CN210746643U - Sow feeding machine with equivalent feeding function - Google Patents

Abstract

The utility model provides a sow machine of feeding with equivalent function of feeding, a serial communication port includes the casing, dry feed bin, wet feed bin, dry material graduated flask, wet material graduated flask, dry wet material mixes the machine, the unloading pipe, manger and bottom plate, dry feed bin and wet feed bin are installed at the casing top, dry feed bin below is provided with dry material graduated flask, wet feed bin below is provided with wet material graduated flask, dry material graduated flask and wet material graduated flask below are provided with dry wet material and mix the machine, dry wet material mixes quick-witted bottom connection with the unloading pipe, the unloading pipe bottom is provided with the manger, the manger below is provided with the bottom plate, the manger comprises cell body and water conveying ring, the water conveying ring sets up at the cell body top, prevent the fodder in the feed bin to go bad and go mildy through setting up dry feed bin and wet feed bin separation, dry material graduated flask and wet material volume measure the every turn volume of discharging, ensure ejection of compact equivalent, dry material can be with dry material, The wet material is discharged after mixing, and the manger can regularly wash the manger by the manger water delivery ring, prevents that remaining fodder in the manger from breeding the bacterium.

Description

Sow feeding machine with equivalent feeding function

Technical Field

The utility model relates to a sow field of feeding especially relates to a sow machine of feeding with equivalent function of feeding.

Background

With the technical support, the feeding of the sows is performed by machines instead of people, and people can feed the sows individually according to different periods of the sows, so that the amount of the fed sows at one time is mastered, and meanwhile, most of human labor force is saved due to the automation of the machines, so that the production efficiency is greatly improved, and the cost is reduced.

The equivalent function of feeding is that the fodder volume of throwing something and feeding for the sow at every turn is fixed, but the sow machine of feeding of current equivalent function of feeding all mixes dry wet material earlier, put into the feeder with it after mixing well, feed the sow again, if the sow in sweltering summer does not eat for a long time like this, the fodder in the feed bin will go bad and go mouldy, influence sow's health, and the fodder in the manger is if the sow has not in time eaten up, also can lead to breeding of bacterium, be unfavorable for sow's health.

Disclosure of Invention

According to the technical problems, the utility model provides a sow feeding machine with equivalent feeding function, which is characterized in that the sow feeding machine comprises a shell, a dry bin, a wet bin, a conduit A, a conduit B, a dry bin valve, a wet bin valve, a dry material measuring cylinder, a wet material measuring cylinder, a dry material measuring cylinder valve, a wet material measuring cylinder valve, an inclined tube A, an inclined tube B, a dry and wet material mixer, a mixer valve, a discharging tube, a feed trough, a bottom plate, a weight induction plate, a water pump and a water guide tube,

the device comprises a shell, a dry bin and a wet bin, wherein the shell is connected with a bottom plate through a support, the top of the shell is provided with the dry bin and the wet bin, the bottom of the dry bin is connected with a conduit A, the bottom of the wet bin is connected with a conduit B, the conduit B is provided with the wet bin valve, a dry material measuring cylinder is arranged below the conduit A, the bottom of the dry material measuring cylinder is connected with an inclined tube A, the inclined tube A is provided with the dry material measuring cylinder valve, the lower part of the conduit B is provided with the wet material measuring cylinder, the bottom of the wet material measuring cylinder is connected with an inclined tube B, the inclined tube B is provided with the wet material measuring cylinder valve, the lower part of the inclined tube A is connected with a dry and wet material mixer, the lower part of the dry and wet material mixer is connected with a discharging tube, the top of the discharging tube is provided with a mixer valve, and the bottom of the discharging tube is provided with a feed trough, a weight sensing plate is arranged on a bottom plate in front of the feed trough, the right side of the feed trough is connected with a water guide pipe, and the right side of the water guide pipe is connected with a water pump;

