AU2019202271A1 - A novel pet bowl - Google Patents

Abstract

This invention discloses a novel pet bowl, which includes a bowl body(1O), and a water tank(11) with an upward opening disposed in the bowl body(10). A pressing plate(17) is set in the water tank(11) and the water in the water tank(11) can be automatically added when the pressing plate(17) is pressed. A contracting cavity(19) with a rightward opening is arranged below the bowl body(10) and a food storage cavity(28) is set over the contracting cavity(19) and a moving bowl(20) is slidably disposed in the contracting cavity(19), and a food container(21) with an upward opening is set in the moving bowl(20). When the moving bowl(20) moves to one side to the outside, the food in the food storage cavity(28) will automatically fall into the food container(21). 1/3 DRAWINGS 3_.3§ 100 FIG -o \ 2 12 B 2( 2 3 300 75- 7g 20 8b 79q 82 83 84 81 7'6 25 500 FIG 1 38 + + 4 - + \4 43+ + + + O0 39 37 FIG 2

Description

1/3

DRAWINGS

3_.3§ 100

\ 2 12 -o

B 2( 2

3 300 FIG

75-

7g 20

8b 79q 82 83 84 81 7'6 25

500 FIG 1

38 + +

4 - + \4

43+

++ + O0

39 37

FIG 2

A NOVEL PET BOWL FIELD OF THE INVENTION

[0001] The present invention relates to the technical field of vessel design, in particular to a

novel pet bowl.

BACKGROUNDART

[0002] The existing pet bowl is simple in structure, with only one open cavity for containing

water or food. When in use, water or food has to be added into the pet bowl manually.

However, usually the water in the bowl is not drunk by the pet at once. And as there is no

cover for the water tank, it is easy for the unfinished water to be mixed with the impurity,

which will lower the cleanliness of the water and cause the waste of water resources. Besides,

water is stored in the pet bowl and it is easily collided by a child or a pet, which may cause

the water to be splashed or the bowl overturned, wetting the floor and the slippery ground will

also cause the insecurity.

[0003] Moreover, pet food also needs to be added to the food container manually and in the

process when the pet food is poured into the food container of the pet bowl, it is easy for the

food to be collided out of the food container. The manual operation is also troublesome and

the amount of the food each time can not be easily controlled. What's more, if there are more

than two pets, pet bowls will occupy a big area, which will cause it to be very crowded.

[0004] Therefore, it is necessary to make improvements to the pet bowl in the prior art, so as

to improve the convenience and stability of the pet bowl.

BRIEF SUMMARY OF THE INVENTION

[0005] This invention aims to provide a novel pet bowl for overcoming the defects described above in the prior art.

[0006] A novel pet bowl in an embodiment of this invention comprises a bowl body; a water tank with an upward opening disposed in said bowl body; a lifting groove communicated with the periphery of the water tank; a locking device disposed on one upper side of said lifting groove; a lifting plate slidably disposed in said lifting groove; springs connecting the lower ends of said lifting plate and the lower end walls of said lifting groove fixedly set therebetween; an annular water storage cavity set in the periphery of said water tank; symmetrical flow channels communicated between said water storage cavity and said water tank; a pressing plate set in said water tank; a connecting blockfixedly arranged below said pressing plate; a valve control device arranged below said water tank; wherein the lower end of said connecting block touches against the valve control device; a contracting cavity with a rightward opening arranged below said water tank; a moving bowl with a toothed lower end face slidably disposed in said contracting cavity; a food container with an upward opening set in said moving bowl; symmetrical moving chutes with opposite openings set in said contracting cavity; symmetrical moving blocks extending into said moving chutes fixedly set in two sides of said moving bowl; a groove with an opening facing downwards and rightwards communicated with the lower side of said contracting cavity; a supporting block extending into said groove fixedly set in the lower end of said moving bowl; a moving groove with a downward opening arranged in said supporting block; a rotatable moving wheel set in said moving groove; a food storage cavity set over said contracting cavity; a feeding channel communicated between said food storage cavity and said contracting cavity; a closure device set in the periphery of said feeding channel, whereby said moving bowl moves to one side to the outside and trigger said closure device to work to open said feeding channel, so that the food in said food storage cavity will automatically fall into said food container.

