CN111136078B - Timely cleaning device of trough residual feed is bred to cattle - Google Patents

Abstract

The invention discloses a timely cleaning device for residual feed in a cattle breeding trough, which comprises a trough, wherein a spring is fixedly connected to the bottom wall of the trough, a supporting plate is fixedly connected to the top of the spring, the supporting plate is tightly attached to the inner wall of the trough to ensure that the feed or water does not fall below the supporting plate, a water inlet is formed in the left side of the trough, a water inlet blocking plate is arranged inside the water inlet and used for controlling water inflow, a movable rod is inserted into the bottom of the water inlet blocking plate, and a connecting rod is fixedly connected between the movable rod and the supporting plate. This timely cleaning device of trough residual feed is bred to cattle, through at the trough in installation layer board, no matter add fodder or water like this, the layer board receives the downward compression spring of pressure, is slowly eaten away when fodder or water, and the spring promotes the layer board and shifts up, holds up the fodder or the water that remain a little, has made things convenient for the cattle feed, can make the fodder in the trough eat totally on the same way, reduces the clearance degree of difficulty.

Description

Timely cleaning device of trough residual feed is bred to ox

Technical Field

The invention relates to the technical field of livestock breeding, in particular to a timely cleaning device for residual feed in a cattle breeding trough.

Background

In recent years, the food and catering industry in China is rapidly developed, so that the supply of food raw materials is short, particularly meat related products are imported in large quantity, the price of meat is high in the market, foreign germs are easy to bring, and the reformation of the domestic livestock breeding industry is not slow.

Need feed a large amount of fodder and water every day when the cattle is bred, because the unable absolute accurate of structure and the fodder volume of breeding the base trough now puts in, lead to feeding at every turn and all become in the trough and can remain some fodder after finishing, this if not in time clear up, can breed a large amount of bacteriums after a period to cause various diseases, influence cattle and breed personnel, therefore we have proposed a timely cleaning device of cattle breeding trough residue fodder.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the timely cleaning device for the residual feed in the cattle breeding trough, which has the function of cleaning the residual feed in the trough.

The invention adopts the following technical scheme for realizing the technical purpose: the utility model provides a timely cleaning device of trough residual feed is bred to cattle, includes the trough, the tank bottom wall fixedly connected with spring of trough, the top fixedly connected with layer board of spring, the layer board is closely laminated with the inner wall of trough, guarantees that fodder or water do not fall into the layer board below.

The water inlet has been seted up in the left side of trough, the inside of water inlet is provided with into water baffler for control is intake, it has the movable rod to peg graft in the bottom of into water baffler, fixedly connected with connecting rod between movable rod and the layer board, the side movable mounting of the baffler that intakes turns over the board, the top of the baffler that intakes articulates has the hooked pole, the top swing joint of trough has the rack.

The improved water-saving food bowl is characterized in that a water outlet is formed in the right side of the food bowl, a control cavity and a movable slide way are formed in the right wall of the food bowl, a water drainage baffle plate is connected between the control cavity and the movable slide way in a sliding mode, a water drainage turning plate is movably mounted on a side plate of the water drainage baffle plate, and a lifting block is fixedly connected to the left side of the water drainage baffle plate.

The atress piece has been placed to the inside in control chamber, the right side fixedly connected with shell of atress piece, the bottom of shell is provided with the opening, the inside swing joint of shell has the gear, the positive fixedly connected with of gear holds in the palm the ejector pin, the inside of shell and the right side swing joint who is located the gear have the slide bar, the right side fixedly connected with magnetism controlling part of layer board bottom.

As optimization, the top of trough just is located the right side fixedly connected with stopper of the baffler that intakes, and the distance of stopper to rack is less than the hook lever and drives four times of rack displacement distance at every turn.

As optimization, the direction of the teeth of the rack is towards the left, the hook point of the hook rod is towards the right, the hook rod is placed above the rack, and the bottom of the water inlet baffle plate is provided with an accommodating groove corresponding to the movable rod.

Preferably, the diameter of the water inlet turning plate is the same as that of the water inlet, the diameter of the water discharge turning plate is the same as that of the water discharge opening, and the height of the water inlet is higher than that of the water discharge opening.

