CN117044650A - Mulberry leaf laying hen feeding device and feeding method - Google Patents

Abstract

The invention discloses a mulberry leaf laying hen feeding device, which relates to the technical field of mulberry leaf laying hen feeding and comprises a feeding mechanism, wherein one side of the feeding mechanism is provided with a processing mechanism, the processing mechanism comprises a liquid storage tank, an ammonia concentration sensor and a first mounting block, a diverter is fixedly penetrated through the front surface of the inner wall of the liquid storage tank, a pressure release valve is arranged at a through hole at the top of a tank cover, a one-way valve is arranged at the input end of the diverter, a connecting pipe is arranged at the input end of the one-way valve, a fan is arranged at the input end of the connecting pipe, a hose is arranged at the input end of the fan, a multi-way pipe is arranged at the input end of the hose, a controller main body is arranged at one side of the liquid storage tank, and a steel wire mesh is arranged at the top of the annular block. According to the invention, the treatment mechanism is arranged, so that ammonia mixed in the internal gas of the breeding can be removed for reaction, and the growth speed and survival rate of the mulberry leaf laying hen are effectively ensured, thereby effectively improving the use efficiency of the breeding device.

Description

Mulberry leaf laying hen feeding device and feeding method

Technical Field

The invention relates to the technical field of feeding of mulberry leaf laying hens, in particular to a feeding device and a feeding method of mulberry leaf laying hens.

Background

The mulberry leaf chicken raising farm can directly use the raising device when feeding the mulberry leaf chickens, so that the feeder does not need to intermittently feed the feed, and the labor capacity of the feeder is greatly reduced.

The existing feeding device for the mulberry leaf chickens can well realize feeding operation on the mulberry leaf chickens in the actual use process, and does not need to intermittently feed feeds by a feeder, so that the labor capacity of the feeder is reduced, the mulberry leaf chickens can be fed at She Ji, but the feeding device does not have a gas degree treatment mechanism, when the mulberry leaf chickens are continuously fed, the mulberry leaf chickens can also remove more feces, if the feces cannot be discharged in time, the feces can be decomposed and deteriorated, a large amount of ammonia gas is generated in the feeding device, wherein the ammonia gas stimulates the air pipes of the chickens, and causes tracheitis, conjunctivitis, ascites and the like, and the infection probability of coccidiosis is also increased, so that the growth speed and the survival rate of the mulberry leaf chickens are reduced, namely the use efficiency of the feeding device is reduced.

Therefore, a new feeding device for mulberry leaf laying hens needs to be provided so as to solve the problems set forth in the above.

Disclosure of Invention

The invention aims to provide a mulberry leaf laying hen feeding device, which aims to solve the problems that the existing feeding device provided by the background art does not have a gas degree treatment mechanism, namely a large amount of ammonia gas generated in a breeding farm due to fecal degradation can not be treated, so that the growth speed and survival rate of the mulberry leaf laying hen are affected, namely the service efficiency of the feeding device is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: a mulberry leaf layer feeding device comprises a feeding mechanism, wherein a processing mechanism is arranged on one side of the feeding mechanism;

the processing mechanism comprises a liquid storage tank, an ammonia concentration sensor and a first mounting block, wherein the front surface of the inner wall of the liquid storage tank is fixedly penetrated with a flow divider, the top of the liquid storage tank is provided with a tank cover, the front surface and the rear surface of the tank cover are both fixedly provided with connecting blocks, a pressure release valve is arranged at a top through hole of the tank cover, a one-way valve is arranged at the input end of the flow divider, a connecting pipe is arranged at the input end of the one-way valve, a fan is arranged at the input end of the connecting pipe, two second mounting blocks are fixed at the bottom of the liquid storage tank, a hose is arranged at the input end of the fan, a plurality of fixing pieces are fixedly sleeved on the outer wall of the multi-way pipe in an equidistant distribution manner, a controller main body is arranged at one side of the liquid storage tank, an annular block is arranged at the position, close to the top, and a steel wire mesh is arranged at the top of the annular block.