[0007] Furthermore, said locking device comprises a transmission groove with a downward opening and communicated with said lifting groove; a transmission block, the lower end of which extends into said transmission groove, slidably disposed in said transmission groove; a first reset assembly set on one end wall of said transmission block; a transmission turning groove communicated with one side of said transmission groove; a rotatable transmission wheel arranged in said transmission turning groove through a transmission shaft; a power conversion device disposed under said flow channels; said valve control device comprises a pressing groove communicated with the lower wall of said water tank, wherein the lower end of said connecting block extends into said pressing groove and a pressing spring is set between the connecting block and the lower wall of said pressing groove; locking grooves with opposite openings set on the lower portions of two sides of said connecting block; a buffer turning groove communicated with one side of said pressing groove; a rotating gear, one side of which is engaged with said connecting block rotatably set in said buffer turning groove; buffer friction pads touching against said rotating gear and fixedly set in inner walls of said buffer turning groove; symmetrical slider grooves disposed at two sides of said pressing groove; connecting bars, opposite ends of which extend into said locking grooves, slidably set in said slider grooves; second reset assemblies set on the upper end walls of said connecting bars; valve controlled sliding chutes communicated with and set between said slider grooves and said flow channels, and each one of said valve controlled sliding chutes is internally provided with a respective one of valve controlled sliders, wherein pushing springs, each of which connects the lower end of a respective one of said valve controlled sliders and the lower wall of a respective one of said valve controlled sliding chutes, are set therebetween; horizontally throughgoing chutes set in said valve controlled sliders; empty grooves communicated with the upper sides of said flow channels, wherein the upper ends of said valve controlled sliders extend into said empty grooves; horizontally throughgoing flow grooves set in the upper portions of said valve controlled sliders.

[0008] Furthermore, said power conversion device comprises a motor; a revolving shaft in power connection with one side of said motor; a bevel gear cavity disposed in one side of said motor, wherein said revolving shaft extends into said bevel gear cavity and connects with a first bevel gear; a spline shaft in power connection with the other side of said motor; a switching groove set in the other side of said motor; a switching slider slidably disposed in said switching groove; a spline housing rotatably set in said switching slider, wherein one end of said spline shaft extends into said switching groove and is splined to said spline housing; a connecting slideway communicated with the upper side of said switching groove; a connecting slider extending into said connecting slideway and fixedly set on the upper portion of said switching slider; a sliding device set in the upper side of said connecting slideway; wherein one side of said spline housing is splined to a telescopic device; said sliding device comprises a sliding cavity, one side of which is communicated with said valve controlled sliding chutes and the lower side of which is communicated with said connecting slideway; a sliding block, the lower end of which is fixedly coupled with said connecting slider, set in said sliding cavity; a connecting spring fixedly set between one end of said sliding block and one wall of said sliding cavity; an engaging groove communicated with the upper side of said sliding cavity; an engaging gear, the lower portion of which is engaged with the upper end wall of said sliding block, rotatably arranged in said engaging groove through a engage revolving shaft, wherein said engage revolving shaft is coupled with said transmission shaft through a belt; a second engaging cavity with a rightward opening arranged in one end wall of said sliding block; a transmission gear, one end of which is engaged with said valve controlled slider, rotatably set in said second engaging cavity; a second bevel gear fixedly set in the front end of said transmission gear; a third bevel gear engaging with the front end of said second bevel gear rotatably set in said second engaging cavity through a connecting revolving shaft; a communicating groove communicated with and set between said sliding cavity and said bevel gear cavity; wherein the lower end of said connecting revolving shaft penetrates through said communicating groove and into said bevel gear cavity and is provided with a fourth bevel gear which is configured to engage with said first bevel gear; said telescopic device comprises a synchronization groove communicated with said switching groove; symmetrical synchronization pulleys set in said synchronization groove, wherein a synchronization belt connects said synchronization pulleys; a mandrel, one end of which is rotatably coupled with one end wall of said synchronization groove, fixedly set in the axis of the upper one of said synchronization pulleys, wherein the other end of said mandrel extends into said switching groove and is splined to said spline housing; wherein the axis of the lower one of said synchronization pulleys is fixedly provided with a pulley shaft, one end of which is rotatably coupled with one end wall of said synchronization groove, wherein the other side of said synchronization groove is provided with a telescopic turning groove with an upward opening and communicated with said contracting cavity; a turning groove communicated with and set between said telescopic turning groove and said synchronization groove; wherein the other end of said pulley shaft extends into said telescopic turning groove and is provided with a fifth bevel gear, the rear end of which is engaged with a sixth bevel gear; wherein the rear end of said sixth bevel gear is provided with a connecting gear, the upper end of which is engaged with said moving bowl;

