CN114287352B - Pet feeder - Google Patents

Abstract

The utility model discloses a pet feeder, which comprises a storage bottle and a feeding sliding sleeve; the upper end of the storage bottle is detachably connected with the discharge cover; the upper end of the discharging cover is provided with a communication port; the feeding mouth is formed on the outer wall of the feeding sliding sleeve; the upper end of the discharging cover is rotatably connected with a gating disc; a discharge hole is formed at the upper end of the gating disc; a limit groove is formed at the upper end of the outer wall of the discharging cover; the upper end of the gating disc is connected with a positioning strip in a sliding way; the upper end of the gating disc is longitudinally and slidably connected with a driven block; the upper end of the driven block is formed with a cylindrical groove; the inner top end of the feeding sliding sleeve is fixedly connected with a positioning shaft; when the positioning strip is clamped with the limiting groove, the discharge port is not communicated with the communication port; when the locating strip is not connected with the limiting groove in a clamping mode, the discharge port can be communicated with any communication port. The portable electric bicycle is convenient to carry, occupies small space, has regular appearance and is convenient to carry; can hold various pet foods and water.

Description

Pet feeder

Technical Field

The utility model belongs to the technical field of pet supplies, and particularly relates to a pet feeder.

Background

The chinese patent document No. CN209463127U discloses a portable pet feeding device, comprising a storage component, a feeding component and a switch component; the storage component comprises a water storage barrel, a grain storage barrel and a connecting piece, wherein the top of the water storage barrel is open, the switch component is connected to the open position and used for controlling water outlet of the water storage barrel, and the grain storage barrel is connected to the bottom of the water storage barrel through the connecting piece; the feeding assembly comprises a groove body and a ring connector, the groove body is connected to the ring connector sleeve, sliding rails are arranged on two sides of the inner surface of the groove body, a sliding block is arranged at the position, opposite to the sliding rails, of the outer side wall of the switch assembly, and the feeding assembly and the switch assembly are connected through the matching of the sliding block and the sliding rails; according to the feeding assembly and the switch assembly, the feeding assembly and the switch assembly are connected through the cooperation of the sliding block and the sliding rail, so that the feeding assembly can be stored when in use, the storage when not in use is realized, the occupied space is reduced, and the carrying is convenient.

Above-mentioned patent only can carry a pet grain or mix pet grain when using, and the use is loaded down with trivial details moreover to there is not the feeding bowl of pet grain, when carrying the pet in the open air, according to the physiological condition of pet, often can carry multiple type pet grain, or when carrying multiple pet, the pet grain can not mix each other, and outdoor environment is complicated moreover, need prepare independent feeding bowl for the pet, in order to guarantee the edible health of pet, above-mentioned patent can not satisfy actual user demand to a certain extent.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: aiming at the defects in the prior art, the portable pet feeder which can accommodate various pet foods or water and can feed the pet with water is provided.

The utility model is realized by adopting the following technical scheme: a pet feeder comprises a storage bottle and a feeding sliding sleeve which is hermetically sleeved on the upper part of the periphery of the storage bottle; the storage bottle consists of a plurality of bottle bodies respectively used for containing water and different grains; the upper end of the storage bottle is detachably connected with a discharge cover for sealing each bottle body; the upper end of the discharging cover is provided with a plurality of communication ports which can be respectively communicated with the corresponding bottle bodies; a feeding port for feeding is formed on one side, close to the outer wall, of the feeding sliding sleeve; the upper end of the discharging cover is rotatably connected with a gating disc which is longitudinally arranged on the rotating shaft and can seal each communication port; the upper end of the gating disc is provided with a discharge hole which penetrates through the gating disc and can be respectively communicated with each communication hole.

A limiting groove is formed at the upper end of the outer wall of the discharging cover; the upper end of the selector disc is connected with a positioning strip which can be clamped with the limiting groove in a sliding manner along the radial direction; the upper end of the selector plate is longitudinally and slidably connected with a driven block for driving the positioning strip to slide; the upper end of the driven block is formed with a horizontally arranged cylindrical groove; the inner top end of the feeding sliding sleeve is fixedly connected with a horizontally arranged positioning shaft which can be abutted against the inner bottom end of the cylindrical groove; the axial direction of the positioning shaft is perpendicular to the opening direction of the feeding port; the feeding sliding sleeve axially slides to drive the driven block to move, so that the positioning strip is not clamped with the limiting groove any more.

When the locating strip is clamped with the limiting groove, the discharge port is not communicated with the communication port.

When the locating strip is not clamped with the limiting groove, the feeding sliding sleeve can drive the gating disc to circumferentially rotate through circumferential rotation, then the discharge port can be communicated with any communication port, and corresponding grains or water in the bottle body enter the feeding sliding sleeve.