Preferably, the one end that the shunt kept away from the check valve slides and inlays to establish at the inner wall rear surface of liquid reserve tank, the fan is installed at the top of first installation piece, two the connecting block is all installed respectively at the front surface, the rear surface of liquid reserve tank through the screw, and the convenience can be fixed the liquid reserve tank on the mounting bracket under the effect of connecting block.

Preferably, the controller main body is electrically connected with the ammonia concentration sensor, and the fan is electrically connected with the controller main body, so that whether the fan is started or stopped can be controlled under the cooperation of the controller main body and the ammonia concentration sensor.

Preferably, the feeding mechanism comprises a mounting frame, the first mounting blocks are mounted on one side of the mounting frame, each second mounting block is mounted on one side of the mounting frame, each fixing piece is mounted on one side of the mounting frame, and the multi-way pipe can be stably fixed on the mounting frame under the action of the fixing pieces.

Preferably, one side of mounting bracket is fixed with the support frame, the blowing box is installed at the top of support frame, ammonia concentration sensor installs the positive surface at the blowing box, the top of mounting bracket is fixed with two symmetrical mount pad, two be provided with single-head pipe between the inside of mount pad, two the mount pad is all installed at the top, the plectane is installed to the opening part of single-head pipe, the inside of single-head pipe is provided with the auger, conveniently under the cooperation of auger, motor, single-head pipe and plectane, can guarantee that the fodder has all been stored to the inside one end of keeping away from the motor of single-head pipe of one end to single-head pipe inside.

Preferably, one end of the auger is rotationally embedded on the front surface of the inner wall of the single-head pipe, the other end of the auger movably penetrates through the front surface of the circular plate, one of the front surface of the auger is provided with a motor, the output end of the motor is installed with the other end of the auger, the outer wall of the single-head pipe is fixedly penetrated with a guide shell, the outer wall of the guide shell movably penetrates through a stop block, the outer wall of the single-head pipe is fixedly penetrated with a feeding pipe, and feed discharged from the output end of the discharging box can be guided into the single-head pipe under the action of the feeding pipe.

Preferably, the output of blowing box contacts with the top of inlet pipe, one side activity of inlet pipe is run through and is had the fixture block, the downside of support frame is fixed with first L type piece, first electric putter is installed to one side that first L type piece is close to the fixture block, first electric putter's flexible end is installed with one side of fixture block mutually, the top of mounting bracket is fixed with two symmetrical second L type pieces, two second electric putter is all installed to one side of second L type piece, conveniently under the cooperation of second electric putter and second L type piece, can drive the dog and carry out back-and-forth movement operation.

Preferably, the one side that fan was kept away from to the mounting bracket is installed main control unit, first electric putter, motor and two second electric putter all with main control unit electric connection, the rectangular hole has been seted up to one side of support frame, the inside in rectangular hole is provided with the baffle, the one side screw thread that main control unit was kept away from to the support frame runs through there is fixing bolt, fixing bolt's one end offsets with the surface of baffle, the fixed surface of support frame has the bottom plate, can let the bottom of battery keep away from the bottom of plant under the effect of bottom plate, avoids the battery bottom to wet promptly effectively.

Preferably, the bottom of baffle slides and inlays the top of establishing at the bottom plate, the top of bottom plate is provided with the battery, main control unit and controller main part all with battery electric connection, the inside of mounting bracket is provided with the storage shell, and the bottom of storage shell is in same horizontal plane with the bottom of mounting bracket, conveniently under the effect of storage shell, can supply mulberry leaf laying hen to feed the operation.