[0009] Furthermore, said closure device comprises a closure sliding groove communicated with said feeding channel; a closure plate penetrating through said feeding channel slidably disposed in said closure sliding groove, wherein one end wall of said closure plate is provided with a compression spring, one end of which is coupled to one end wall of said closure sliding groove, wherein the closure plate is internally provided with a vertically throughgoing through groove which has a same size opening with said feeding channel, wherein the other end of said closure plate is fixedly provided with a pull wire; a winding groove communicated with the other side of said closure sliding groove, wherein a wire winding wheel is rotatably set in said winding groove; a T shaped groove communicated with and set between the lower side of said winding groove and said contracting cavity, wherein said T shaped groove is internally provided with a slidable pushing block, the lower end of which extends into said contracting cavity; wherein the lower end of said pull wire winds around said wire winding wheel and extends into said T shaped groove and couples with the upper end wall of said pushing block, wherein one end wall of said pushing block in said T shaped groove is provided with a reset spring, one end of which is coupled with one end wall of said T shaped groove.

[0010] The benefits of the invention areas follows: the present invention is simple in structure and easy to operate. Water is supplied by pressing down method, and in the initial state there is not so much water inside the pet bowl, so that it will not be easily collided by a child or a pet which may cause the water to be splashed to wet the floor, avoiding the cleaning problem and the insecurity caused by the slippery ground. Besides, there is limit water level set in the pressing down structure, so that when the pet operates by mistake, the device inside structure will prevent the water in the water storage cavity from flowing into the water tank and the water overflow can be prevented. Moreover, there is a food container set beneath the water tank, and the food container is pushed out by a telescopic device, and the food is poured into the food container automatically in the pushing process. What's more, the symmetrical moving blocks and moving wheel combined make the pushed moving bowl maintain the balance, increasing the stability of the device. And the water tank and the food container are set in upper and lower positions, making the device body occupy a small area. And the water and food supply are both conducted automatically, which reduces the waste and is convenient to use.

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 is a schematic structural diagram depicting an overall configuration inside the

novel pet bowl of this invention.

[0012] FIG. 2 is an enlarged schematic structural diagram of "A" in FIG. 1 of this invention.

[0013] FIG. 3 is an enlarged schematic structural diagram of "B" in FIG. 1 of this invention.

[0014] FIG. 4 is an enlarged schematic structural diagram of "C" in FIG. 1 of this invention.

[0015] FIG. 5 is a schematic structural diagram along "D-D" direction in FIG. 1 of this

invention.

DETAILED DESCRIPTION OF THE INVENTION

[0016] Referring to FIG. 1-5, a novel pet bowl in an embodiment of this invention comprises

a bowl body 10; a water tank 11 with an upward opening disposed in said bowl body 10; a

lifting groove 12 communicated with the periphery of the water tank 11; a locking device 100

disposed on one upper side of said lifting groove 12; a lifting plate 13 slidably disposed in

said lifting groove 12; springs 14 connecting the lower ends of said lifting plate 13 and the

lower end walls of said lifting groove 12fixedly set therebetween; an annular water storage

cavity 15 set in the periphery of said water tank 11; symmetrical flow channels 16

communicated between said water storage cavity 15 and said water tank 11; a pressing plate

17 set in said water tank 11; a connecting block 18fixedly arranged below said pressing plate

