CN217608913U - Bionic pangolin feeder - Google Patents

Abstract

A manis pentadactyla bionic milk feeder belongs to the technical field of milk feeders. Bionic shell is the pangolin form, and the belly of bionic shell is provided with the inner chamber, is provided with two installing ports in the mammary gland position of bionic shell, and two installing ports are used for fixed nipple, and two nipples are through defeated milk pipe connection milk bottle, and the belly middle part of bionic shell sets up the mouth of luring food, luring food mouth and being connected with the diatery supplement bottle through luring the esophagus, diatery supplement bottle and milk bottle all set up the inner chamber at bionic shell. The utility model discloses a profile modeling structure of pangolin makes the cub experience in the hand of mother's beast, provides sufficient sense of security for the cub. The milk feeding nipple is installed at the breast position, the cub can automatically feed milk powder under instinctive driving, interference to the cub is reduced, manpower and material resources are also reduced, and the feeding rule and the feeding will of the cub are more followed.

Description

Bionic pangolin feeder

Technical Field

The utility model belongs to the technical field of the feeding ware, concretely relates to bionical feeding ware of pangolin.

Background

Pangolin scales are the only existing mammals in the world. Pangolins are low in fertility and generally only produce 1 litter per year, and 1 litter per litter, and for litters with poor maternal characteristics or aid, artificial feeding is also required, wherein the choice of a feeder directly affects whether and how much the litter is taken successfully.

The prior art is mostly suitable for human beings, pets and livestock, and the milk feeder for pangolins is not found for a while. In addition, pangolin oral cavity is narrow, and medium and small size type animal feeding device is unsuitable to use, and small-size and medium-sized feeding device in the market often needs artifical supplementary feeding, just takes out the cub and carries out the manual feeding operation at intervals several hours, wastes time and energy and disturb great to the cub, easily causes the cub stress, is unfavorable for the healthy growth of cub. Therefore, starting from the habit and the physiological structure characteristics of the pangolins, the manis pentadactyla bionic milk feeder is invented, so that cubs are felt in the bosom of the mother and the interference on the cubs is reduced, the cubs can feed milk powder independently, the milk feeder has a heat insulation effect, the natural milk feeding process of the mother and the carapace is simulated better, a warm and comfortable rest space is provided for the cubs, and the cubs can feed the milk powder with constant temperature.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a pangolin bionic feeder;

the utility model adopts the technical proposal that: a squama Manis bionic milk feeder comprises bionic shell, milk tube, milk bottle, subsidiary food bottle, inducing pipe and two nipples; the bionic shell is pangolin, and the belly of bionic shell is provided with the inner chamber, is provided with two installing ports in the mammary gland position of bionic shell, and two installing ports are used for fixed nipple, and two nipples are through defeated milk pipe connection milk bottle, the belly middle part of bionic shell sets up the food calling mouth, the food calling mouth is connected with the food bottle through luring the esophagus, food calling bottle and milk bottle all set up the inner chamber at bionic shell.

Compared with the prior art, the utility model following beneficial effect has:

the utility model discloses a profile modeling structure of pangolin makes the cub experience in the hand of mother's beast, provides sufficient sense of security for the cub. The milk feeding nipple is installed at the breast position, the cub can automatically feed milk powder under instinctive driving, interference to the cub is reduced, manpower and material resources are also reduced, and the feeding rule and the feeding will of the cub are more followed. In addition, the milk feeder is from taking the heat preservation effect, the natural process of suckleing of female first of simulation that can be better to for the cub provides a warm comfortable rest space, ensure again that the cub can eat homothermal milk powder.

Drawings

FIG. 1 is a schematic view of the external structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

wherein: 1. a biomimetic housing; 2. an installation port; 3. opening and closing the door; 4. a food calling port; 5. a nipple; 6. a milk conveying pipe; 7. a milk bottle; 8. a supplementary food bottle; 9. inducing esophagus; 10. a support; 11. a body part; 12. a limb portion; 13. a tail portion; 14. the abdomen part.

Detailed Description

For better understanding of the objects, structure and functions of the present invention, the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the utility model discloses a manis pentadactyla bionic feeder, which comprises a bionic shell 1, a milk conveying pipe 6, a milk bottle 7, an auxiliary food bottle 8, a food calling pipe 9 and two nipples 5; bionic shell 1 is the pangolin form, and the belly 14 of bionic shell 1 is provided with the inner chamber, is provided with two installing port 2 in the mammary gland position of bionic shell 1, and two installing port 2 are used for fixed nipple 5, and two nipples 5 are through defeated milk pipe 6 connection milk bottle 7, and the first baby of simulation is fed milk for the cub through milk bottle 7 and two nipples 5, the 14 middle parts in belly of bionic shell 1 set up and lure edible mouthful 4, it is connected with diatery bottle 8 through luring esophagus 9 to lure edible mouthful 4, diatery bottle 8 and milk bottle 7 all set up in the inner chamber of bionic shell 1.