A feeding method of a mulberry leaf laying hen feeding device comprises the following steps:

s1, when ammonia in a farm is required to be removed for reaction, the controller main body is directly used for controlling the on-off of a motor through the cooperation of an ammonia concentration sensor, then the air in the farm is sucked away through the cooperation of a fan, a multi-way pipe and a hose, the sucked air in the farm is guided into the liquid storage tank through the cooperation of a connecting pipe, a one-way valve and a flow divider, and then the ammonia mixed in the air is removed for reaction through liquid in the liquid storage tank;

s1, when the feed in the feed box is required to be fed into a conveying and storing shell, the feed in the feed box is fed into the single-head pipe by directly utilizing the cooperation of a main controller, a clamping block, a first L-shaped block and a first electric push rod, and then the feed is stored from one end of the inner part of the single-head pipe to one end of the inner part of the single-head pipe far away from the motor by the cooperation of the main controller, the motor, a circular plate, the guide shell, a stop block, the single-head pipe and an auger;

s3, then through the cooperation of the main controller, the second electric push rod and the second L-shaped block, the stop block is directly moved out of the guide shell, and finally the feed in the single-head pipe is uniformly conveyed into the storage shell through the guide shell.

Compared with the prior art, the invention has the beneficial effects that:

1. the processing mechanism is arranged, so that ammonia mixed in the internal gas of the breeding can be removed for reaction, the growth speed and survival rate of the mulberry leaf laying hen can be effectively ensured, the service efficiency of the breeding device can be effectively improved, when the ammonia in the breeding farm is required to be removed for reaction, the operation of opening and closing the fan can be realized by directly utilizing the cooperation of the controller main body and the ammonia concentration sensor, then under the cooperation of the started fan, the multi-way pipe, the hose, the connecting pipe, the one-way valve and the flow divider, the gas in the breeding farm can be guided into the liquid storage tank, and then under the action of liquid in the liquid storage tank, the ammonia mixed in the gas can be removed for reaction;

2. through setting up feeding mechanism, can evenly carry the fodder in the blowing box into the storing shell for the laying hen of folium Mori carries out the feeding operation, guaranteed that the fodder is not piled up together, made things convenient for the eating of laying hen of folium Mori, when the fodder in the blowing box is for carrying the storing shell, utilize main control unit, fixture block, first L type piece and first electric putter's cooperation at this moment, can realize carrying the fodder in the blowing box to the inside of single head pipe at first, then through main control unit, a motor, the plectane, the shell body, the dog, the cooperation of single head pipe and auger, can realize storing the fodder with the inside one end of single head pipe to the inside one end that keeps away from the motor of single head pipe;

3. through the cooperation at main control unit, second electric putter and second L type piece, can realize shifting out the dog from the inside of shell body, then under the effect of shell body, can give the fodder of single head intraductal portion and evenly carry the storage shell, both guarantee that the fodder in the blowing box can even in the storage shell, the operation of feeding of mulberry leaf laying hen of being convenient for.

Drawings

FIG. 1 is a perspective view of a mulberry leaf layer feeding device of the present invention;

FIG. 2 is another perspective view of a feeding device for mulberry leaf laying hens of the present invention;

FIG. 3 is a partial perspective view of a processing mechanism of the mulberry leaf layer feeding device of the present invention;

FIG. 4 is an enlarged perspective view of the feeding device for the mulberry leaf layer in FIG. 1A;

FIG. 5 is an enlarged perspective view of the feeding device for the mulberry leaf layer in FIG. 2 at B;

FIG. 6 is a perspective view, partially in section, of a feeding mechanism of a mulberry leaf layer feeding device of the present invention;

FIG. 7 is a perspective view of a feeding mechanism part of the feeding device for the mulberry leaf layer chicken of the invention;

FIG. 8 is a schematic perspective view of a baffle shell and a stopper of the feeding device for mulberry leaf layer chicken of the present invention.

