CN214792257U - Feeding bottle drying device for feeding lambs - Google Patents

Abstract

The utility model relates to a drying device technical field discloses lamb is fed and is used feeding bottle drying device, and drying device includes the air-blast drying cabinet body, places at this internal rack of air-blast drying cabinet: the placing frame comprises a movable base and a placing component arranged on the movable base; the placing assembly comprises a bottom plate, a supporting screw rod and a plurality of limiting assemblies arranged on the supporting screw rod; the limiting component comprises a lower supporting plate, an upper pressing plate and a limiting nut; the opening of the bottle body of the feeding bottle is downward, and the threaded port extends into the hole B and is vertically arranged; the bottle body of the feeding bottle is pressed tightly in the step hole by the upper pressure plate. The utility model has simple structure and convenient operation; the utility model discloses the drying device of filter plate is invertd the feeding bottle body and is placed for remaining hydroenergy in the feeding bottle body enough flows under the effect of gravity, has improved dry efficiency, has accelerated dry speed, has practiced thrift the energy.

Description

Feeding bottle drying device for feeding lambs

Technical Field

The utility model relates to a drying device technical field especially relates to lamb is fed and is used feeding bottle drying device.

Background

In the whole process of raising the lamb, the lamb cultivation is the key point of mutton sheep production, and the survival rate of the lamb directly influences the economic benefit of raising the lamb, so that the survival rate of the lamb is improved, the lamb with strong physique and good development is raised, and the lamb raising method is a key link for obtaining high benefit in the sheep raising industry. Ewes were completely dependent on their milk for growth before new born lambs could digest more different foods such as solid feed. With the progress of the sheep raising technology, the number of lambs born by ewes is greatly increased, and the influence of factors such as diseases and climate change often causes the unfavorable situations that the milk yield of ewes is insufficient, the lambs cannot obtain enough nutrition, and even the milk of the ewes cannot be eaten, so that the weight after weaning does not reach the standard, the diseases are increased, the death rate is increased, and the like, so that the artificial milk is especially important for feeding the lambs. At present, the artificial milk feeding method for the lambs in most farms is characterized in that the lambs are fed one by feeding bottles, and as the number of the lambs is large, all required feeding bottles are filled with milk before feeding in order to improve feeding efficiency, so that a large number of empty feeding bottles are generated after the feeding of the lambs is finished. The used milk bottles need to be timely disassembled into bottle bodies, milk bottle caps and nipples to be cleaned and dried, and the next use is guaranteed.

In the prior art, only the cleaned bottle body, the cleaned feeding bottle cap and the cleaned nipple are stacked in the blast drying box at will, but because the bottle body is deep and has a large surface area, more water can be remained in the cleaned bottle body, and a large amount of time is needed for stacking and drying the water in the bottle body at will, so that the drying efficiency is low, and resources are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the prior technical problem and providing a feeding bottle drying device for feeding lambs.

In order to achieve the purpose, the utility model is implemented according to the following technical scheme: lamb is fed and is used feeding bottle drying device, drying device includes the air blast drying cabinet body, places at this internal rack of air blast drying cabinet: a cuboid drying cavity is arranged in the blast drying box body, and the placing frame is placed in the drying cavity; a feeding bottle body is placed on the placing rack; the feeding bottle body is of an integrated structure and sequentially comprises a threaded opening, a check ring and a bottle body from top to bottom; the placing frame comprises a movable base and a placing assembly arranged on the movable base;

the placing assembly comprises a bottom plate, a supporting screw rod and a plurality of limiting assemblies arranged on the supporting screw rod; the limiting component comprises a lower supporting plate, an upper pressing plate and a limiting nut;

the bottom plate is rectangular, and four supporting screws are arranged at four corners of the bottom plate respectively; the lower supporting plate is provided with four through holes A matched with the supporting screw rods in position, and the inner diameters of the through holes A are larger than the outer diameters of the supporting screw rods; limiting nuts are arranged on the supporting screw rods on the upper side and the lower side of the through hole A, and the lower supporting plate is fixedly arranged on the supporting screw rods through the limiting nuts;

the upper pressure plate is provided with four through holes B matched with the positions of the supporting screws, and the inner diameters of the through holes B are larger than the outer diameters of the supporting screws; limiting nuts are arranged on the supporting screw rods on the upper side and the lower side of the through hole B, and the upper pressure plate is fixedly arranged on the supporting screw rods through the limiting nuts;

a plurality of step holes are distributed on the lower supporting plate in rows and columns, and each step hole comprises a hole A and a hole B; the inner diameter of the hole A is larger than that of the retainer ring, and the inner diameter of the hole B is matched with the outer diameter of the threaded opening; a supporting step is formed between the hole A and the hole B; hole a is above hole B; the opening of the bottle body of the feeding bottle is downward, and the threaded port extends into the hole B and is vertically arranged; the bottle body of the feeding bottle is pressed tightly in the step hole by the upper pressure plate.