17; a valve control device 200 arranged below said water tank 11; wherein the lower end of

said connecting block 18 touches against the valve control device 200; a contracting cavity 19

with a rightward opening arranged below said water tank 11; a moving bowl 20 with a

toothed lower end face slidably disposed in said contracting cavity 19; a food container 21

with an upward opening set in said moving bowl 20; symmetrical moving chutes 22 with

opposite openings set in said contracting cavity 19; symmetrical moving blocks 23 extending

into said moving chutes 22 fixedly set in two sides of said moving bowl 20; a groove 24 with

an opening facing downwards and rightwards communicated with the lower side of said

contracting cavity 19; a supporting block 25 extending into said groove 24 fixedly set in the

lower end of said moving bowl 20; a moving groove 26 with a downward opening arranged in

said supporting block 25; a rotatable moving wheel 27 set in said moving groove 26; a food

storage cavity 28 set over said contracting cavity 19; a feeding channel 29 communicated

between said food storage cavity 28 and said contracting cavity 19; a closure device 300 set in

the periphery of said feeding channel 29, whereby said moving bowl 20 moves to one side to

the outside and trigger said closure device 300 to work to open said feeding channel 29, so

that the food in said food storage cavity 28 will automatically fall into said food container 21.

[0017] Beneficially or as an embodiment, said locking device 100 comprises a transmission groove 30 with a downward opening and communicated with said lifting groove 12; a transmission block 31, the lower end of which extends into said transmission groove 30, slidably disposed in said transmission groove 30; a first reset assembly 32 set on one end wall of said transmission block 31; a transmission turning groove 34 communicated with one side of said transmission groove 30; a rotatable transmission wheel 36 arranged in said transmission turning groove 34 through a transmission shaft 35; a power conversion device

600 disposed under said flow channels 16; said valve control device 200 comprises a pressing

groove 37 communicated with the lower wall of said water tank 11, wherein the lower end of

said connecting block 18 extends into said pressing groove 37 and a pressing spring 39 is set

between the connecting block 18 and the lower wall of said pressing groove 37; locking

grooves 38 with opposite openings set on the lower portions of two sides of said connecting

block 18; a buffer turning groove 40 communicated with one side of said pressing groove 37;

a rotating gear 41, one side of which is engaged with said connecting block 18 rotatably set in

said buffer turning groove 40; buffer friction pads 51 touching against said rotating gear 41

and fixedly set in inner walls of said buffer turning groove 40; symmetrical slider grooves 42

disposed at two sides of said pressing groove 37; connecting bars 43, opposite ends of which

extend into said locking grooves 38, slidably set in said slider grooves; second reset

assemblies 44 set on the upper end walls of said connecting bars 43; valve controlled sliding

chutes 45 communicated with and set between said slider grooves 42 and said flow channels

16, and each one of said valve controlled sliding chutes 45 is internally provided with a

respective one of valve controlled sliders 46, wherein pushing springs 47, each of which

connects the lower end of a respective one of said valve controlled sliders 46 and the lower

wall of a respective one of said valve controlled sliding chutes 45, are set therebetween;

horizontally throughgoing chutes 48 set in said valve controlled sliders 46; empty grooves 50

communicated with the upper sides of said flow channels 16, wherein the upper ends of said

valve controlled sliders 46 extend into said empty grooves 50; horizontally throughgoing flow

grooves 49 set in the upper portions of said valve controlled sliders 46.