Compared with the prior art, the utility model has the beneficial effects that: the pet feeding device is convenient to carry, occupies small space when the feeding sliding sleeve is attached to the storage bottle, is regular in appearance and convenient to carry, and feeds pets at any time and any place; the utility model can accommodate various pet foods and water, can meet the requirements of different pets on different foods when carrying pets outdoors, and is simple and convenient; according to the utility model, accidental leakage can be prevented, and the selector plate can be rotated only when the storage bottle is in a horizontal state, so that grains or water can be poured out, and waste is avoided.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic cross-sectional view of the present utility model.

Fig. 3 is a schematic view of an exploded structure of the present utility model.

Fig. 4 is a schematic structural view of the storage bottle of the present utility model.

FIG. 5 is a schematic cross-sectional view of a feed runner of the present utility model.

Fig. 6 and 7 are schematic structural views of the discharge cap of the present utility model.

Fig. 8 is a schematic cross-sectional view of a selector disc of the present utility model.

Fig. 9 is a schematic cross-sectional view of the follower block of the present utility model.

FIG. 10 is a schematic view of the structure of the spacer of the present utility model.

Fig. 11 is a schematic structural view of the snap ball of the present utility model.

Fig. 12 is a schematic view of the outward pouring structure of the present utility model.

Fig. 13 is a schematic view of the outward pouring structure of the present utility model.

Fig. 14 is a schematic view of the outward pouring structure of the present utility model.

FIG. 15 is a schematic view of the structure of the present utility model in a non-horizontal state during pouring.

1. A storage bottle; 11. a grain storage bottle, 12, a water storage bottle; 13. a longitudinal sliding groove; 14. a circumferential sliding groove; 15. an external thread; 2. a discharge cover; 21. a water outlet; 22. a grain outlet; 23. rotating the column; 24. positioning through grooves; 241. a limit groove; 25. a stop groove; 26. a seal ring; 27. an inner slider; 3. a feeding sliding sleeve; 31. a feeding port; 32. a positioning tube; 321. rotating the clamping groove; 33. a receiving groove; 34. a sliding block; 4. a selector plate; 41. a discharge port; 42. a rotation hole; 43. a mounting cavity; 431. a sliding through hole; 432. a communication hole; 5. a positioning strip; 51. a driven chute; 52. positioning a slide bar; 521. a limiting block; 6. a driven block; 61. a drive column; 62. a sliding column; 63. a clamping block; 631. a cylindrical groove; 7. a clamping ball; 71. a rotary through hole; 72. balancing weight; 73. a clamping groove; 731. limit edges; 732. a communication groove; 8. positioning a shaft; 9. and (3) a spring.

Detailed Description

According to the embodiment shown in fig. 1 to 15, the pet feeder comprises a storage bottle 1 and a feeding sliding sleeve 3 which is hermetically sleeved on the upper part of the periphery of the storage bottle 1; the storage bottle 1 consists of a plurality of bottle bodies respectively used for containing water and different grains; the periphery of the upper end of the storage bottle 1 is detachably connected with a discharge cover 2 for sealing each bottle body; the upper end of the discharging cover 2 is provided with a plurality of communication ports which can be respectively communicated with the corresponding bottle body 1; a feeding port 31 for feeding is formed on one side, close to the outer wall, of the feeding sliding sleeve 3; the central position of the upper end of the discharging cover 2 is rotationally connected with a gating disc 4 which is longitudinally arranged on a rotating shaft and can seal each communication port; the upper end of the gating plate 4 is provided with a discharge port 41 penetrating through the gating plate 4 and capable of being respectively communicated with each communication port.

The number of the bottle bodies is two, and the two bottle bodies comprise a grain storage bottle 11 for containing grains and a water storage bottle 12 for containing water; a rotating column 23 which is rotationally connected with the gating disc 4 is formed at the central position of the upper end of the discharging cover 2; a rotation hole 42 which is rotationally connected with the rotation column 23 is formed at the central position of the lower end of the gating disc 4; the upper end of the discharging cover 2 is positioned outside the rotating column 23 and is provided with a grain outlet 22 communicated with the grain storage bottle 11; the upper end of the discharging cover 2 is positioned outside the rotating column 23 and is provided with a water outlet 21 communicated with the water storage bottle 12.