Preferably, a plurality of circular truncated cone-shaped holes are distributed in the lower end surface of the upper pressure plate in rows and columns; the number and the positions of the circular truncated cone-shaped holes are matched with the step holes; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole is larger than that of the upper bottom surface of the circular truncated cone-shaped hole; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole is larger than the outer diameter of the bottom surface of the body of the feeding bottle;

the bottom surface of the bottle body of the feeding bottle extends into the circular truncated cone-shaped hole.

Preferably, the upper pressing plate is of an integrated structure and comprises a lower silica gel layer and a metal layer above the silica gel layer; the silica gel layer does not cover the periphery of the through hole B; the round platform-shaped hole is positioned on the silica gel layer.

Preferably, two air holes A are formed in the front side, the rear side, the left side and the right side of each step hole of the lower supporting plate; the front side, the rear side, the left side and the right side of each circular truncated cone-shaped hole of the upper pressing plate are respectively provided with an air hole B.

Preferably, the bottom plate is hinged with the upper end face of the movable base through a shaft rod and a hinge seat; the projection of the shaft lever is positioned on the left and right symmetrical axis of the movable base; the left side of the shaft lever is provided with an electric push rod; the movable end of the electric push rod is hinged with the lower end face of the bottom plate; the lower part of the electric push rod is hinged with the upper end surface of the movable base;

the electric push rod pushes the placing assembly to rotate around the shaft rod.

Preferably, the right side of the shaft rod is provided with a spring; two ends of the spring are respectively and fixedly connected with the lower end face of the bottom plate and the upper end face of the movable base.

Utility model's principle of action:

the utility model discloses when using, it is downthehole to insert the step with the downward insertion of feeding bottle body opening, reuses and pushes down the feeding bottle body and compress tightly, and the feeding bottle body is just firmly accomplished placing the subassembly. Because the mounting positions of the upper pressure plate and the lower supporting plate can be adjusted at will, the positions of the upper pressure plate and the lower supporting plate on the supporting screw rod can be adjusted only by twisting the corresponding limiting nut. Therefore, the using number of the limiting assemblies can be flexibly selected according to actual using requirements, and the distance between the limiting assemblies can be adjusted.

The feeding bottle body can be stably limited between the lower supporting plate and the upper pressing plate through the step hole of the lower supporting plate and the circular truncated cone-shaped hole of the upper pressing plate. The silica gel layer of top board has elasticity, can compress tightly the feeding bottle body.

And in the drying process, the electric push rod can be controlled to push the placing component to swing, so that water in the bottle body of the feeding bottle is thrown out, and the drying efficiency is improved. The electric push rods can be arranged in a plurality of ways, so that the supporting stability of the electric push rods is improved, and the synchronous motion of the electric push rods can be controlled.

The air holes A and B facilitate hot air blown out by the air blowing drying box body to pass around the bottle body of the feeding bottle, and drying efficiency is improved.

The utility model discloses well unrestricted subassembly all adopts the conventional means in this field, for example blast air drying cabinet body, feeding bottle body, portable base, electric putter etc. all select the field commonly used can, and technical personnel in this field can select its model, mounting means, kind etc. according to actual user demand, and clear understanding is its specific how to install, control or use, and the detailed description is not given here again.

The utility model has the advantages that:

the utility model has simple structure and convenient operation; the utility model discloses the drying device of filter plate is invertd the feeding bottle body and is placed for remaining hydroenergy in the feeding bottle body enough flows under the effect of gravity, has improved dry efficiency, has accelerated dry speed, has practiced thrift the energy.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the bottle body of the feeding bottle of the present invention;

FIG. 3 is a top view of the lower support plate of FIG. 1;

FIG. 4 is a bottom view of the upper platen of FIG. 1;

FIG. 5 is a cross-sectional view taken along line E-E of FIG. 3;

FIG. 6 is a cross-sectional view taken along line F-F of FIG. 4;

fig. 7 is a schematic view of the state of the electric push rod of the present invention when pushing the placing component.