As optimization, the magnetic control part is magnetically connected with the stressed part through a magnet, a through hole corresponding to the water inlet is formed in the side face of the water inlet blocking plate, and the inner wall of the water inlet is positioned on the right side of the water inlet turning plate and provided with a guide groove.

Preferably, the inner left wall of the shell is provided with teeth in a downward direction, the teeth outside the gear are distributed clockwise, and the length of the drainage blocking plate is greater than the distance from the bottom wall in the control cavity to the inner top wall in the drainage port.

Preferably, the left side of the sliding rod is provided with teeth in a downward direction, the length of the teeth is one fourth of the circumference of the gear, the front side of the sliding rod is provided with a sliding groove, and the length of the sliding groove is larger than that of the teeth on the left side of the sliding rod.

The invention has the following beneficial effects:

1. this timely cleaning device of trough residual feed is bred to cattle, through at the trough in installation layer board, no matter add fodder or water like this, the layer board receives the downward compression spring of pressure, is slowly eaten away when fodder or water, and the spring promotes the layer board and shifts up, holds up the fodder or the water that remain a little, has made things convenient for the cattle feed, can make the fodder in the trough eat totally on the same way, reduces the clearance degree of difficulty.

2. This timely cleaning device of trough residual feed is bred to cattle, through seting up water inlet and outlet respectively in the both sides of trough, because the cattle drinks the water yield every day and is three to four times of the edible fodder volume, in using, to adding the fodder in the trough, the layer board receives fodder weight and pushes down, like the state of fig. 1, the layer board moves down, it moves down to drive the movable rod through the connecting rod, after the movable rod is pulled out completely, the movable rod drives into water the baffler and moves down, the board turns over that the board turns over simultaneously into water, the hook pole moves down, like the state of fig. 9, and the control intracavity state like fig. 11 this moment, magnetic path spare and atress spare dock.

The cattle slowly eats the feed, the supporting plate slowly resets, when the feed is eaten almost, the spring pushes the supporting plate to completely reset, as shown in a state of figure 2, the supporting plate pushes the movable rod to move upwards firstly in the process, when the movable rod is pushed into the water inlet blocking plate completely, the movable rod pushes the water inlet blocking plate to move upwards, the water inlet blocking plate drives the water inlet turning plate and the hook rod to move upwards, as shown in a state of figure 10, the water inlet blocking plate is just coincided with the water inlet, water flow on the left side of the water inlet pushes the water inlet turning plate to be pushed away, the water inlet turning plate flows into the trough, the hook rod pulls the rack to move rightwards, as shown in figures 22 and 24, at the moment, the state in the control cavity is as shown in figure 16, the magnetic control part drives the stress part to move upwards, the stress part drives the shell sleeve to move upwards, and at the state of the shell sleeve is as shown in figure 25.

When water is slowly injected into the trough, the supporting plate is pressed down again, as shown in the state of fig. 3, the water inlet turning plate moves down to be closed, the hook rod slides above the teeth, at the moment, the state in the control cavity is as shown in fig. 17, the magnetic block part drives the stress part to move down, the stress part drives the shell sleeve to move down, as shown in the state of fig. 17, the sliding rod is pressed into the shell sleeve, the rack drives the gear to rotate anticlockwise for a quarter of a circle through the teeth, the gear drives the supporting rod to rotate anticlockwise, water drainage is completed for one time, residual feed in the trough is flushed, and mixed into the water.

When water is slowly drunk, the supporting plate moves upwards to reset as shown in the state of figure 4, the water inlet blocking plate moves upwards as shown in the state of figure 12, the water inlet turning plate is opened again to discharge water, the hook rod pulls the rack to move rightwards, and the control cavity is as shown in the state of figure 18.

When water is slowly injected into the trough, the supporting plate is pressed down again, the water inlet turning plate moves downwards to be closed as shown in the state of fig. 5, the hook rod slides above the teeth, the state in the control cavity is controlled as shown in the state of fig. 19, the magnetic block part drives the stress part to move downwards, the stress part drives the shell sleeve to move downwards, the gear drives the supporting rod to rotate for a quarter of a circle again, secondary water drainage is completed, and the feed in the trough is flushed again.