A limiting groove 241 is formed at the upper end of the outer wall of the discharging cover 2 above the rotating column 23; the upper end of the gating disc 4 is connected with a positioning strip 5 which can be clamped with the limiting groove 241 in a sliding manner along the radial direction; the central position of the upper end of the gating disc 4 is longitudinally and slidably connected with a driven block 6 for driving the positioning strip 5 to slide; the upper end of the driven block 6 is formed with a cylindrical groove 631 which is horizontally arranged and is provided with two ends open; the top end in the feeding sliding sleeve 3 is fixedly connected with a horizontally arranged positioning shaft 8 which can be abutted against the bottom end in the cylindrical groove 631; the axial direction of the positioning shaft 8 is perpendicular to the opening direction of the feeding port 31; the feeding sliding sleeve 3 can drive the driven block 6 to move through axial sliding, and then the positioning strip 5 can slide to be no longer clamped with the limiting groove 241.

A positioning tube 32 is formed at the central position of the inner top end of the feeding sliding sleeve 3; the lower end of the positioning tube 32 is formed with a rotation clamping groove 321 which is clamped with the positioning shaft 8 along the diameter direction.

When the positioning strip 5 is clamped with the limiting groove 241, the discharge port 41 is not communicated with the communication port, grains and water in the storage bottle 1 cannot enter the feeding sliding sleeve 3, the storage bottle 1 is convenient to carry, and the grains and the water are fed to the pets at any time and any place.

When the locating strip 5 is not clamped with the limiting groove 241, the circumferential rotation of the feeding sliding sleeve 3 can drive the gating disc 4 to circumferentially rotate, so that the discharge port 41 is communicated with any one of the communicating ports, grains or water in the bottle body enter the feeding sliding sleeve 3 correspondingly, the corresponding water or grains in the bottle body enter the feeding sliding sleeve 3 through rotating the feeding sliding sleeve 3 in different directions, and then the pets are fed with grains or water, so that the operation is simple and convenient, and the diversified demands of the pets are met.

The periphery of the positioning shaft 8 is positioned in the positioning tube 32, and is rotationally connected with a clamping ball 7 which is arranged coaxially with the positioning shaft 8 and can be clamped with the driven block 6; the upper end of the driven block 6 is positioned above the gating disc 4 and fixedly connected with a clamping block 63 which can be clamped with the clamping ball 7; a clamping groove 73 which penetrates through the positioning shaft 8 and is coaxially arranged with the positioning shaft 8 is formed in the middle of the periphery of the clamping ball 7; two opposite inner walls of the clamping groove 73 can abut against the side wall of the clamping block 63; a limiting edge 731 which can be propped against the lower end of the clamping block 63 is formed on the inner wall of the clamping groove 73 near the periphery; a communicating groove 732 for allowing the clamping block 63 to enter the clamping groove 73 is formed on the outer wall of the clamping ball 7; two symmetrically arranged balancing weights 72 are fixedly connected to the outer wall of the clamping ball 7 at one side of the positioning shaft 8; the two balancing weights 72 are respectively located at two sides of the clamping groove 73.

The cylindrical groove 631 is formed at the central position of the upper end of the clamping block 63; the inner wall of the ball clamping groove 73 is close to the periphery and far away from the communication groove 732, and a connecting column for connecting the two hemispheres is formed; the clamping ball 7 is provided with a rotary through hole 71 which is coaxially arranged with the positioning shaft 8 and penetrates through the clamping ball.

When the storage bottle 1 is horizontally placed, the balancing weight 72 is located below under the action of gravity, the communicating groove 732 is opposite to the clamping block 63, the clamping block 63 can pass through the communicating groove 732 and prop against the positioning shaft 8, then the bottom end in the cylindrical groove 631 can prop against the positioning shaft 8, and only when the storage bottle 1 is horizontally placed, the feeding sliding sleeve 3 can be rotated, so that corresponding grains or water enters the feeding sliding sleeve 3 for feeding, and water or grain leakage caused by accidental rotation of the feeding sliding sleeve 3 in the carrying process is prevented.

When the bottom in the cylindrical groove 631 is abutted against the positioning shaft 8, and the storage bottle 1 is inclined, the balancing weight 72 is located below under the action of gravity, the communicating groove 732 is not right opposite to the clamping block 63, and the limiting edge 731 is abutted against one side of the clamping block 63 towards the gating disc 4, so that the clamping block 63 is not required to be tightly pressed all the time, and time and labor are saved.

A sliding block 34 extending inwards is formed on the inner wall of the feeding sliding sleeve 3 near the lower end; the outer wall of the storage bottle 1 is provided with a longitudinal sliding groove 13 with an opening at the upper end, and the longitudinal sliding groove is in sliding connection with the sliding block 34; the outer wall of the storage bottle 1 is formed with a circumferential sliding groove 14 which is communicated with the longitudinal sliding groove 13 and can be connected with the sliding block 34 in a sliding manner along the circumferential direction near the lower end.