the shell is made of metal, the shell is of a shell structure with a hollow interior, two circular through grooves are formed in the top of the shell, the dry bin is mounted on the circular through grooves, the wet bin is mounted on the circular through grooves, the dry bin is made of metal, the upper portion of the dry bin is of a cylindrical structure, the lower portion of the dry bin is of a funnel structure, the wet bin is made of metal, the upper portion of the wet bin is of a cylindrical structure, the lower portion of the wet bin is of a funnel structure, the guide pipe A is made of metal, the guide pipe A is of a cylindrical pipe structure, the guide pipe A is welded to the bottom of the dry bin, the guide pipe B is made of metal, the guide pipe B is of a cylindrical pipe structure, and the guide pipe B is welded to the bottom of the wet bin;

the dry material measuring cylinder is made of metal, the upper part of the dry material measuring cylinder is of a cylindrical structure, the lower part of the dry material measuring cylinder is of a funnel structure, the dry material measuring cylinder is connected to the inner side wall of the shell through a support, a dry material sensor is mounted at 1/3 position of the bottom of the inner wall of the dry material measuring cylinder, the wet material measuring cylinder is made of metal, the upper part of the wet material measuring cylinder is of a cylindrical structure, the lower part of the wet material measuring cylinder is of a funnel structure, the dry material measuring cylinder is connected to the inner side wall of the shell through a support, and a wet material sensor is mounted at the top of the inner wall of the wet material measuring cylinder;

the inclined tube A is made of metal, the upper part of the inclined tube A is of a cylindrical tube structure, the lower part of the inclined tube A is of an inclined cylindrical tube structure, the top of the inclined tube A is welded with the bottom of a dry material measuring cylinder, the bottom of the inclined tube A is welded with the top of a dry and wet material mixing machine, the inclined tube B is made of metal, the upper part of the inclined tube B is of a cylindrical tube structure, the lower part of the inclined tube B is of an inclined cylindrical tube structure, the top of the inclined tube B is welded with the bottom of the wet material measuring cylinder, and the bottom of the inclined tube B is welded with the top of the dry and wet material mixing machine;

the dry and wet material mixing machine is made of metal, is of a cylindrical structure, is connected to the inner side wall of the shell through a support, is provided with a motor on the left side, is internally provided with a rotating shaft and stirring pieces, is connected with the rotating shaft, is connected with the stirring pieces, is of a metal structure, is of a cylindrical structure, is rotatably connected to the motor, is of a concave-convex stirring rod structure, is provided with N stirring pieces, N is more than or equal to 2, and is welded with the rotating shaft;

the feeding pipe is made of metal, the upper part of the feeding pipe is of a cylindrical pipe structure, the lower part of the feeding pipe is of an inclined cylindrical pipe structure, and the feeding pipe is welded with the bottom of the wet and dry material mixer;

the feed trough is arranged on the bottom plate and consists of a trough body and a water delivery ring, the water delivery ring is arranged at the top of the trough body, the trough body is made of metal, the trough body is of a funnel structure, a water outlet is formed in the bottom of the trough body, a feed sensor is arranged on the left side of the water outlet in the bottom of the trough body, a water outlet pipe is connected to the bottom of the water outlet, a water discharge valve is arranged on the water discharge pipe, the water outlet is of a cylindrical through hole structure, the water discharge pipe is made of metal and is of a cylindrical structure, the water discharge pipe is welded to the bottom of the trough body, the water delivery ring is made of metal and is of an annular structure, the water delivery ring and the trough body are of an integral structure, an annular water delivery groove is formed in the water delivery ring, a water outlet hole is formed in the inner wall of the water delivery, the water outlet holes are of cylindrical through hole structures, the number of the water outlet holes is N, and N is more than or equal to 2;

the bottom plate is of a plate-shaped structure, the bottom plate is made of metal, the weight sensing plate is of a plate-shaped structure, the water guide pipe is made of metal and is of a cylindrical structure, the right side of the water guide pipe is welded with the water pump, the left side of the water guide pipe is welded with the water delivery ring, and the water guide pipe is communicated with the annular water delivery groove;