[0018] Beneficially or as an embodiment, said power conversion device 600 comprises a motor 52; a revolving shaft 53 in power connection with one side of said motor 52; a bevel gear cavity 54 disposed in one side of said motor 52, wherein said revolving shaft 53 extends into said bevel gear cavity 54 and connects with a first bevel gear 55; a spline shaft 56 in power connection with the other side of said motor 52; a switching groove 57 set in the other side of said motor 52; a switching slider 58 slidably disposed in said switching groove 57; a spline housing 59 rotatably set in said switching slider 58, wherein one end of said spline shaft 56 extends into said switching groove 57 and is splined to said spline housing 59; a connecting slideway 60 communicated with the upper side of said switching groove 57; a connecting slider 61 extending into said connecting slideway 60 and fixedly set on the upper portion of said switching slider 58; a sliding device 400 set in the upper side of said connecting slideway 60; wherein one side of said spline housing 59 is splined to a telescopic device 500; said sliding device 400 comprises a sliding cavity 62, one side of which is communicated with said valve controlled sliding chutes 45 and the lower side of which is communicated with said connecting slideway 60; a sliding block 63, the lower end of which is fixedly coupled with said connecting slider 61, set in said sliding cavity 62; a connecting spring 64 fixedly set between one end of said sliding block 63 and one wall of said sliding cavity 62; an engaging groove 65 communicated with the upper side of said sliding cavity 62; an engaging gear 67, the lower portion of which is engaged with the upper end wall of said sliding block 63, rotatably arranged in said engaging groove 65 through a engage revolving shaft 66, wherein said engage revolving shaft 66 is coupled with said transmission shaft 35 through a belt; a second engaging cavity 68 with a rightward opening arranged in one end wall of said sliding block 63; a transmission gear 69, one end of which is engaged with said valve controlled slider 46, rotatably set in said second engaging cavity 68; a second bevel gear fixedly set in the front end of said transmission gear 69; a third bevel gear 71 engaging with the front end of said second bevel gear 70 rotatably set in said second engaging cavity 68 through a connecting revolving shaft 72; a communicating groove 73 communicated with and set between said sliding cavity 62 and said bevel gear cavity 54; wherein the lower end of said connecting revolving shaft 72 penetrates through said communicating groove 73 and into said bevel gear cavity 54 and is provided with a fourth bevel gear 74 which is configured to engage with said first bevel gear 55; said telescopic device 500 comprises a synchronization groove 75 communicated with said switching groove 57; symmetrical synchronization pulleys

77 set in said synchronization groove 75, wherein a synchronization belt 78 connects said

synchronization pulleys 77; a mandrel 76, one end of which is rotatably coupled with one end

wall of said synchronization groove 75, fixedly set in the axis of the upper one of said

synchronization pulleys 77, wherein the other end of said mandrel 76 extends into said

switching groove 57 and is splined to said spline housing 59; wherein the axis of the lower

one of said synchronization pulleys 77 is fixedly provided with a pulley shaft 80, one end of

which is rotatably coupled with one end wall of said synchronization groove 75, wherein the

other side of said synchronization groove 75 is provided with a telescopic turning groove 81

with an upward opening and communicated with said contracting cavity 19; a turning groove

79 communicated with and set between said telescopic turning groove 81 and said

synchronization groove 75; wherein the other end of said pulley shaft 80 extends into said

telescopic turning groove 81 and is provided with a fifth bevel gear 82, the rear end of which

is engaged with a sixth bevel gear 83; wherein the rear end of said sixth bevel gear 83 is

provided with a connecting gear 84, the upper end of which is engaged with said moving

bowl 20;

[0019] Beneficially or as an embodiment, said closure device 300 comprises a closure

sliding groove 85 communicated with said feeding channel 29; a closure plate 86 penetrating

through said feeding channel 29 slidably disposed in said closure sliding groove 85, wherein

one end wall of said closure plate 86 is provided with a compression spring 87, one end of

which is coupled to one end wall of said closure sliding groove 85, wherein the closure plate

86 is internally provided with a vertically throughgoing through groove 88 which has a same

size opening with said feeding channel 29, wherein the other end of said closure plate 86 is

fixedly provided with a pull wire 89; a winding groove 90 communicated with the other side

of said closure sliding groove 85, wherein a wire winding wheel 91 is rotatably set in said

winding groove 90; a T shaped groove 92 communicated with and set between the lower side

of said winding groove 90 and said contracting cavity 19, wherein said T shaped groove 92 is internally provided with a slidable pushing block 93, the lower end of which extends into said contracting cavity 19; wherein the lower end of said pull wire 89 winds around said wire winding wheel 91 and extends into said T shaped groove 92 and couples with the upper end wall of said pushing block 93, wherein one end wall of said pushing block 93 in said T shaped groove 92 is provided with a reset spring 94, one end of which is coupled with one end wall of said T shaped groove 92.