In the figure: 1. an air-blast drying box body; 2. a feeding bottle body; 3. a threaded opening; 4. a retainer ring; 5. a bottle body; 6. a movable base; 7. a base plate; 8. a support screw; 9. a lower support plate; 10. an upper pressure plate; 11. a limit nut; 12. a through hole A; 13. a through hole B; 14. a stepped bore; 15. a hole A; 16. a hole B; 17. a circular truncated cone shaped hole; 18. a silica gel layer; 19. a metal layer; 20. an air hole A; 21. an air hole B; 22. a shaft lever; 23. a hinged seat; 24. an electric push rod; 25. a spring.

Detailed Description

The invention will be further described with reference to the drawings and specific embodiments, illustrative embodiments and description of which are provided herein to explain the invention, but not as a limitation thereof.

Example 1

As shown in fig. 1 to 7, the feeding bottle drying device for feeding lambs comprises an air drying box body 1 and a placing frame arranged in the air drying box body 1: a cuboid drying cavity is arranged in the air-blast drying box body 1, and the placing rack is placed in the drying cavity; a feeding bottle body 2 is placed on the placing rack; the feeding bottle body 2 is of an integrated structure and is provided with a threaded port 3, a retainer ring 4 and a bottle body 5 from top to bottom in sequence.

The placing frame comprises a movable base 6 and a placing assembly arranged on the movable base 6;

the placing component comprises a bottom plate 7, a supporting screw 8 and three limiting components arranged on the supporting screw 8; the limiting assembly comprises a lower supporting plate 9, an upper pressing plate 10 and a limiting nut 11.

The bottom plate 7 is rectangular, four supporting screw rods 8 are arranged at four corners of the bottom plate 7 respectively; the lower supporting plate 9 is provided with four through holes A12 matched with the supporting screw rods 8 in position, and the inner diameters of the through holes A12 are larger than the outer diameters of the supporting screw rods 8; the support screw rods on the upper side and the lower side of the through hole A12 are respectively provided with a limiting nut 11, and the lower support plate 9 is fixedly arranged on the support screw rod 8 by the limiting nuts 11.

The upper pressure plate 10 is provided with four through holes B13 matched with the positions of the supporting screws 8, and the inner diameter of the through hole B13 is larger than the outer diameter of the supporting screw 8; and the support screw rods on the upper side and the lower side of the through hole B13 are respectively provided with a limiting nut 11, and the upper pressure plate 10 is fixedly arranged on the support screw rods 8 by the limiting nuts 11.

Forty-nine step holes 14 are arranged in an upper row on the lower supporting plate 9, and each step hole 14 comprises a hole A15 and a hole B16; the inner diameter of the hole A15 is larger than that of the retainer ring 4, and the inner diameter of the hole B16 is matched with the outer diameter of the threaded port 3; a supporting step is formed between the hole A15 and the hole B16; well a15 is above well B16.

The opening of the bottle body 2 of the feeding bottle is downward, and the threaded port 3 extends into the hole B16 and is vertically arranged; the feeding bottle body 2 is pressed in the stepped hole 14 by the upper pressing plate 10.

Forty-nine truncated cone-shaped holes 17 are arranged on the lower end surface of the upper pressure plate 10 in rows and columns; the number and the positions of the circular truncated cone-shaped holes 17 are matched with the step holes; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole 17 is larger than that of the upper bottom surface of the circular truncated cone-shaped hole 17; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole 17 is larger than the outer diameter of the bottom surface of the feeding bottle body 2; the bottom surface of the feeding bottle body 2 extends into the circular truncated cone-shaped hole 17.

The upper press plate 10 is of an integrated structure and comprises a lower silica gel layer 18 and a metal layer 19 above the silica gel layer 18; the silicone gel layer 18 does not cover the periphery of the through hole B13; the truncated cone-shaped hole 17 is located on the silicone layer 18.

Two air holes A20 are formed in the front side, the rear side, the left side and the right side of each step hole of the lower supporting plate 9; the front side, the rear side, the left side and the right side of each circular truncated cone-shaped hole 17 of the upper pressing plate 10 are respectively provided with a vent hole B21.

The bottom plate 7 is hinged with the upper end face of the movable base 6 through a shaft rod 22 and a hinge seat 23; the projection of the shaft 22 falls on the bilateral symmetry axis of the mobile base 6; the left side of the shaft lever 22 is provided with an electric push rod 24; the movable end of the electric push rod 24 is hinged with the lower end face of the bottom plate 7; the lower part of the electric push rod 24 is hinged with the upper end surface of the movable base 6; the power ram 24 urges the placement assembly to rotate about the shaft 22.