When the positioning strip 5 is clamped with the limiting groove 241, the sliding block 34 is positioned in the longitudinal sliding groove 13, and the feeding sliding sleeve 3 can only axially slide relative to the storage bottle 1 and cannot rotate relative to the circumferential direction; when the locating strip 5 is not clamped with the limiting groove 241, the sliding block 34 is located in the circumferential sliding groove 14, the feeding sliding sleeve 3 can only rotate circumferentially relative to the storage bottle 1 and cannot slide relatively, leakage of grain or water caused by accidental rotation of the feeding sliding sleeve 3 is further prevented, and meanwhile when feeding is carried out, the gating disc 4 seals each bottle body and leakage is prevented.

The upper end of the positioning strip 5 is positioned at the periphery of the discharge cover 2, and a limiting block 521 which can be clamped with the discharge cover 2 is formed; the inner wall of the feeding sliding sleeve 3 is located above the feeding port 31, and a containing groove 33 capable of being slidingly connected with the limiting block 521 is formed in the circumferential direction.

The upper end of the outer wall of the discharging cover 2 is provided with a positioning through groove 24 communicated with the limiting groove 241; the upper end of the positioning strip 5 is provided with a positioning slide strip 52 which is in sliding connection with the positioning through groove 24; the positioning sliding strip 52 passes through the positioning through groove 24 and penetrates out of the discharging cover 2; the limiting block 521 is formed at the upper end of the positioning slide 52; the limiting groove 241 is communicated with the middle part of the positioning through groove 24, and the feeding sliding sleeve 3 can be rotated forward or backward to the limiting position, so that grains or water can be selectively poured out for feeding.

When the positioning strip 5 is clamped with the limiting groove 241, the limiting block 521 is positioned in the limiting groove 241, and the limiting block 521 abuts against the inner wall of the feeding sliding sleeve 3; the locating strips 5 enable the gating disc 4 and the discharging cover 2 not to rotate relative to the circumferential direction, so that the gating disc 4 is prevented from rotating accidentally in the carrying process, and leakage of grains or water is prevented; when the locating strip 5 is not clamped with the limiting groove 241, the limiting block 521 is located at the outer side of the limiting groove 241, the limiting block 521 can slide in the accommodating groove 33, a closed cavity is formed at the top in the discharging cover 2 and the feeding sliding sleeve 3, leakage cannot occur when the storage bottle 1 pours water or grains to the outside, meanwhile, the limiting block 521 is located in the accommodating groove 33, so that the feeding sliding sleeve 3 cannot axially move relative to the storage bottle 1, and leakage of water or grains caused by accidental pulling out of the feeding sliding sleeve 3 is prevented.

A driving column 61 for driving the positioning strip 5 to slide is formed on one side of the clamping block 63 facing the positioning strip 5; the side wall of the locating strip 5 is provided with a driven chute 51 which is in sliding connection with the driving post 61.

The middle part of the upper end of the driven block 6 is positioned at the lower end of the clamping block 63 and is provided with a sliding column 62 fixedly connected with the clamping block 63; the sliding column 62 can pass through between the two limiting edges 731; a mounting cavity 43 which extends upwards and is communicated with the rotating hole 42 is formed at the central position of the lower end of the gating disc 4; a sliding through hole 44 longitudinally and slidably connected with the sliding column 62 is formed at the central position of the inner top end of the mounting cavity 43; the cross section of the sliding column 62 and the cross section of the sliding through hole 44 are in a non-circular structure with the same shape, the sliding column 61 can only slide along the axial direction relative to the sliding through hole 44, and the sliding column 61 rotates along the circumferential direction to drive the strobe disc 4 to rotate synchronously; a communication hole 432 for allowing the positioning strip 5 to pass out is formed on the side wall of the mounting cavity 43; a spring 9 for moving the driven block 6 upwards is arranged between the driven block 6 and the rotating column 23; in a natural state, the engaging block 63 is located at an upper limit position.

When the cylindrical groove 631 is not in contact with the positioning shaft 8, the clamping block 63 is located at an upper limit position, the positioning strip 5 is located at an inner limit position, and the positioning strip 5 is clamped with the limiting groove 241; when the bottom end in the cylindrical groove 631 abuts against the positioning shaft 8, the clamping block 63 is located at the lower limit position, the positioning strip 5 is located at the outer limit position, and the positioning strip 5 is not clamped with the limiting groove 241.

The storage bottle 1 to the relative slip of feed sliding sleeve 3 makes location strip 5 no longer with 1 joint of storage bottle, and then can rotate through rotatory feed sliding sleeve 3 makes strobe dish 4 rotates, and then makes grain or hydroenergy in the storage bottle 1 is poured out, simultaneously, feed sliding sleeve 3 with form between the ejection of compact lid 2 and compare the closed cavity that is used for getting grain or hydroenergy, water or grain reveal when preventing to pour, do not increase new operation, easy operation convenient to use.