When water is slowly drunk, the supporting plate moves upwards to reset, the water inlet blocking plate moves upwards as shown in the state of fig. 6, the water inlet turning plate opens again to discharge water as shown in fig. 13, the hook rod pulls the rack to move rightwards, and the shell sleeve moves upwards.

When water is injected into the trough again, the supporting plate is pressed down again, the water inlet turning plate moves downwards to be closed as shown in the state of fig. 7, the hook rod slides above the teeth, the state in the control cavity is controlled as shown in fig. 20, the magnetic block part drives the stress part to move downwards, the stress part drives the shell sleeve to move downwards, the gear drives the supporting rod to rotate for a quarter of a circle again, the supporting rod is located below the lifting rod at the moment, three times of water discharging is completed, and finally, the fodder in the trough is flushed for the last time.

When water is slowly reduced again, the supporting plate moves upwards slowly to drive the water inlet separation plate to move upwards, the water inlet separation plate drives the water inlet turning plate and the hook rod to move upwards, the hook rod drives the rack to move rightwards, as shown in fig. 14, the rack moves for a certain distance and is blocked by the limiting block, so the water inlet separation plate is locked by the hook rod and cannot move upwards again, at the moment, the water inlet turning plate does not enter the water inlet, the water inlet is still closed, the magnetic control part drives the stress part to move upwards, the stress part drives the shell sleeve to move upwards, the shell sleeve drives the water drainage separation plate to move upwards through the supporting rod and the lifting block, as shown in fig. 21, the water drainage turning plate water outlet is superposed, the residual water in the trough is mixed with the feed to push away the water drainage turning plate to flow out, the trough is cleaned, and when the feed is added for the second time, the rack is reset, and the feed can be used again.

Like this wash the trough through relapseing the water injection, guaranteed the clearance effect to the trough, when the cattle diet is first and the retaining of second time simultaneously, can eat the fodder of mixing in the aquatic together, reduce extravagantly, when retaining surplus less part for the third time, can follow the outlet and discharge, take remaining fodder, prevent that the fodder from rotting in the trough, breeding the bacterium, influence the cattle is healthy, can reserve drying time for the trough simultaneously.

Drawings

FIG. 1 is a schematic view of the first depression of the structure of the present invention.

Fig. 2 is a schematic diagram of the first reset of the structure of the present invention.

FIG. 3 is a second press down schematic of the inventive structure.

Fig. 4 is a schematic diagram of the second reset of the structure of the present invention.

FIG. 5 is a third pressing schematic view of the structure of the present invention.

Fig. 6 is a schematic diagram of the third reset of the structure of the present invention.

FIG. 7 is a fourth pressing schematic diagram of the structure of the present invention.

Fig. 8 is a fourth reset schematic diagram of the structure of the present invention.

FIG. 9 is an enlarged view of the left side of FIG. 1 according to the present invention.

FIG. 10 is an enlarged view of the left side of FIG. 2 according to the present invention.

FIG. 11 is an enlarged view of the left side of FIG. 3 according to the present invention.

FIG. 12 is an enlarged view of the left side of the block diagram 4 according to the present invention.

FIG. 13 is an enlarged view of the left side of FIG. 6 illustrating the present invention.

FIG. 14 is an enlarged view of the left side of FIG. 8 in accordance with the present invention.

FIG. 15 is an enlarged view of the right side portion of the block diagram of FIG. 1 according to the present invention.

Fig. 16 is an enlarged view of the right side portion of the structural diagram 2 of the present invention.

FIG. 17 is an enlarged view of the right side portion of FIG. 3 in accordance with the present invention.

FIG. 18 is an enlarged view of the right side portion of FIG. 4 in accordance with the present invention.

FIG. 19 is an enlarged view of the right side portion of the block diagram 5 according to the present invention.

FIG. 20 is an enlarged view of the right side portion of the block diagram 7 according to the present invention.

FIG. 21 is an enlarged view of the right side portion of the block diagram of FIG. 8 according to the present invention.

