to the outwards sliding degree of the feeding unit, part of the support columns 9 or all the support columns 9 slide outwards, and the second sliding driving part is prevented from interfering with the support columns 9; when the raising unit is retracted by sliding inward, all the supporting columns 9 are slid inward, and the supporting strength of the fixing frame 3 and/or the auxiliary frame 6 is improved.

The utility model discloses a concrete characteristics also, set up on the mount 3 with the mutual sliding fit's of support column 9 second spout 303, set up on the auxiliary frame 6 with the mutual sliding fit's of support column 9 fourth spout 603.

The utility model discloses a concrete feature is in addition, and the tip is seted up under the 3 terminal surfaces of mount and is slided fit's each other first spout 302 with sliding plate 808, sets up on the auxiliary frame 6 with sliding plate 808 sliding fit's each other third spout 602, and first spout 302 flushes each other with corresponding third spout 602.

The utility model discloses a concrete features still, the setting can be dismantled on mount 3 to auxiliary frame 6, and accessible hinge connection is at the last corresponding position of mount 3, after raising the unit and inwards sliding and withdrawing, can dismantle auxiliary frame 6, or inwards fold auxiliary frame 6, avoid interfering the daily operation of breeder.

The utility model discloses a concrete characteristics are in addition, raise the subassembly and include rearing frame 2, fix the rearging cage 1 at rearing frame 2 tops, set up under rearing frame 2 tip, lie in the excrement area 5 under rearging cage 1 to and set up in rearing frame 2 one side, be close to the trough 4 of the tip under rearging cage 1.

The utility model discloses a concrete characteristics also, set up on the mount 3 with the first slide rail 301 of the mutual sliding fit in 2 bottom surfaces of raising of middle part, 6 top surfaces of auxiliary frame set up with the second slide rail 601 of the mutual sliding fit in 2 bottom surfaces of raising at middle part, first slide rail 301 and second slide rail 601 flush each other.

The utility model discloses during the in-service use: when the feeding unit needs to be slid to the step shape, firstly, the auxiliary frame 6 is installed or rotated to the corresponding position, and meanwhile, the first slide rail 301 and the second slide rail 601 are parallel and level, and the first slide groove 302 and the third slide groove 602 are parallel and level, secondly, the support column 9 slides outwards along the second slide groove 303 or the fourth slide groove 603, and then the motor is started;

the driving shaft 801 coaxial with the output shaft of the motor rotates along with the driving shaft to drive the first bevel gear 802 to drive the second bevel gear 803 meshed with the first bevel gear to rotate, the lead screw 804 coaxial with the second bevel gear 803 on the axis rotates to drive the sliding block 805 to slide downwards, and under the action of the connecting rod 806, the two feeding components at the middle layer slide outwards, namely the bottom surface of the feeding frame 2 slides along the first sliding rail 301 and extends to the second sliding rail 601;

when the feeding component on the middle layer slides outwards, under the drive of the connecting arm 807, the sliding plate 808 slides along the first sliding groove 302 and extends to the third sliding groove 602 to drive the belt pulley 809 to move therewith, because the first connecting block 811 is respectively fixedly connected with the belt 810 and the fixing frame 3, the belt pulley 809 rotates along with the movement of the sliding plate 808, the second connecting block 812 fixedly connected with the belt 810 and the feeding component on the lower layer drives the feeding component on the lower layer to slide outwards, the feeding unit is in a step shape and reaches a proper position, and the motor is turned off;

when the feeding units need to be retracted, the motor is started to rotate in the opposite direction, at the moment, the sliding direction of the sliding block 805 slides upwards, and under the action of the connecting rod 806, the two feeding components at the middle layer slide inwards to be retracted, so that the feeding components at the lower layer are driven to be retracted;

after the raising unit is completely retracted, the supporting posts 9 are slid inward along the second sliding grooves 303 or the fourth sliding grooves 603, and then the auxiliary frame 6 is detached or folded.

The technical features that the utility model has not been described can be realized through or adopt prior art, and no longer give unnecessary details here, and of course, the above-mentioned explanation is not right the utility model discloses a restriction, the utility model discloses also not only be limited to the above-mentioned example, ordinary skilled person in this technical field is in the utility model discloses a change, modification, interpolation or replacement made in the essential scope also should belong to the utility model discloses a protection scope.

Claims (9)

1. The three-dimensional cage for breeding ducks is characterized by comprising a fixed frame (3), two third slide rails (7) correspondingly arranged on the inner side of the bottom of the fixed frame (3), two auxiliary frames (6) respectively arranged on two sides of the lower end part of each end of the fixed frame (3), two groups of breeding units correspondingly arranged among the fixed frame (3), the auxiliary frames (6) and the third slide rails (7), and a sliding driving assembly (8) arranged on the fixed frame (3) and used for respectively controlling the two groups of breeding units to correspondingly slide inwards and outwards;

each group of the feeding units is in a step shape when sliding outwards.