[0020] In an initial state, said water storage cavity 15 is stored with water and portion of the water tank 11 beneath said lifting groove 12 is stored with water. Said food storage cavity 28 is stored with pet food. Said valve controlled sliders 46 block said flow channels 16 and said first bevel gear 55 is not engaged with said fourth bevel gear 74. Said sliding block 63 is at one end position of said sliding cavity 62. Said spline housing 59 is splined with said mandrel 76 and said spline shaft 56. Said moving bowl 20 is in said contracting cavity 19 and said closure plate 86 blocks said feeding channel 29.

[0021] Ina working state, when the pet drinks up the water at the bottom of said water tank 11, said pressing plate 17 is pressed to lower the connecting block 18, driving said connecting bars 43 to move to two sides and lowering said valve controlled sliders 46, so that said flow grooves 49 communicate with said flow channels 16 and the water in said water storage cavity 15 will go into said water tank 11. When said pressing plate 17 is released, said connecting block 18 will gradually rise under the action of said rotating gear 41. When the connecting block 18 returns to the initial position, said connecting bars 43 move towards each other under the action of said second reset assemblies 44, so that said valve controlled sliders 46 rise to block said flow channels 16 and the water in said water storage cavity 15 will cease to flow into said water tank 11. When some pets continuously press the pressing plate 17 by mistake, the water in the water storage cavity 15 continuously flow into the water tank 11, and with the water going up, the lifting plate 13 rises too and when it rises to the upmost position in the lifting groove 12, the lifting plate 13 pushes the transmission block 31 to rise, driving the transmission wheel 36 to rotate reversely to drive the engaging gear 67 to rotate reversely through a transmission belt, so that sliding block 63 move to one side till the transmission gear 69 engages with the valve controlled slider 46 and the fourth bevel gear 74 engages with the first bevel gear 55, driving the switching slider 58 to move to one side through the connecting slider 61, so that the mandrel 76 disengages from the spline housing 59. Then the motor 52 works to drive the revolving shaft 53 to rotate to drive the fourth bevel gear 74 to rotate through the first bevel gear 55, so that the third bevel gear 71 drives the transmission gear 69 to rotate, driving the valve controlled sliders 46 to rise to block the flow channels 16, so that the water in the water storage cavity 15 will cease to flow into said water tank 11 to avoid the overflow. When the water level in the water tank 11 drops, the transmission block 31 drops to the initial position, so that the engaging gear 67 rotates reversely to drive the sliding block 63 to move to the initial position. When the pet needs food, the motor 52 works to drive the spline shaft 56 to rotate, so that the synchronization pulleys 77 rotate to drive the pulley shaft 80 to rotate through the synchronization belt 78, driving the connecting gear 84 to rotate to drive the moving bowl 20 to move to the outside. When the other end of the moving bowl 20 touches against the pushing block 93 and pushes the pushing block 93 to move to one side, the pull wire 89 drives the closure plate 86 to move to the other side, so that the through groove 88 communicates with the feeding channel 29 and the pet food in the food storage cavity 28 enters the food container 21. After a certain amount of the food in the food storage cavity 28 enters the food container 21, the motor 52 rotate reversely to drive the moving bowl to move a short distance to the other side, so that the moving bowl 20 disengages from the pushing block 93, and the closure plate 86 moves to one side under the action of the compression spring 87 to block the feeding channel 29. After the pet finishes the food in the food container 21, the motor 52 works reversely to drive the moving bowl 20 to move to the contracting cavity 19 and the device returns to the initial state.