FIG. 22 is a schematic view showing a state of the water inlet blocking plate in the structure of FIG. 9 according to the present invention.

FIG. 23 is an enlarged view of the point A in FIG. 2.

FIG. 24 is a schematic view showing the water inlet blocking plate in the structure of FIG. 10 according to the present invention.

Fig. 25 is a schematic view of the housing of fig. 16 according to the present invention.

FIG. 26 is an enlarged view of the invention at B in FIG. 17.

In the figure: 1-a feed trough, 2-a supporting plate, 3-a water inlet, 4-a water inlet blocking plate, 5-a movable rod, 6-a connecting rod, 7-a water inlet turning plate, 8-a hook rod, 9-a rack, 10-a water outlet, 11-a control cavity, 12-a movable slideway, 13-a water discharge blocking plate, 14-a water discharge turning plate, 15-a lifting block, 16-a stress piece, 17-a shell sleeve, 18-a gear, 19-a supporting rod, 20-a sliding rod and 21-a magnetic control piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-26, in use, because the daily drinking amount of cattle is three to four times of the edible feed amount, when in use, feed is added into the trough 1, the supporting plate 2 is pressed by the feed weight, as shown in the state of fig. 1, the supporting plate 2 moves downwards, the connecting rod 6 drives the movable rod 5 to move downwards, after the movable rod 5 is completely pulled out, the movable rod 5 drives the water inlet baffle plate 4 to move downwards, the water inlet turning plate 7 and the hook rod 8 move downwards as shown in the state of fig. 9, and at the same time, the state in the control cavity 11 is as shown in fig. 11, and the magnetic block member 21 is in butt joint with the stress member 16.

The cattle slowly eats the feed, the supporting plate 2 slowly resets, when the feed is eaten almost, the spring pushes the supporting plate 2 to completely reset, as shown in a state of fig. 2, the supporting plate 2 pushes the movable rod 5 to move upwards firstly in the process, when the movable rod 5 is pushed into the water inlet blocking plate 4 completely, the movable rod 5 pushes the water inlet blocking plate 4 to move upwards, the water inlet blocking plate 4 drives the water inlet turning plate 7 and the hook rod 8 to move upwards, as shown in a state of fig. 10, the water inlet blocking plate 4 is just coincided with the water inlet 3, water flow on the left side of the water inlet 3 pushes the water inlet turning plate 7 to move upwards and flows into the trough 1, the hook rod 8 pulls the rack 9 to move rightwards, as shown in fig. 22 and 24, at the moment, the state in the control cavity 11 is as shown in fig. 16, the magnetic control piece 21 drives the stress piece 16 to move upwards, the stress piece 16 drives the shell sleeve 17 to move upwards, and at the moment, the state of the shell sleeve 17 is as shown in fig. 25.

When water is slowly injected into the trough 1, the supporting plate 2 is pressed down again, as shown in the state of fig. 3, the water inlet turning plate 7 moves down and is closed, the hook rod 8 slides above the teeth 9, at the moment, the state in the control cavity 11 is as shown in fig. 17, the magnetic block piece 21 drives the stress piece 16 to move down, the stress piece 16 drives the shell sleeve 17 to move down, as shown in the state of fig. 17, the sliding rod 20 is pressed into the shell sleeve 17, the sliding rod 20 drives the gear 18 to rotate counterclockwise by one quarter of a circle through the teeth, the gear 18 drives the supporting rod 19 to rotate counterclockwise, water discharging is completed for one time, residual feed in the trough 1 is flushed, and the residual feed is mixed into the water.

After water is slowly drunk, the supporting plate 2 moves upwards to reset, as shown in the state of fig. 4, the water inlet blocking plate 4 moves upwards, as shown in fig. 12, the water inlet turning plate 7 is opened again to discharge water, the hook rod 8 pulls the rack 9 to move rightwards, and the control cavity 11 is as shown in the state of fig. 18.