In the figure:

1. a feeding mechanism; 101. a mounting frame; 102. a support frame; 103. a discharging box; 104. a mounting base; 105. a single-ended tube; 106. a fixing frame; 107. a circular plate; 108. an auger; 109. a motor; 110. a diversion shell; 111. a stop block; 112. a feed pipe; 113. a clamping block; 114. a first L-shaped block; 115. a first electric push rod; 116. a second L-shaped block; 117. a second electric push rod; 118. a main controller; 119. a rectangular hole; 120. a baffle; 121. a fixing bolt; 122. a storage battery; 123. a storage shell; 124. a bottom plate; 2. a processing mechanism; 201. a liquid storage tank; 202. a shunt; 203. a case cover; 204. a pressure release valve; 205. a one-way valve; 206. a connecting pipe; 207. a blower; 208. an ammonia concentration sensor; 209. a first mounting block; 210. a second mounting block; 211. a connecting block; 212. a multi-way pipe; 213. a fixing member; 214. a controller main body; 215. an annular block; 216. a steel wire mesh; 217. and (3) a hose.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, there is shown: a mulberry leaf layer feeding device comprises a feeding mechanism 1, wherein one side of the feeding mechanism 1 is provided with a processing mechanism 2;

the processing mechanism 2 comprises a liquid storage tank 201, an ammonia concentration sensor 208 and a first mounting block 209, wherein the front surface of the inner wall of the liquid storage tank 201 is fixedly penetrated with a flow divider 202, the top of the liquid storage tank 201 is provided with a tank cover 203, the front surface and the rear surface of the tank cover 203 are both fixedly provided with a connecting block 211, a pressure release valve 204 is arranged at a through hole at the top of the tank cover 203, a one-way valve 205 is arranged at the input end of the flow divider 202, a connecting pipe 206 is arranged at the input end of the one-way valve 205, a fan 207 is arranged at the input end of the connecting pipe 206, two second mounting blocks 210 are fixed at the bottom of the liquid storage tank 201, a hose 217 is arranged at the input end of the fan 207, a plurality of fixing pieces 213 are fixedly sleeved on the outer wall of the multi-way pipe 212 in an equidistant distribution manner, a controller main body 214 is arranged at one side of the liquid storage tank 201, an annular block 215 is arranged at a position close to the top, and a steel wire mesh 216 is arranged at the top of the annular block 215.

According to the embodiment shown in fig. 2, 3 and 5, one end of the shunt 202 far away from the check valve 205 is slidably embedded in the rear surface of the inner wall of the liquid storage tank 201, the fan 207 is mounted on the top of the first mounting block 209, and the two connecting blocks 211 are respectively mounted on the front surface and the rear surface of the liquid storage tank 201 through screws, so that the liquid storage tank 201 can be conveniently fixed on the mounting frame 101 under the action of the connecting blocks 211.

According to fig. 2, 3 and 5, the controller main body 214 is electrically connected with the ammonia concentration sensor 208, and the fan 207 is electrically connected with the controller main body 214, so that whether the fan 207 is opened or closed can be controlled under the cooperation of the controller main body 214 and the ammonia concentration sensor 208.

According to the embodiment shown in fig. 1, 2 and 5, the feeding mechanism 1 comprises a mounting frame 101, a first mounting block 209 is mounted on one side of the mounting frame 101, each second mounting block 210 is mounted on one side of the mounting frame 101, each fixing member 213 is mounted on one side of the mounting frame 101, and the multi-way pipe 212 can be stably fixed on the mounting frame 101 under the action of the fixing members 213.

According to the illustration of fig. 2 and fig. 4-7, a supporting frame 102 is fixed on one side of a mounting frame 101, a discharging box 103 is mounted on the top of the supporting frame 102, an ammonia concentration sensor 208 is mounted on the front surface of the discharging box 103, two symmetrical mounting seats 104 are fixed on the top of the mounting frame 101, a single-head pipe 105 is arranged between the interiors of the two mounting seats 104, a fixing frame 106 is mounted on the top of each mounting seat 104, a circular plate 107 is mounted at the opening of the single-head pipe 105, a packing auger 108 is arranged in the single-head pipe 105, and feed can be conveniently stored from one end inside the single-head pipe 105 to one end, far away from the motor 109, of the single-head pipe 105 under the cooperation of the packing auger 108, the motor 109, the single-head pipe 105 and the circular plate 107.