An external thread 15 is formed on the outer wall of the storage bottle 1 near the upper end; the inner wall of the discharge cap 2 is formed with an inner slide head 27 which can be slidably connected with the external thread 15.

The outer wall of the discharging cover 2 is provided with a stop groove 25 which can be communicated with the longitudinal sliding groove 13; the feeding sliding sleeve 3 is pulled outwards to an outer limit position, the sliding block 34 slides into the stop groove 25 from the longitudinal sliding groove 13, and the feeding sliding sleeve 3 and the discharging cover 2 are relatively fixed; the discharge cap 2 is removed, and then grains and water are replenished into the storage bottle 1, and then the discharge cap 2 is rotated so that the inner slide head 27 slides inward along the external screw thread 15 to a limit position, the discharge cap 2 is hermetically connected with the storage bottle 1, and at this time, the stopper groove 25 is communicated with the longitudinal slide groove 13.

The outer wall of the discharging cover 2 is provided with a rope hanging lug 27 for connecting a hanging rope. The hanging rope lug 27 can be provided with a hanging rope, and the material storage bottle 1 is carried by carrying the hanging rope, so that the carrying is more convenient.

And a sealing ring 26 which is in sealing sliding connection with the feeding sliding sleeve 3 is fixedly connected to the outer wall of the discharging cover 2 close to the upper end in a sealing way. When the locating strip 5 is not in clamping connection with the storage bottle 1, the sealing ring 26 is located above the feeding port 31, and the sealing ring 26 enables the discharging cover 2 and the inner top of the feeding sliding sleeve 3 to form a closed cavity for sealing, so that water and the like are prevented from leaking outwards.

In the initial state, the limiting block 521 is positioned in the limiting groove 241, and the gate plate 4 seals the water outlet 21 and the grain outlet 22.

When carrying the pet and going out, often need to carry water and grain for the pet, when using this product, the storage bottle 1 is held to the hand, pulls out feed sliding sleeve 3 to outside extreme position to the outside, and sliding block 34 is by vertical sliding groove 13 slip to in the stop slot 25, and reverse rotation ejection of compact lid 2 makes ejection of compact lid 2 and storage bottle 1 separation, removes ejection of compact lid 2 and feed sliding sleeve 3. Proper amounts of grain and water are respectively added into the grain storage bottle 11 and the water storage bottle 12, the sliding block 34 of the feeding sliding sleeve 3 is placed into the stop groove 25, the discharging cover 2 is covered again, the discharging cover 2 is rotated forward, the inner sliding head 27 slides to the inner limit position along the external thread 15, the discharging cover 2 is connected with the material storage bottle 1 in a sealing way, at the moment, the stop groove 25 is communicated with the longitudinal sliding groove 13, and the sliding block 34 can slide in the longitudinal sliding groove 13. The feeding sliding sleeve 3 is adjusted to the upper portion, the clamping ball 7 rotates to the position, below, of the balancing weight 72 under the action of gravity of the balancing weight 72, the feeding sliding sleeve 3 is pressed downwards, the clamping block 63 abuts against the clamping ball 7, and the limiting block 521 abuts against the inner wall of the feeding sliding sleeve 3. At this time, the grain storage bottle 11 and the water storage bottle 12 are sealed by the gating disc 4, the space occupied by the feeding sliding sleeve 3 and the material storage bottle 1 is small, and the feeding sliding sleeve can be conveniently put into a portable bag to feed pets at any time and any place.

When feeding the pet, the hand holds the storage bottle 1, rotates the storage bottle 1 to the level and adjusts the feeding port 31 to the upper direction (as shown in fig. 12), and the balancing weight 72 drives the clamping ball 7 to rotate under the action of gravity, so that the communicating groove 732 is opposite to the clamping block 63. Pushing the feeding sliding sleeve 3 to enable the feeding sliding sleeve 3 and the storage bottle 1 to slide relatively to the limit position, sliding the sliding block 34 from the longitudinal sliding groove 13 to the circumferential sliding groove 14, enabling the containing groove 33 to be opposite to the limiting block 521, enabling the clamping block 63 to penetrate through the communicating groove 732, enabling the bottom end in the cylindrical groove 631 to be abutted against the positioning shaft 8, and forming a closed cavity between the discharging cover 2 and the feeding sliding sleeve 3. The relative sliding of the feeding sliding sleeve 3 and the storage bottle 1 enables the clamping block 63 to slide towards the storage bottle 1, the movement of the clamping block 63 enables the driven block 6 to move and the spring 9 to compress, the movement of the driven block 6 enables the driving column 61 to drive the driven chute 51 to move towards the periphery so as to enable the positioning strip 5 to move towards the periphery, and the limiting block 521 is separated from the limiting groove 241 and enters the accommodating groove 33.