When water is slowly injected into the trough 1, the supporting plate 2 is pressed down again, the water inlet turning plate 7 moves down and is closed as shown in the state of fig. 5, the hook rod 8 slides above the teeth 9, the state in the control cavity 11 is as shown in the state of fig. 19, the magnetic block piece 21 drives the stress piece 16 to move down, the stress piece 16 drives the shell sleeve 17 to move down, the gear 18 drives the supporting rod 19 to rotate for a quarter of a circle again, secondary water discharging is completed, and the feed in the trough 1 is flushed again.

After water is slowly drunk, the supporting plate 2 moves upwards to reset, the water inlet blocking plate 4 moves upwards as shown in the state of fig. 6, the water inlet turning plate 7 opens again to discharge water as shown in fig. 13, the hook rod 8 pulls the rack 9 to move rightwards, and the shell sleeve 17 moves upwards.

When water is injected into the trough 1 again, the supporting plate 2 is pressed down again, as shown in the state of fig. 7, the water inlet turning plate 7 moves down and is closed, the hook rod 8 slides above the teeth 9, at the moment, the state in the control cavity 11 is as shown in fig. 20, the magnetic block piece 21 drives the stress piece 16 to move down, the stress piece 16 drives the shell sleeve 17 to move down, the gear 18 drives the supporting rod 19 to rotate for a quarter of a circle again, at the moment, the supporting rod 19 is positioned below the lifting rod 15, three times of water discharging is completed, and finally, the feed in the trough 1 is flushed.

When water is slowly reduced again, the supporting plate 2 slowly moves upwards to drive the water inlet blocking plate 4 to move upwards, the water inlet blocking plate 4 drives the water inlet turning plate 7 and the hook rod 8 to move upwards, the hook rod 8 drives the rack 9 to move rightwards, as shown in fig. 14, the rack 9 moves for a certain distance and is blocked by the limiting block, so that the water inlet blocking plate 4 is locked by the hook rod 8 and cannot move upwards any more, at the moment, the water inlet turning plate 7 does not enter the water inlet 3, the water inlet 3 is still closed, meanwhile, the magnetic control part 21 drives the stress part 16 to move upwards, the stress part 16 drives the shell sleeve 17 to move upwards, the shell sleeve 17 drives the water discharge blocking plate 13 to move upwards through the supporting rod 19 and the lifting block 15, as shown in fig. 21, the water discharge openings 10 of the water discharge turning plates 14 are overlapped, the residual water in the trough 1 is mixed with the feed to push away the water discharge turning plate 14 to flow out, the trough 1 is cleaned, and when the feed is added for the second time, the rack 9 is reset, and can be used again.

The utility model provides a timely cleaning device of trough residual feed is bred to cattle, including trough 1, the top of trough 1 just is located the right side fixedly connected with stopper of the baffler 4 of intaking, stopper to rack 9's distance be less than the quadruple of 8 drive rack 9 displacement distances of gib block at every turn, when making layer board 2 the third time reset like this, can't accomplish and target in place, trough 1 can not by the water injection when so adding the fodder, trough bottom wall fixedly connected with spring of trough 1, the top fixedly connected with layer board 2 of spring, layer board 2 closely laminates with the inner wall of trough 1, guarantee that fodder or water do not fall into layer board 2 below.

The left side of the trough 1 is provided with a water inlet 3, the inner wall of the water inlet 3 is positioned on the right side of a water inlet turning plate 7 and is provided with a guide groove, the height of the water inlet 3 is higher than that of a water outlet 10, water drainage is facilitated, a water inlet separation plate 4 is arranged inside the water inlet 3 and is used for controlling water inlet, the bottom of the water inlet separation plate 4 is provided with a containing groove corresponding to a movable rod 5, the side surface of the water inlet separation plate 4 is provided with a through hole corresponding to the water inlet 3, the bottom of the water inlet separation plate 4 is inserted with the movable rod 5, a connecting rod 6 is fixedly connected between the movable rod 5 and a supporting plate 2, the water inlet turning plate 7 is movably installed on the side surface of the water inlet separation plate 4, the diameter of the water inlet turning plate 7 is the same as that of the water inlet 3, the top of the water inlet separation plate 4 is hinged with a hook rod 8, the hook point of the hook rod 8 is rightwards, the hook rod 8 is arranged above a rack 9, the top of the trough 1 is movably connected with a rack 9, the tooth direction of the rack 9 is towards the left.