According to the figures 2 and 6-8, one end of the auger 108 is rotatably embedded on the front surface of the inner wall of the single-head pipe 105, the other end of the auger 108 movably penetrates through the front surface of the circular plate 107, a motor 109 is mounted on the surface of one mounting seat 104, the output end of the motor 109 is mounted with the other end of the auger 108, a guide shell 110 is fixedly penetrated through the outer wall of the single-head pipe 105, a stop block 111 is movably penetrated through the outer wall of the guide shell 110, a feed pipe 112 is fixedly penetrated through the outer wall of the single-head pipe 105, and feed discharged from the output end of the discharge box 103 can be guided into the single-head pipe 105 under the action of the feed pipe 112.

According to the embodiment shown in fig. 2, fig. 5 and fig. 7, the output end of the discharging box 103 contacts with the top of the feeding pipe 112, one side of the feeding pipe 112 movably penetrates through the clamping block 113, a first L-shaped block 114 is fixed at the lower side of the supporting frame 102, a first electric push rod 115 is installed at one side of the first L-shaped block 114 close to the clamping block 113, a telescopic end of the first electric push rod 115 is installed at one side of the clamping block 113, two symmetrical second L-shaped blocks 116 are fixed at the top of the mounting frame 101, and second electric push rods 117 are installed at one sides of the two second L-shaped blocks 116, so that the stop block 111 can be driven to move forward and backward under the cooperation of the second electric push rods 117 and the second L-shaped blocks 116.

According to the illustration of fig. 2-7, the main control 118 is installed to the one side that the fan 207 was kept away from to mounting bracket 101, first electric putter 115, motor 109 and two second electric putter 117 all with main control 118 electric connection, rectangular hole 119 has been seted up to one side of support frame 102, the inside in rectangular hole 119 is provided with baffle 120, the one side screw thread that the support frame 102 kept away from main control 118 has through fixing bolt 121, fixing bolt 121's one end offsets with baffle 120's surface, the fixed surface of support frame 102 has bottom plate 124, can let the bottom of battery 122 keep away from the bottom of plant under the effect of bottom plate 124, avoid the battery 122 bottom to wet promptly effectively.

According to the embodiment shown in fig. 2, fig. 4, fig. 5 and fig. 7, the bottom of the baffle 120 is slidably embedded in the top of the bottom plate 124, the top of the bottom plate 124 is provided with the storage battery 122, the main controller 118 and the controller main body 214 are electrically connected with the storage battery 122, the storage shell 123 is arranged in the installation frame 101, the bottom of the storage shell 123 and the bottom of the installation frame 101 are in the same horizontal plane, and the feeding operation of the mulberry leaf laying hens can be conveniently performed under the action of the storage shell 123.