the water pump is connected with an external reservoir, the drain pipe is connected with external sewage treatment equipment, the dry material bin valve is connected with an external control system through a circuit, the wet material bin valve is connected with the external control system through a circuit, the dry material measuring cylinder valve is connected with the external control system through a circuit, the wet material measuring cylinder valve is connected with the external control system through a circuit, the mixer valve is connected with the external control system through a circuit, the drain valve is connected with the external control system through a circuit, the dry material sensor is connected with the external control system through a circuit, the wet material sensor is connected with the external control system through a circuit, the feed sensor is connected with the external control system through a circuit, the weight sensing plate is connected with the external control system through a circuit, and the motor is connected with the external control system through a circuit, the water pump is connected with an external control system through a circuit.

The utility model has the advantages that:

the utility model discloses a set up the separation of dry material storehouse and wet feed bin and prevent that the fodder in the feed bin from rotting and going mildy, inductor through setting up in dry material graduated flask and the wet material graduated flask measures the discharge at every turn, guarantee all to go out equivalent and quantitative fodder at every turn, dry wet material mixes the machine and can mix the back ejection of compact with dry material and wet material again, it is even to ensure the fodder, delivery port on the manger water delivery ring can play the purpose of regularly wasing the manger to it supplies water through the water pump aqueduct, breed the bacterium with remaining fodder in the manger in order to prevent, the manger can be a groove dual-purpose, can use as the basin when not going out the fodder.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention;

fig. 3 is a perspective view of the inside of the housing in front view of the present invention;

fig. 4 is a perspective view of the inside of the housing from the side view of the present invention;

FIG. 5 is a cross-sectional view of the main view of the wet and dry material mixer of the present invention;

FIG. 6 is a cross-sectional view of a side view of the wet and dry material mixing machine of the present invention;

FIG. 7 is a cross-sectional view of a front view of the dry material measuring cylinder of the present invention;

FIG. 8 is a cross-sectional view of a front view of the wet basis weight cylinder of the present invention;

fig. 9 is a front view of the trough of the present invention;

fig. 10 is a sectional view of the front view of the trough of the present invention;

fig. 11 is a top view of the trough of the present invention;

fig. 12 is a sectional view of a top view of the trough of the present invention;

fig. 13 is a perspective view of the trough of the present invention.

As shown in the figure: 1-dry bin, 2-wet bin, 3-conduit A, 4-conduit B, 5-dry bin valve, 6-wet bin valve, 7-dry bin, 8-wet bin, 9-dry bin valve, 10-wet bin valve, 11-inclined tube A, 12-inclined tube B, 13-motor, 14-dry and wet mixer, 15-mixer valve, 16-discharge tube, 17-trough, 18-weight sensing plate, 19-bottom plate, 20-water pump, 21-water guide tube, 22-shell, 23-rotating shaft, 24-stirring blade, 25-dry sensor, 26-wet sensor, 27-water discharge valve, 28-water discharge tube, 29-feed sensor, 30-water discharge port, 31-annular water conveying tank, 32-water outlet, 33-water conveying ring and 34-tank body.

Detailed Description

Example 1

The utility model provides a sow feeding machine with equivalent feeding function, which is characterized in that the sow feeding machine comprises a shell 22, a dry material bin 1, a wet material bin 2, a conduit A3, a conduit B4, a dry material bin valve 5, a wet material bin valve 6, a dry material measuring cylinder 7, a wet material measuring cylinder 8, a dry material measuring cylinder valve 9, a wet material measuring cylinder valve 10, an inclined tube A11, an inclined tube B12, a dry and wet material mixer 14, a mixer valve 15, a discharging tube 16, a feed trough 17, a bottom plate 19, a weight sensing plate 18, a water pump 20 and a water guide pipe 21,