[0022] The benefits of the invention are as follows: the present invention is simple in structure and easy to operate. Water is supplied by pressing down method, and in the initial state there is not so much water inside the pet bowl, so that it will not be easily collided by a child or a pet which may cause the water to be splashed to wet the floor, avoiding the cleaning problem and the insecurity caused by the slippery ground. Besides, there is limit water level set in the pressing down structure, so that when the pet operates by mistake, the device inside structure will prevent the water in the water storage cavity from flowing into the water tank and the water overflow can be prevented. Moreover, there is a food container set beneath the water tank, and the food container is pushed out by a telescopic device, and the food is poured into the food container automatically in the pushing process. What's more, the symmetrical moving blocks and moving wheel combined make the pushed moving bowl maintain the balance, increasing the stability of the device. And the water tank and the food container are set in upper and lower positions, making the device body occupy a small area. And the water and food supply are both conducted automatically, which reduces the waste and is convenient to use.

[0023] Those skilled in the art should understand that various alterations and modifications

can be made to the above embodiments without departing from the scope and spirit of this

invention, which is within the protection scope of the present invention. The scope of the

invention is defined by the appended claims.

Claims (4)

1. A novel pet bowl, comprising

a bowl body;

a water tank with an upward opening disposed in said bowl body;

a lifting groove communicated with the periphery of the water tank;

a locking device disposed on one upper side of said lifting groove;

a lifting plate slidably disposed in said lifting groove;

springs connecting the lower ends of said lifting plate and the lower end walls of said lifting

groove fixedly set therebetween;

an annular water storage cavity set in the periphery of said water tank;

symmetrical flow channels communicated between said water storage cavity and said water

tank;

a pressing plate set in said water tank;

a connecting block fixedly arranged below said pressing plate;

a valve control device arranged below said water tank,

wherein the lower end of said connecting block touches against the valve control device;

a contracting cavity with a rightward opening arranged below said water tank;

a moving bowl with a toothed lower end face slidably disposed in said contracting cavity;

a food container with an upward opening set in said moving bowl;

symmetrical moving chutes with opposite openings set in said contracting cavity;

symmetrical moving blocks extending into said moving chutes fixedly set in two sides of said

moving bowl;

a groove with an opening facing downwards and rightwards communicated with the lower

side of said contracting cavity;

a supporting block extending into said groove fixedly set in the lower end of said moving

bowl;

a moving groove with a downward opening arranged in said supporting block;

a rotatable moving wheel set in said moving groove;

a food storage cavity set over said contracting cavity; a feeding channel communicated between said food storage cavity and said contracting cavity; a closure device set in the periphery of said feeding channel, whereby said moving bowl moves to one side to the outside and trigger said closure device to work to open said feeding channel, so that the food in said food storage cavity will automatically fall into said food container.

2. The novel pet bowl of claim 1, wherein said locking device comprises a transmission groove with a downward opening and communicated with said lifting groove; a transmission block, the lower end of which extends into said transmission groove, slidably disposed in said transmission groove; a first reset assembly set on one end wall of said transmission block; a transmission turning groove communicated with one side of said transmission groove; a rotatable transmission wheel arranged in said transmission turning groove through a transmission shaft; a power conversion device disposed under said flow channels; said valve control device comprises a pressing groove communicated with the lower wall of said water tank, wherein the lower end of said connecting block extends into said pressing groove and a pressing spring is set between the connecting block and the lower wall of said pressing groove; locking grooves with opposite openings set on the lower portions of two sides of said connecting block; a buffer turning groove communicated with one side of said pressing groove; a rotating gear, one side of which is engaged with said connecting block rotatably set in said buffer turning groove; buffer friction pads touching against said rotating gear and fixedly set in inner walls of said buffer turning groove; symmetrical slider grooves disposed at two sides of said pressing groove; connecting bars, opposite ends of which extend into said locking grooves, slidably set in said slider grooves; second reset assemblies set on the upper end walls of said connecting bars; valve controlled sliding chutes communicated with and set between said slider grooves and said flow channels, and each one of said valve controlled sliding chutes is internally provided with a respective one of valve controlled sliders, wherein pushing springs, each of which connects the lower end of a respective one of said valve controlled sliders and the lower wall of a respective one of said valve controlled sliding chutes, are set therebetween; horizontally throughgoing chutes set in said valve controlled sliders; empty grooves communicated with the upper sides of said flow channels, wherein the upper ends of said valve controlled sliders extend into said empty grooves; horizontally throughgoing flow grooves set in the upper portions of said valve controlled sliders.