2. The three-dimensional cage for feeding ducks as claimed in claim 1, wherein the feeding unit comprises three layers of feeding assemblies, and the sliding driving assembly (8) controls the two layers of feeding assemblies positioned in the middle and lower;

the sliding driving assembly (8) comprises two first sliding driving parts which are correspondingly arranged at two ends of the fixed frame (3) and control the feeding assembly at the middle layer, two second sliding driving parts which are correspondingly arranged at two ends of the fixed frame (3) and control the feeding assembly at the lower layer, and a linkage mechanism arranged between the two first sliding driving parts;

the first sliding driving part comprises a lead screw (804) which is rotatably connected to the fixed frame (3) along the vertical direction along the axis direction, a sliding block (805) which is in threaded connection with the lead screw (804) and is in sliding fit with the fixed frame (3), one end part of the first sliding driving part is correspondingly hinged to the two feeding components at the middle layer, and the other end part of the first sliding driving part is respectively hinged to two connecting rods (806) at two corresponding sides of the sliding block (805); the lead screw (804) is connected with the linkage mechanism;

the second sliding driving part comprises two sliding plates (808) which are respectively matched with the fixed frame (3) in a sliding way correspondingly along the horizontal direction, a connecting arm (807) arranged between each sliding plate (808) and the feeding component at the corresponding middle layer, a belt transmission mechanism arranged on each sliding plate (808), a first connecting block (811) arranged between each belt transmission mechanism and the fixed frame (3), and a second connecting block (812) arranged between each belt transmission mechanism and the corresponding feeding component at the lower layer; two belt pulleys (809) in the belt transmission mechanism are correspondingly hinged at two ends of the sliding plate (808), and a belt (810) in the transmission mechanism is fixedly connected with the first connecting block (811) and the second connecting block (812) respectively; the first connecting blocks (811) are fixed on the fixing frame (3) and are respectively correspondingly close to the auxiliary frames (6) on the same side, and the second connecting blocks (812) are respectively and correspondingly fixed on the inner sides of the end parts of the feeding assemblies on the lower layer.

3. The stereoscopic cage for breeding ducks as claimed in claim 2, wherein the linkage mechanism comprises two second bevel gears (803) with axes respectively coaxial with the axes of the lead screws (804) at each end, two first bevel gears (802) respectively engaged with each of the second bevel gears (803), a driving shaft (801) respectively coaxial with the two first bevel gears (802), and a motor with an output shaft coaxial with the driving shaft (801).

4. The three-dimensional cage for breeding ducks as claimed in claim 2, further comprising a plurality of support columns (9) arranged between the fixing frames (3) above and below the second sliding driving part and between the auxiliary frames (6) above and below the second sliding driving part, wherein each support column (9) is in sliding fit with the corresponding fixing frame (3) and/or the corresponding auxiliary frame (6).

5. The three-dimensional cage for raising ducks as claimed in claim 4, wherein the fixed frame (3) is provided with a second sliding groove (303) which is in sliding fit with the supporting column (9), and the auxiliary frame (6) is provided with a fourth sliding groove (603) which is in sliding fit with the supporting column (9).

6. The three-dimensional cage for breeding ducks as claimed in claim 2, wherein the lower end part of the end surface of the fixed frame (3) is provided with a first sliding groove (302) which is in sliding fit with the sliding plate (808), and the auxiliary frame (6) is provided with a third sliding groove (602) which is in sliding fit with the sliding plate (808).

7. The three-dimensional cage for feeding ducks as claimed in any one of claims 1 to 6, wherein the auxiliary frame (6) is detachably arranged on the fixed frame (3).

8. The three-dimensional cage for feeding ducks as claimed in any one of claims 2 to 6, wherein the feeding assembly comprises a feeding frame (2), a feeding cage (1) fixed on the top of the feeding frame (2), a manure belt (5) arranged at the lower end of the feeding frame (2) and positioned right below the feeding cage (1), and a feeding trough (4) arranged at one side of the feeding frame (2) and close to the lower end of the feeding cage (1).

9. The three-dimensional cage for breeding ducks as claimed in claim 8, wherein the fixed frame (3) is provided with a first slide rail (301) which is in sliding fit with the bottom surface of the middle breeding frame (2), and the top surface of the auxiliary frame (6) is provided with a second slide rail (601) which is in sliding fit with the bottom surface of the middle breeding frame (2).

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