the shell 22 is connected with the bottom plate 19 through a bracket, the top of the shell 22 is provided with a dry material bin 1 and a wet material bin 2, the bottom of the dry material bin 1 is connected with a guide pipe A3, the guide pipe A3 is provided with a valve of the dry material bin 1, the bottom of the wet material bin 2 is connected with a guide pipe B4, the guide pipe B4 is provided with a valve of the wet material bin 6, the lower part of the guide pipe A3 is provided with a dry material measuring cylinder 7, the bottom of the dry material measuring cylinder 7 is connected with an inclined pipe A11, the inclined pipe A11 is provided with a valve of the dry material measuring cylinder 9, the lower part of the guide pipe B4 is provided with a wet material measuring cylinder 8, the bottom of the wet material measuring cylinder 8 is connected with an inclined pipe B12, the inclined pipe B12 is provided with a valve of the wet material measuring cylinder 10, the lower part of the inclined pipe A11 is connected with a dry material mixer 14, the lower part of the inclined pipe B12 is connected with, a weight sensing plate 18 is arranged on a bottom plate 19 in front of the feed trough 17, the right side of the feed trough 17 is connected with a water guide pipe 21, and the right side of the water guide pipe 21 is connected with a water pump 20;

the shell 22 is made of metal, the shell 22 is of a hollow shell structure, two circular through grooves are formed in the top of the shell 22, the dry bin 1 is installed on the circular through grooves, the wet bin 2 is installed on the circular through grooves, the dry bin 1 is made of metal, the upper portion of the dry bin 1 is of a cylindrical structure, the lower portion of the dry bin 1 is of a funnel structure, the wet bin 2 is made of metal, the upper portion of the wet bin 2 is of a cylindrical structure, the lower portion of the wet bin 2 is of a funnel structure, the conduit A3 is made of metal, the conduit A3 is of a cylindrical pipe structure, the conduit A3 is welded to the bottom of the dry bin 1, the conduit B4 is made of metal, the conduit B4 is of a cylindrical pipe structure, and the conduit B4 is welded;

the dry material measuring cylinder 7 is made of metal, the upper part of the dry material measuring cylinder 7 is of a cylindrical structure, the lower part of the dry material measuring cylinder 7 is of a funnel structure, the dry material measuring cylinder 7 is connected to the inner side wall of the shell 22 through a support, a dry material sensor 25 is installed at the bottom 1/3 of the inner wall of the dry material measuring cylinder 7, the wet material measuring cylinder 8 is made of metal, the upper part of the wet material measuring cylinder 8 is of a cylindrical structure, the lower part of the wet material measuring cylinder 8 is of a funnel structure, the dry material measuring cylinder 7 is connected to the inner side wall of the shell 22 through a support, and a wet material sensor 26 is installed at the top of the inner;

the inclined tube A11 is made of metal, the upper part of the inclined tube A11 is of a cylindrical tube structure, the lower part of the inclined tube A11 is of an inclined cylindrical tube structure, the top of the inclined tube A11 is welded with the bottom of the dry material measuring cylinder 7, the bottom of the inclined tube A11 is welded with the top of the dry and wet material mixing machine 14, the inclined tube B12 is made of metal, the upper part of the inclined tube B12 is of a cylindrical tube structure, the lower part of the inclined tube B12 is of an inclined cylindrical tube structure, the top of the inclined tube B12 is welded with the bottom of the wet material measuring cylinder 8, and the bottom of the inclined tube B12 is welded with the top;

the dry and wet material mixing machine 14 is made of metal, the dry and wet material mixing machine 14 is of a cylindrical structure, the dry and wet material mixing machine 14 is connected to the inner side wall of the shell 22 through a support, a motor 13 is mounted on the left side of the dry and wet material mixing machine 14, a rotating shaft 23 and stirring pieces 24 are arranged inside the dry and wet material mixing machine 14, the rotating shaft 23 is connected to the motor 13, the stirring pieces 24 are connected to the rotating shaft 23, the rotating shaft 23 is made of metal, the rotating shaft 23 is of a cylindrical structure, the rotating shaft 23 is rotatably connected to the motor 13, the stirring pieces 24 are made of metal, the stirring pieces 24 are of a concave-convex stirring rod structure, the number of the stirring pieces 24 is N, the number;