After the cubs can eat the supplementary food, different semi-fluid supplementary foods can be added through the supplementary food bottle 8, and the long tongue of the cubs is exercised by utilizing the slender feeding attraction pipe 9, the eating habits of eating ants and other foods are licked by the tongue of the simulated pangolins in the field, and the training of the outdoor survival skills of the cubs is enhanced.

Wherein: the teat 5 and the bottle 7 are conventional baby bottles for young animals. The nipple 5 of different models can be replaced.

As shown in fig. 1, the bionic shell 1 is in a curly shape for holding a baby nail, a body part 11, four limbs 12 and a tail 13 of the bionic shell 1 are all made of resin, and the back of the body part 11 is covered with a scaly nail-shaped protrusion, so that the baby can grab and climb the body. Simulate the behavior of young animals climbing female nails in the field and exercise the grabbing and climbing force of young nails

The abdomen 14 of the bionic shell 1 is made of silica gel materials and is inwards sunken, and the head and the tail 13 which are curled on the bionic shell 1 form an area for the cubs to rest. The resting habit of the cubs under the condition of nursing the female nails is simulated, so that the cubs can rest after eating.

The back of the bionic shell 1 is provided with an object taking opening communicated with the inner cavity of the abdomen 14, and the object taking opening is provided with a switch door 3. The switch door 3 can be opened and closed to get the thing mouth, conveniently takes out milk bottle 7, complementary food bottle 8, lures edible pipe 9 and two nipples 5.

The inner cavity of the abdomen 14 of the bionic shell 1 is provided with a constant temperature heating plate for heating the milk bottle 7 at constant temperature and heating the inner cavity of the abdomen 14 of the bionic shell 1 at constant temperature. Provide suitable constant temperature rest environment for the cub, and can guarantee that milk one kind keeps invariable temperature.

The constant temperature heating plate is powered by a storage battery or an external power supply.

As shown in figure 2, the food calling pipe 9 is a hose with a folded angle, one end of the food calling pipe 9 is detachably communicated with the food calling port 4, such as in an inserted manner, and the other end of the food calling pipe 9 is detachably connected with the complementary food bottle 8, such as in an inserted manner. Is convenient for cleaning and replacing the inducing pipe 9.

As shown in figure 2, a bracket 10 is fixedly arranged in the inner cavity of the abdomen part 14 of the bionic shell 1, and the milk bottle 7 and the complementary food bottle 8 are detachably arranged on the bracket 10. Is convenient for cleaning and replacing.

It is to be understood that the present invention has been described with reference to certain embodiments and that various changes or equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention as defined by the appended claims. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (7)

1. A manis pentadactyla bionic feeder is characterized in that: comprises a bionic shell (1), a milk conveying pipe (6), a milk bottle (7), an auxiliary food bottle (8), a food calling pipe (9) and two nipples (5); bionic shell (1) is the pangolin form, and belly (14) of bionic shell (1) are provided with the inner chamber, are provided with two installing port (2) in the mammary gland position of bionic shell (1), and two installing port (2) are used for fixed nipple (5), and milk bottle (7) are connected through defeated milk pipe (6) in two nipples (5), belly (14) middle part of bionic shell (1) sets up lures edible mouth (4), lure edible mouth (4) to be connected with diatery supplement bottle (8) through luring esophagus (9), diatery supplement bottle (8) and milk bottle (7) all set up the inner chamber at bionic shell (1).

2. The manikin bionic feeder according to claim 1, wherein: bionic shell (1) generally presents the curly form of embracing the young nail, and body part (11), four limbs (12) and afterbody (13) of bionic shell (1) are made by the resin material to cover the scaly nail form in the back of body part (11) and protruding, the cub of being convenient for is grabbed and is climbed.

3. The manikin bionic feeder according to claim 2, wherein: the abdomen (14) of the bionic shell (1) is made of silica gel materials, and the head and the tail (13) which are curled on the bionic shell (1) form an area for the cubs to rest.

4. The manikin bionic breast feeding device according to claim 1, characterized in that: the bionic shell is characterized in that a support (10) is fixedly arranged in an inner cavity of an abdomen (14) of the bionic shell (1), and the milk bottle (7) and the complementary food bottle (8) are detachably arranged on the support (10).

5. The manikin bionic feeder according to claim 1, wherein: the food calling pipe (9) is a hose with a folded angle, one end of the food calling pipe (9) is detachably communicated with the food calling port (4), and the other end of the food calling pipe (9) is detachably connected with the complementary food bottle (8).

6. The manikin bionic feeder according to claim 3, wherein: the bionic shell (1) is provided with a fetching opening at the back, the fetching opening is communicated with the inner cavity of the abdomen (14), and the fetching opening is provided with a switch door (3).

7. The manikin bionic feeder according to claim 6, wherein: the inner cavity of the abdomen (14) of the bionic shell (1) is provided with a constant temperature heating plate for heating the milk bottle (7) at constant temperature and heating the inner cavity of the abdomen (14) of the bionic shell (1) at constant temperature.

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