3. The novel pet bowl of claim 2, wherein said power conversion device comprises

a motor;

a revolving shaft in power connection with one side of said motor;

a bevel gear cavity disposed in one side of said motor,

wherein said revolving shaft extends into said bevel gear cavity and connects with a first

bevel gear;

a spline shaft in power connection with the other side of said motor;

a switching groove set in the other side of said motor;

a switching slider slidably disposed in said switching groove;

a spline housing rotatably set in said switching slider,

wherein one end of said spline shaft extends into said switching groove and is splined to said

spline housing;

a connecting slideway communicated with the upper side of said switching groove;

a connecting slider extending into said connecting slideway and fixedly set on the upper

portion of said switching slider;

a sliding device set in the upper side of said connecting slideway; wherein one side of said spline housing is splined to a telescopic device; said sliding device comprises a sliding cavity, one side of which is communicated with said valve controlled sliding chutes and the lower side of which is communicated with said connecting slideway; a sliding block, the lower end of which isfixedly coupled with said connecting slider, set in said sliding cavity; a connecting spring fixedly set between one end of said sliding block and one wall of said sliding cavity; an engaging groove communicated with the upper side of said sliding cavity; an engaging gear, the lower portion of which is engaged with the upper end wall of said sliding block, rotatably arranged in said engaging groove through a engage revolving shaft, wherein said engage revolving shaft is coupled with said transmission shaft through a belt; a second engaging cavity with a rightward opening arranged in one end wall of said sliding block; a transmission gear, one end of which is engaged with said valve controlled slider, rotatably set in said second engaging cavity; a second bevel gear fixedly set in the front end of said transmission gear; a third bevel gear engaging with the front end of said second bevel gear rotatably set in said second engaging cavity through a connecting revolving shaft; a communicating groove communicated with and set between said sliding cavity and said bevel gear cavity; wherein the lower end of said connecting revolving shaft penetrates through said communicating groove and into said bevel gear cavity and is provided with a fourth bevel gear which is configured to engage with said first bevel gear; said telescopic device comprises a synchronization groove communicated with said switching groove; symmetrical synchronization pulleys set in said synchronization groove, wherein a synchronization belt connects said synchronization pulleys; a mandrel, one end of which is rotatably coupled with one end wall of said synchronization groove, fixedly set in the axis of the upper one of said synchronization pulleys, wherein the other end of said mandrel extends into said switching groove and is splined to said spline housing; wherein the axis of the lower one of said synchronization pulleys is fixedly provided with a pulley shaft, one end of which is rotatably coupled with one end wall of said synchronization groove, wherein the other side of said synchronization groove is provided with a telescopic turning groove with an upward opening and communicated with said contracting cavity; a turning groove communicated with and set between said telescopic turning groove and said synchronization groove; wherein the other end of said pulley shaft extends into said telescopic turning groove and is provided with a fifth bevel gear, the rear end of which is engaged with a sixth bevel gear; wherein the rear end of said sixth bevel gear is provided with a connecting gear, the upper end of which is engaged with said moving bowl.

4. The novel pet bowl of claim 1, wherein said closure device comprises a closure sliding groove communicated with said feeding channel; a closure plate penetrating through said feeding channel slidably disposed in said closure sliding groove, wherein one end wall of said closure plate is provided with a compression spring, one end of which is coupled to one end wall of said closure sliding groove, wherein the closure plate is internally provided with a vertically throughgoing through groove which has a same size opening with said feeding channel, wherein the other end of said closure plate is fixedly provided with a pull wire; a winding groove communicated with the other side of said closure sliding groove, wherein a wire winding wheel is rotatably set in said winding groove; a T shaped groove communicated with and set between the lower side of said winding groove and said contracting cavity, wherein said T shaped groove is internally provided with a slidable pushing block, the lower end of which extends into said contracting cavity; wherein the lower end of said pull wire winds around said wire winding wheel and extends into said T shaped groove and couples with the upper end wall of said pushing block, wherein one end wall of said pushing block in said T shaped groove is provided with a reset spring, one end of which is coupled with one end wall of said T shaped groove.