the blanking pipe 16 is made of metal, the upper part of the blanking pipe 16 is of a cylindrical pipe structure, the lower part of the blanking pipe 16 is of an inclined cylindrical pipe structure, and the blanking pipe 16 is welded with the bottom of the dry and wet material mixing machine 14;

the feed trough 17 is arranged on the bottom plate 19, the feed trough 17 is composed of a trough body 34 and a water delivery ring 33, the water delivery ring 33 is arranged at the top of the trough body 34, the trough body 34 is made of metal, the trough body 34 is of a funnel structure, a water outlet 30 is arranged at the bottom of the trough body 34, a feed sensor 29 is arranged on the left side of the water outlet 30 at the bottom of the trough body 34, a water outlet pipe 28 is connected to the bottom of the water outlet 30, a water discharge valve 27 is arranged on the water outlet pipe 28, the water outlet 30 is of a cylindrical through hole structure, the water outlet pipe 28 is made of metal, the water outlet pipe 28 is welded to the bottom of the trough body 34, the water delivery ring 33 is made of metal, the water delivery ring 33 is of an annular structure, the water delivery ring 33 and the trough body 34 are of an integral structure, the annular water delivery groove 31 is arranged inside the water delivery ring, the water outlet holes 32 are of cylindrical through hole structures, the number of the water outlet holes 32 is N, and N is more than or equal to 2;

the bottom plate 19 is of a plate-shaped structure, the bottom plate 19 is made of metal, the weight sensing plate 18 is of a plate-shaped structure, the water guide pipe 21 is made of metal, the water guide pipe 21 is of a cylindrical structure, the right side of the water guide pipe 21 is welded with the water pump 20, the left side of the water guide pipe 21 is welded with the water delivery ring 33, and the water guide pipe 21 is communicated with the annular water delivery groove 31;

the water pump 20 is connected with an external reservoir, the drain pipe 28 is connected with external sewage treatment equipment, the dry material bin valve 5 is connected with an external control system through a circuit, the wet material bin valve 6 is connected with the external control system through a circuit, the dry material measuring cylinder valve 9 is connected with the external control system through a circuit, the wet material measuring cylinder valve 10 is connected with the external control system through a circuit, the mixer valve 15 is connected with the external control system through a circuit, the drain valve 27 is connected with the external control system through a circuit, the dry material sensor 25 is connected with the external control system through a circuit, the wet material sensor 26 is connected with the external control system through a circuit, the feed sensor 29 is connected with the external control system through a circuit, the weight sensing plate 18 is connected with the external control system through a circuit, the motor 13 is connected with the external control system through a circuit, and the water pump 20 is connected with the external control system through a.