The outlet 10 has been seted up on the right side of trough 1, control chamber 11 and movable slideway 12 have been seted up to the inside of trough 1 right side wall, sliding connection has drainage baffler 13 between control chamber 11 and the movable slideway 12, the length of drainage baffler 13 is greater than the distance of diapire to the interior roof of outlet 10 in the control chamber 11, the curb plate movable mounting of drainage baffler 13 has the drainage to turn over board 14, the diameter that the drainage turned over board 14 is the same with the diameter of outlet 10, the left side fixedly connected with of drainage baffler 13 carries piece 15.

The forced part 16 is placed in the control cavity 11, the right side of the forced part 16 is fixedly connected with a shell 17, the bottom of the shell 17 is provided with an opening, the inner left wall of the shell 17 is provided with teeth in a downward direction, the inside of the shell 17 is movably connected with a gear 18, the teeth outside the gear 18 are distributed clockwise, the front side of the gear 18 is fixedly connected with a supporting rod 19, the inside of the shell 17 and the right side of the gear 18 are movably connected with a sliding rod 20, the left side of the sliding rod 20 is provided with teeth in a downward direction, the teeth are one fourth of the circumference of the gear 18, the front side of the sliding rod 20 is provided with a sliding groove, the length of the sliding groove is greater than that of the left side teeth of the sliding rod 20, the right side of the bottom of the supporting plate 2 is fixedly connected with a magnetic control 21, and the forced part 16 are magnetically connected through a magnet.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a timely cleaning device of trough residual feed is bred to cattle, includes trough (1), its characterized in that: the water-saving and water-saving type food-taking device is characterized in that a supporting plate (2) is movably mounted on the inner side of a food-taking groove (1), a water inlet (3) is formed in the left side of the food-taking groove (1), a water inlet blocking plate (4) is arranged inside the water inlet (3), a movable rod (5) is inserted into the bottom of the water inlet blocking plate (4), a connecting rod (6) is fixedly connected between the movable rod (5) and the supporting plate (2), a water inlet turning plate (7) is movably mounted on the side face of the water inlet blocking plate (4), a hook rod (8) is hinged to the top of the water inlet blocking plate (4), a rack (9) is movably connected to the top of the food-taking groove (1), a water outlet (10) is formed in the right side of the food-taking groove (1), a control cavity (11) and a movable slideway (12) are formed in the inner side wall of the food-taking groove (1), a water drainage blocking plate (13) is slidably connected between the control cavity (11) and the movable slideway (12), a drainage turning plate (14) is movably mounted on a side plate of the drainage blocking plate (13), a lifting block (15) is fixedly connected to the left side of the drainage blocking plate (13), a stress piece (16) is placed in the control cavity (11), a shell sleeve (17) is fixedly connected to the right side of the stress piece (16), a gear (18) is movably connected to the inside of the shell sleeve (17), a supporting rod (19) is fixedly connected to the front side of the gear (18), a sliding rod (20) is movably connected to the right side, located in the gear (18), of the inside of the shell sleeve (17), and a magnetic control piece (21) is fixedly connected to the right side of the bottom of the supporting plate (2);

the bottom of the supporting plate (2) is fixedly connected with a spring, and the supporting plate (2) is tightly attached to the inner wall of the feed trough (1);

the top of the trough (1) and the right side of the water inlet blocking plate (4) are fixedly connected with a limiting block;

the tooth direction of the rack (9) is leftward, and the hook tip of the hook rod (8) is rightward;

the diameter of the water inlet turning plate (7) is the same as that of the water inlet (3), and the diameter of the water discharge turning plate (14) is the same as that of the water discharge opening (10);

the magnetic control piece (21) is magnetically connected with the stressed piece (16) through a magnet;

the inner left wall of the shell sleeve (17) is provided with teeth in a downward direction, and the teeth outside the gear (18) are distributed clockwise;

the left side of the sliding rod (20) is provided with teeth in a downward direction, and the front side of the sliding rod (20) is provided with a sliding groove.

Images