The right side of the shaft lever 22 is provided with a spring; two ends of the spring 22 are respectively fixedly connected with the lower end face of the bottom plate 7 and the upper end face of the movable base 6.

The technical scheme of the utility model is not limited to the restriction of above-mentioned specific embodiment, all according to the utility model discloses a technical scheme makes technical deformation, all falls into within the protection scope of the utility model.

Claims (6)

1. Lamb is fed and is used feeding bottle drying device, drying device includes the air blast drying cabinet body, places at this internal rack of air blast drying cabinet: a cuboid drying cavity is arranged in the blast drying box body, and the placing frame is placed in the drying cavity; a feeding bottle body is placed on the placing rack; the feeding bottle body is of an integrated structure and sequentially comprises a threaded opening, a check ring and a bottle body from top to bottom; the method is characterized in that: the placing frame comprises a movable base and a placing assembly arranged on the movable base;

the placing assembly comprises a bottom plate, a supporting screw rod and a plurality of limiting assemblies arranged on the supporting screw rod; the limiting component comprises a lower supporting plate, an upper pressing plate and a limiting nut;

the bottom plate is rectangular, and four supporting screws are arranged at four corners of the bottom plate respectively; the lower supporting plate is provided with four through holes A matched with the supporting screw rods in position, and the inner diameters of the through holes A are larger than the outer diameters of the supporting screw rods; limiting nuts are arranged on the supporting screw rods on the upper side and the lower side of the through hole A, and the lower supporting plate is fixedly arranged on the supporting screw rods through the limiting nuts;

the upper pressure plate is provided with four through holes B matched with the positions of the supporting screws, and the inner diameters of the through holes B are larger than the outer diameters of the supporting screws; limiting nuts are arranged on the supporting screw rods on the upper side and the lower side of the through hole B, and the upper pressure plate is fixedly arranged on the supporting screw rods through the limiting nuts;

a plurality of step holes are distributed on the lower supporting plate in rows and columns, and each step hole comprises a hole A and a hole B; the inner diameter of the hole A is larger than that of the retainer ring, and the inner diameter of the hole B is matched with the outer diameter of the threaded opening; a supporting step is formed between the hole A and the hole B; hole a is above hole B; the opening of the bottle body of the feeding bottle is downward, and the threaded port extends into the hole B and is vertically arranged; the bottle body of the feeding bottle is pressed tightly in the step hole by the upper pressure plate.

2. The lamb feeding bottle drying device of claim 1, which is characterized in that:

a plurality of circular truncated cone-shaped holes are distributed in the lower end surface of the upper pressure plate in rows and columns; the number and the positions of the circular truncated cone-shaped holes are matched with the step holes; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole is larger than that of the upper bottom surface of the circular truncated cone-shaped hole; the inner diameter of the lower bottom surface of the circular truncated cone-shaped hole is larger than the outer diameter of the bottom surface of the body of the feeding bottle;

the bottom surface of the bottle body of the feeding bottle extends into the circular truncated cone-shaped hole.

3. The lamb feeding bottle drying device according to claim 2, characterized in that: the upper pressing plate is of an integrated structure and comprises a lower silica gel layer and a metal layer above the silica gel layer; the silica gel layer does not cover the periphery of the through hole B; the round platform-shaped hole is positioned on the silica gel layer.

4. A baby bottle drying device for feeding lambs according to claim 3, characterized in that: two air holes A are formed in the front side, the rear side, the left side and the right side of each step hole of the lower supporting plate; the front side, the rear side, the left side and the right side of each circular truncated cone-shaped hole of the upper pressing plate are respectively provided with an air hole B.

5. A baby bottle drying device for feeding lambs according to claim 4, characterized in that: the bottom plate is hinged with the upper end surface of the movable base through a shaft lever and a hinge seat; the projection of the shaft lever is positioned on the left and right symmetrical axis of the movable base; the left side of the shaft lever is provided with an electric push rod; the movable end of the electric push rod is hinged with the lower end face of the bottom plate; the lower part of the electric push rod is hinged with the upper end surface of the movable base;

the electric push rod pushes the placing assembly to rotate around the shaft rod.

6. A baby bottle drying device for feeding lambs according to claim 5, characterized in that: a spring is arranged on the right side of the shaft lever; two ends of the spring are respectively and fixedly connected with the lower end face of the bottom plate and the upper end face of the movable base.

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