Example 2

When the utility model is used, a sow walks onto the weight sensing plate 18 when needing to eat, the weight sensing plate 18 senses the weight of the sow and sends a weight signal to an external control system through a circuit, the external control system receives the weight signal and sends a control signal through the circuit to open the dry material bin valve 5 and the wet material bin valve 6, the dry material falls into the dry material measuring cylinder 7 through a conduit A3, when the dry material reaches the height of the dry material sensor 25, the dry material sensor 25 sends a signal to the external control system through the circuit, the external control system receives the signal of the dry material sensor 25 and sends a control signal through the circuit to close the dry material bin valve 5, the dry material bin 1 stops blanking, the wet material falls into the wet material measuring cylinder 8 through a conduit B4, when the wet material reaches the height of the wet material sensor 26, the wet material sensor 26 sends a signal to the external control system through the circuit, the external control system sends a control signal to close the wet material bin valve 6 through a circuit after receiving a signal of the wet material sensor 26, the wet material bin 2 stops discharging, when the dry material sensor 25 and the wet material sensor 26 send signals to the external control system through the circuit simultaneously, the external control system sends a control signal to open the dry material measuring cylinder valve 9 and the wet material measuring cylinder valve 10 through the circuit after receiving two signals of the dry material sensor 25 and the wet material sensor 26 simultaneously, dry materials fall into the dry and wet material mixing machine 14 through the inclined pipe A11, wet materials fall into the dry and wet material mixing machine 14 through the inclined pipe B12, after 10 seconds, the dry material measuring cylinder valve 9 and the wet material measuring cylinder valve 10 are automatically closed, then the signal is sent to the external control system through the circuit, the external control system receives the signal, namely, the motor 13 installed on the left side of the electric dry material mixing machine 14 is automatically opened through the circuit sending the control signal, the motor 13 drives the rotating shaft 23 to rotate, the rotating shaft 23 drives the stirring sheet 24 to rotate, the stirring sheet 24 rotates to mix dry materials and wet materials together, after 10 seconds, the external control system sends a control signal through a circuit to close the motor 13, meanwhile, a valve of the mixer is opened for 1510 seconds, then the mixer is automatically closed, the mixed feed falls into the feed trough 17 through the feeding pipe 16, a sow can eat through the feed trough 17, the sow can keep still in place when not being fully eaten, the feed sensor 29 at the bottom of the feed trough 17 detects that the food in the feed trough 17 is empty, namely, the feed sensor sends a signal to the external control system through the circuit, the external control system repeats the feeding operation after receiving the signal of the feed sensor 29 and the two signals of the weight sensing plate 18, the sow is fed again, the sow leaves the weight sensing plate 18 after finishing eating, the weight sensing plate 18 senses the reduction of the weight, namely, the signal is sent to the external control system through the circuit, the external control system sends a control signal to start the water pump 20 and the water discharge valve 2710 second after receiving the signal of the weight sensing plate 18, the water pump 20 pumps water to the annular water conveying tank 31 inside the water conveying ring 33 of the feed trough 17 through the water guide pipe 21 and discharges the water through the water outlet hole 32 connected with the water conveying tank, the wall of the flushing tank body 34 flushes residual food, then the residual food falls into the water discharge pipe 28 through the water discharge hole 30 and then is discharged to external sewage treatment equipment through the water discharge pipe 28, and then the water discharge valve 27 and the water pump 20 are automatically closed.

Because the dry material measuring cylinder 7 and the wet material measuring cylinder 8 are the same in size, the dry material sensor 25 is positioned at the bottom 1/3 of the inner wall of the dry material measuring cylinder 7, and the wet material sensor 26 is positioned at the top of the inner wall of the wet material measuring cylinder 8, the dry-wet ratio of the mixed feed fed each time is 1:3, the healthy balance of nutrition of the sows is ensured, the feeding amount each time is very small, the waste situation of the sows is prevented, if the sows are not full, the repeated feeding operation can be performed, and the sows are ensured to be full.

When the sow is not fed, the water pump 20 can be controlled by an external control system through a circuit to pump water into the feed trough 17, and the sow can be used as a water trough, so that the purpose of dual purposes of one trough is achieved.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. The utility model discloses each part that mentions is the common technique in prior art, and the technical personnel of this trade should understand, the utility model discloses do not receive the restriction of above-mentioned embodiment, the description only is the explanation in above-mentioned embodiment and the description the principle of the utility model, under the prerequisite that does not deviate from the spirit and the scope of the utility model, the utility model discloses still can have various changes and improvement, these changes and improvement all fall into the protection of claim the utility model is within the scope. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A sow feeding machine with an equivalent feeding function is characterized by comprising a shell, a dry bin, a wet bin, a guide pipe A, a guide pipe B, a dry bin valve, a wet bin valve, a dry material measuring cylinder, a wet material measuring cylinder, a dry material measuring cylinder valve, a wet material measuring cylinder valve, an inclined pipe A, an inclined pipe B, a dry and wet material mixer, a mixer valve, a discharging pipe, a feed trough, a bottom plate, a weight sensing plate, a water pump and a water guide pipe,