Then, the feeding sliding sleeve 3 is kept to be abutted against the storage bottle 1 and rotates the storage bottle 1 forward to the limit position, the feeding sliding sleeve 3 rotates relative to the storage bottle 1 to enable the positioning shaft 8 to rotate relatively, the positioning shaft 8 rotates to drive the column groove 631 to rotate so as to enable the sliding column 62 to rotate, and the sliding column 62 rotates to drive the sliding through hole 431 to rotate so as to enable the gating disc 4 to rotate. When the feeding sliding sleeve 3 and the storage bottle 1 rotate to the limit position, the discharge port 41 is communicated with the water outlet 21 (as shown in fig. 13), the storage bottle 1 is inclined towards the direction of the positioning shaft 8, and water in the storage bottle 12 flows into the formed closed cavity. The balancing weight 2 rotates to the right lower side (as shown in fig. 15) under the action of gravity, the limiting edge 731 abuts against one end of the clamping block 63, which faces the discharging cover 2, the clamping block 63 is relatively fixed with the clamping ball 7, meanwhile, the sliding block 34 is positioned in the longitudinal sliding groove 13, and the feeding sliding sleeve 3 cannot axially slide. At the moment, the relative position of the extrusion feeding sliding sleeve 3 and the storage bottle 1 can be loosened, the clamping block 63 is kept unchanged, the clamping block is not required to be always pressed, time and labor are saved, and meanwhile, the feeding sliding sleeve 3 can be prevented from accidentally and axially sliding in the dumping process, so that grain or water is leaked.

When enough water exists in the closed cavity, the storage bottle 1 is adjusted to be horizontal, the feeding port 31 faces upwards, the storage bottle 1 is reversely rotated to the original position, the sliding block 34 is rotated to be opposite to the longitudinal sliding groove 13, and the discharge port 41 is not communicated with the water outlet 21 any more. The extrusion feeding sliding sleeve 3 and the storage bottle 1 are stopped, and the clamping block 63 moves away from the discharge cover 2 under the action of the elasticity of the spring 9. The clamping block 63 moves to enable the driving column 61 to drive the driven chute 51 to move so as to enable the positioning strip 5 to move inwards, the limiting block 521 returns to the limiting groove 241 again, the position of the gating disc 4 is relatively fixed, and the water outlet 21 and the grain outlet 22 are closed again. And the feeding sliding sleeve 3 is pulled out to the limit position outwards, water in the closed cavity flows to the position right below the feeding port 31 under the action of gravity, and then, the pet is fed with water, and the pet drinks water through the feeding port 31. After feeding, the water is poured out and the inner wall of the feeding sliding sleeve 3 is wiped dry, the storage bottle 1 is adjusted to be in a vertical state, the feeding sliding sleeve 3 is pressed inwards, the clamping ball 7 is propped against the clamping block 63, and the product is stored.

Similarly, when feeding the pet, the feeding bottle 1 is held and adjusted to be horizontal while the feeding port 31 is directed upward, the feeding sliding sleeve 3 and the feeding bottle 1 are relatively pressed and the feeding bottle 1 is reversely rotated to the limit position, and the discharge port 41 is communicated with the discharge port 22 (as shown in fig. 14). Tilting the storage bottle 1 makes the grain fall into the closed cavity, adjusts storage bottle 1 to the level later and feeds simultaneously and eats mouthful 31 towards the top, and forward rotation storage bottle 1 reaches original position, and stopper 521 is just right with spacing groove 241, stops to compress tightly feeding sliding sleeve 3 and storage bottle 1 relatively, and stopper 521 gets back to in the spacing groove 241 again. And (3) pulling out the feeding sliding sleeve 3 to the outside to feed the pet, wiping the inner wall of the feeding sliding sleeve 3 after feeding is completed, adjusting the storage bottle 1 to a vertical state, pressing the feeding sliding sleeve 3 to the inside, and storing the product.

The pets often need to be fed with various foods due to different physiological conditions, or different types of foods need to be fed when the pets go out to carry different types of pets, and the number of the grain storage bottles 11 in the product can be multiple. Through the different turned angles of control storage bottle 1 for discharge gate 41 communicates with different storage grain bottle 11, and then can pour different kinds of food and feed the food to the pet, it is simple and convenient.

According to the pet feeding device, the feeding sliding sleeve 3 is arranged, when the feeding sliding sleeve 3 is close to the storage bottle 1, the storage bottle 1 and the feeding sliding sleeve 3 occupy small space, the appearance is regular, the pet feeding device is convenient to carry about, and the pet can be fed at any time and any place; when the feeding sliding sleeve 3 slides towards the direction of the storage bottle 1, the positioning shaft 8 can be abutted against the bottom end in the cylindrical groove 631, the storage bottle 1 and the feeding sliding sleeve 3 rotate relatively, so that the water outlet 21 or the grain outlet 22 is opened, and then water or grain enters the feeding sliding sleeve 3, the operation is simple and convenient, and no new operation steps are added; when the feeding sliding sleeve 3 is pulled out outwards, water or grains can be contained in the feeding sliding sleeve 3, so that the pet can be fed, and the feeding device is clean and sanitary, and is simple and convenient.