the dry material bin and the wet material bin are mounted at the top of the shell, the bottom of the dry material bin is connected with a guide pipe A, a dry material bin valve is mounted on the guide pipe A, the bottom of the wet material bin is connected with a guide pipe B, a wet material bin valve is mounted on the guide pipe B, a dry material measuring cylinder is arranged below the guide pipe A, an inclined pipe A is connected to the bottom of the dry material measuring cylinder, a dry material measuring cylinder valve is mounted on the inclined pipe A, a wet material measuring cylinder is arranged below the guide pipe B, an inclined pipe B is connected to the bottom of the wet material measuring cylinder, a wet material measuring cylinder valve is mounted on the inclined pipe B, a dry and wet material mixer is connected below the inclined pipe A, a dry and wet material mixer is connected below the inclined pipe B, a lower feed trough is connected to the bottom of the dry and wet material mixer, a mixer valve is mounted at the top of the feed trough, a feed trough is arranged at the bottom of the feed trough, and a weight, the right side of the feed trough is connected with a water guide pipe, and the right side of the water guide pipe is connected with a water pump;

the shell is of a shell structure with a hollow interior, two circular through grooves are formed in the top of the shell, the dry bin is mounted on the circular through grooves, the wet bin is mounted on the circular through grooves, the upper portion of the dry bin is of a cylindrical structure, the lower portion of the dry bin is of a funnel structure, the upper portion of the wet bin is of a cylindrical structure, and the lower portion of the wet bin is of a funnel structure,

the upper part of the dry material measuring cylinder is of a cylindrical structure, the lower part of the dry material measuring cylinder is of a funnel structure, a dry material sensor is mounted at 1/3 on the bottom of the inner wall of the dry material measuring cylinder, the upper part of the wet material measuring cylinder is of a cylindrical structure, the lower part of the wet material measuring cylinder is of a funnel structure, and a wet material sensor is mounted at the top of the inner wall of the wet material measuring cylinder;

the left side of the dry and wet material mixing machine is provided with a motor, the inside of the dry and wet material mixing machine is provided with a rotating shaft and a stirring sheet, the motor is connected with the rotating shaft, the rotating shaft is connected with the stirring sheet in a rotatable way, the stirring sheet is of a concave-convex stirring rod structure,

the feed trough is arranged on the bottom plate and consists of a trough body and a water delivery ring, the water delivery ring is arranged at the top of the trough body, the trough body is of a funnel structure, a water outlet is formed in the bottom of the trough body, a feed sensor is arranged on the left side of the water outlet in the bottom of the trough body, the bottom of the water outlet is connected with a water discharge pipe, a water discharge valve is arranged on the water discharge pipe, the water outlet is of a cylindrical through hole structure, the water delivery ring is of an annular structure, an annular water delivery groove is formed in the water delivery ring, a water outlet hole is formed in the inner wall of the water delivery ring, the annular water delivery groove is communicated with the water outlet hole, the annular water delivery;

the weight sensing plate is of a plate-shaped structure, and the water guide pipe is communicated with the annular water conveying groove.

2. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the housing is connected with the bottom plate through a bracket.

3. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the conduit A is welded to the bottom of the dry silo, and the conduit B is welded to the bottom of the wet silo.

4. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the dry material measuring cylinder is connected to the inner side wall of the shell through a bracket, and the dry material measuring cylinder is connected to the inner side wall of the shell through a bracket.

5. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the top of the inclined tube A is welded with the bottom of the dry material measuring cylinder, the bottom of the inclined tube A is welded with the top of the dry and wet material mixing machine, the top of the inclined tube B is welded with the bottom of the wet material measuring cylinder, and the bottom of the inclined tube B is welded with the top of the dry and wet material mixing machine.

6. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the dry and wet material mixing machine is connected to the inner side wall of the shell through a support, the number of the stirring pieces is N, N is larger than or equal to 2, and the stirring pieces are welded to the rotating shaft.

7. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the blanking pipe is welded to the bottom of the dry and wet material mixer.

8. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the drain pipe is welded to the bottom of the trough body, the water delivery ring and the trough body are of an integral structure, the number of the water outlet holes is N, and N is greater than or equal to 2.

9. The sow feeding machine with the equivalent feeding function as claimed in claim 1, wherein the right side of the water conduit is welded to a water pump, and the left side of the water conduit is welded to a water delivery ring.

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