According to the utility model, the driven block 6 is arranged, and the limiting block 521 is positioned in the limiting groove 241 in a natural state, so that the gating disc 4 can not rotate relative to the discharging cover 2, and the grain or water leakage caused by accidental rotation of the gating disc 4 in the carrying process can be prevented; when the positioning shaft 8 is abutted against the inner bottom end of the cylindrical groove 631, the feeding sliding sleeve 3 moves towards the water storage bottle 1 to drive the driven block 6 to synchronously move, so that the driving column 61 drives the positioning strip 5 to move towards the periphery, the limiting block 521 leaves the limiting groove 241, and the gating disc 4 can circumferentially rotate; simultaneously, the feeding sliding sleeve 3 rotates relative to the storage bottle 1, the positioning shaft 8 drives the clamping block 63 to move, then the sliding column 62 rotates circumferentially, the sliding column 62 rotates to drive the gating disc 4 to rotate, the material outlet 41 is communicated with the water outlet 21 or the grain outlet 22, water or grain is added into the feeding sliding sleeve 3, no new operation steps are added, the operation is simple, the use is convenient, and the diversity requirements of pets are met.

According to the utility model, the locating strip 5 is arranged, the limiting block 521 is positioned in the limiting groove 241 in a natural state, meanwhile, the limiting block 521 is propped against the inner wall of the feeding sliding sleeve 3, the locating strip 5 cannot slide outwards, so that the gating plate 4 cannot rotate circumferentially to prevent leakage of water or grain, when the bottom end in the column groove 631 is propped against the locating shaft 8, the locating strip 5 is opposite to the containing groove 33, the limiting block 521 can leave the limiting groove 241 and enter the containing groove 33, the gating plate 4 can rotate circumferentially to further enable water or grain to enter the feeding sliding sleeve 3, and further feed pets at any time and any place.

According to the utility model, by arranging the clamping ball 7, when the storage bottle 1 is relatively horizontal, the balancing weight 72 is positioned below so that the communicating groove 732 is opposite to the clamping block 63, the cylindrical groove 631 can pass through the communicating groove 732 and is propped against the positioning shaft 8, so that the limiting block 521 leaves the limiting groove 241, the gating disc 4 can be rotated, and grains or water can be poured into the feeding sliding sleeve 3, and the operation is simple and the use is convenient; when the storage bottle 1 is not in a horizontal state, the clamping block 63 cannot pass through the communicating groove 732, the limiting block 521 is propped against the inner wall of the feeding sliding sleeve 3, the limiting block 521 cannot leave the limiting groove 241, and the gating disc 4 cannot circumferentially rotate, so that grains or water can be prevented from leaking accidentally, the storage bottle 1 can be placed in a portable bag, and the carrying is convenient.

The pet feeding device is convenient to carry, occupies small space when the feeding sliding sleeve is attached to the storage bottle, is regular in appearance and convenient to carry, and feeds pets at any time and any place; the utility model can accommodate various pet foods and water, can meet the requirements of different pets on different foods when carrying pets outdoors, and is simple and convenient; according to the utility model, accidental leakage can be prevented, and the selector plate can be rotated only when the storage bottle is in a horizontal state, so that grains or water can be poured out, and waste is avoided.

The orientation in this embodiment is shown in fig. 2, where the storage bottle 1 is located below and the feeding slide 3 is located above.

Claims (8)

1. A pet feeder, characterized in that: comprises a storage bottle and a feeding sliding sleeve which is hermetically sleeved at the upper part of the periphery of the storage bottle; the storage bottle consists of a plurality of bottle bodies respectively used for containing water and different grains; the upper end of the storage bottle is detachably connected with a discharge cover for sealing each bottle body; the upper end of the discharging cover is provided with a plurality of communication ports which can be respectively communicated with the corresponding bottle bodies; a feeding port for feeding is formed on one side, close to the outer wall, of the feeding sliding sleeve; the upper end of the discharging cover is rotatably connected with a gating disc which is longitudinally arranged on the rotating shaft and can seal each communication port; the upper end of the gating disc is provided with a discharge hole penetrating through the gating disc and capable of being respectively communicated with each communication hole; a limiting groove is formed at the upper end of the outer wall of the discharging cover; the upper end of the selector disc is connected with a positioning strip which can be clamped with the limiting groove in a sliding manner along the radial direction; the upper end of the selector plate is longitudinally and slidably connected with a driven block for driving the positioning strip to slide; the upper end of the driven block is formed with a horizontally arranged cylindrical groove;

the inner top end of the feeding sliding sleeve is fixedly connected with a horizontally arranged positioning shaft which can be abutted against the inner bottom end of the cylindrical groove; the axial direction of the positioning shaft is perpendicular to the opening direction of the feeding port; the feeding sliding sleeve axially slides to drive the driven block to move, so that the positioning strip is not clamped with the limiting groove any more; when the positioning strip is clamped with the limiting groove, the discharge port is not communicated with the communication port; when the locating strip is not clamped with the limiting groove, the feeding sliding sleeve can drive the gating disc to circumferentially rotate through circumferential rotation, then the discharge port can be communicated with any communication port, and corresponding grains or water in the bottle body enter the feeding sliding sleeve.

2. A pet food dispensing device as claimed in claim 1, wherein: the outer turnover of the positioning shaft is connected with a clamping ball which is capable of being clamped with the driven block and is coaxially arranged with the positioning shaft; the upper end of the driven block is positioned above the gating disc and is fixedly connected with a clamping block which can be clamped with the clamping ball; the periphery of the clamping ball is provided with a clamping groove which penetrates through the positioning shaft and is coaxially arranged with the positioning shaft; two opposite inner walls of the clamping groove can be propped against the side wall of the clamping block; a limiting edge which can be propped against the lower end of the clamping block is formed on the inner wall of the clamping groove close to the periphery; the outer wall of the clamping ball is formed with a communication groove for enabling the clamping block to enter the clamping groove; the outer wall of the clamping ball is positioned at one side of the positioning shaft and is fixedly connected with a balancing weight; when the storage bottle is horizontally placed, the balancing weight is located below under the action of gravity, the communication groove is opposite to the clamping block, and the bottom end in the cylindrical groove can be abutted against the positioning shaft; when the bottom in the cylindrical groove is abutted to the positioning shaft, and the storage bottle is inclined, the balancing weight is positioned below under the action of gravity, the communication groove is not right opposite to the clamping block, and the limiting edge is abutted to one side of the clamping block towards the gating disc.

3. A pet food dispensing device as claimed in claim 1, wherein: a sliding block extending inwards is formed on the inner wall of the feeding sliding sleeve close to the lower end; the outer wall of the storage bottle is provided with a longitudinal sliding groove in sliding connection with the sliding block; a circumferential sliding groove which is communicated with the longitudinal sliding groove and can be in sliding connection with the sliding block is formed on the outer wall of the storage bottle near the lower end along the circumferential direction; when the positioning strip is clamped with the limiting groove, the sliding block is positioned in the longitudinal sliding groove; when the positioning strip is not clamped with the limiting groove, the sliding block is positioned in the circumferential sliding groove.

4. A pet food dispensing device as claimed in claim 1, wherein: the upper end of the positioning strip is positioned at the periphery of the discharging cover and is provided with a limiting block which can be clamped with the discharging cover; the inner wall of the feeding sliding sleeve is positioned above the feeding port, and a containing groove which can be in sliding connection with the limiting block is formed in the circumferential direction; when the positioning strip is clamped with the limiting groove, the limiting block is positioned in the limiting groove, and the limiting block abuts against the inner wall of the feeding sliding sleeve; when the locating strip is not clamped with the limiting groove, the limiting block is located on the outer side of the limiting groove, and the limiting block can slide in the accommodating groove.

5. A pet food dispensing device as claimed in claim 2, wherein: a driving column for driving the positioning strip to slide is formed on one side of the clamping block, which faces the positioning strip; the side wall of the positioning strip is formed with a driven chute which is in sliding connection with the driving column; when the cylindrical groove is not in contact with the positioning shaft, the clamping block is positioned at the upper limit position, the positioning strip is positioned at the inner limit position, and the positioning strip is clamped with the limiting groove; when the bottom in the cylindrical groove is abutted to the positioning shaft, the clamping block is located at the lower limit position, the positioning strip is located at the outer limit position, and the positioning strip is not clamped with the limiting groove.

6. A pet food dispensing device as claimed in claim 1, wherein: an external thread is formed on the outer wall of the storage bottle close to the upper end; the inner wall of the discharging cover is provided with an inner sliding head which can be in sliding connection with the external thread.

7. A pet food dispensing device as claimed in claim 1, wherein: the outer wall of the discharging cover is provided with a rope hanging lug for connecting a rope.

8. A pet food dispensing device as claimed in claim 1, wherein: and a sealing ring which is in sealing sliding connection with the feeding sliding sleeve is fixedly connected to the outer wall of the discharging cover close to the upper end in a sealing manner.