In the invention, when the feeding operation of the mulberry leaf laying hen is needed, the feeding device is directly moved to the inside of the farm, the prepared mulberry leaf laying hen feed is directly fed to the inside of the feed box 103, then the controller main body 214 is opened, the ammonia concentration threshold and the using program are set, meanwhile, the main controller 118 (namely the PLC controller) is also opened, the using program and the time for opening and closing the motor 109 are set, the box cover 203 is simultaneously removed, a proper amount of acetic acid solution is injected into the inside of the liquid storage tank 201, then the box cover 203 is installed back to the initial position, when everything is ready, the cooperation of the main controller 118 and the storage battery 122 is directly utilized, the first electric push rod 115 is started, the started first electric push rod 115 directly drives the clamping block 113 to be removed from the inside of the feed pipe 112 under the cooperation of the first L-shaped block 114, when the side of the clamping block 113 far away from the first L-shaped block 114 is just in the same plane with the interior of the feeding pipe 112, the main controller 118 directly closes the first electric push rod 115, at the moment, the feed in the feeding box 103 directly flows out from the output of the feeding box 103, is conveyed into the interior of the feeding pipe 112 and then into the interior of the single-head pipe 105, at the same time, the main controller 118 directly starts the motor 109, at the moment, the started motor 109 directly drives the auger 108 to rotate under the cooperation of the mounting seat 104 connected with the main controller 118, the rotating auger 108 directly conveys the feed conveyed into the single-head pipe 105 to the end of the single-head pipe 105 far away from the motor 109 under the cooperation of the single-head pipe 105, the guide shell 110, the stop block 111 and the circular plate 107, when the time of the main controller 118 starts the motor 109, the main controller 118 directly closes the motor 109, simultaneously, the first electric push rod 115 is started to drive the clamping block 113 to reset to the initial position, then the first electric push rod 115 is closed, meanwhile, the feed is just stored from one end to the other end of the inside of the single-head pipe 105, when the main controller 118 closes the motor 109, the main controller 118 directly synchronously starts two second electric push rods 117, the two started second electric push rods 117 directly move out of the baffle 111 from the inside of the guide shell 110 together under the cooperation of the second L-shaped block 116 connected with the main controller, when one side of the baffle 111 moves out of the inside of the guide shell 110, the main controller 118 directly synchronously closes the two second electric push rods 117 at the moment, when the baffle 111 completes the moving operation, the feed in the single-head pipe 105 is directly guided into the inside of the guide shell 110 and then is uniformly guided into the inside of the storage shell 123, when the fodder in the single-head pipe 105 is completely guided out, at this moment, the main controller 118 directly resets the stop block 111 to the initial position through the cooperation of the second electric push rod 117, the cultivated mulberry leaf laying hen can eat the fodder on the storage shell 123, when more mulberry leaf laying hen manure is accumulated in the farm, a large amount of ammonia gas is emitted in the farm due to the manure degradation and deterioration, meanwhile, under the condition that the controller main body 214 is started, the ammonia gas concentration sensor 208 also monitors the concentration of ammonia gas in the farm constantly, the detected concentration data is transmitted to the inside of the controller main body 214 in an electric signal mode, when the controller main body 214 receives the ammonia gas concentration data, the controller main body 214 directly compares the received ammonia gas concentration data with the ammonia gas concentration threshold value set in advance by the controller main body 214, when the ammonia concentration data received by the controller main body 214 is lower than the ammonia concentration threshold value set by the controller main body 214 in advance, the controller main body 214 will not start the fan 207 at this time, when the controller main body 214 receives ammonia concentration data higher than the ammonia concentration threshold value set by the controller main body 214 in advance, the controller main body 214 will directly start the fan 207 under the cooperation of the storage battery 122 at this time, the input end of the started fan 207 will generate more suction force, then each input end of the multi-way pipe 212 is directly enabled to obtain suction force through the cooperation of the hose 217, then each input end of the movable suction multi-way pipe 212 can directly feed the farm gas of filtering dust and foreign matters into the suction hose 217, then is collected and guided into the interior of the hose 217, then is conveyed into the interior of the connecting pipe 206, then is conveyed into the interior of the one-way valve 205, then is directly conveyed into the interior of the diverter 202, finally is sprayed out of each output end on the diverter 202, and is evenly conveyed into the acetic acid solution on the tank 201, when the gas in the farm is contacted with the acetic acid solution, the liquid storage solution, each input end of the multi-way pipe 212 directly obtains suction force, then each input end of the multi-way pipe 212 directly filters the filtered dust and foreign matters, and the air in the interior of the tank 201 is directly filtered into the interior of the hose 217, and the interior of the ammonia tank 201 is effectively removed, thereby effectively affecting the interior of the tank 201.

The motor 109, the first electric putter 115, the second electric putter 117, the main controller 118, the battery 122, the pressure release valve 204, the check valve 205, the blower 207, the ammonia concentration sensor 208, and the controller main body 214 are all of the prior art, and will not be explained here too much.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. A mulberry leaf laying hen feeding device which is characterized in that: the device comprises a feeding mechanism (1), wherein a processing mechanism (2) is arranged on one side of the feeding mechanism (1);

the utility model provides a processing mechanism (2) is including liquid reserve tank (201), ammonia concentration sensor (208) and first installation piece (209), the positive fixed surface of inner wall of liquid reserve tank (201) runs through there is shunt (202), the top of liquid reserve tank (201) is provided with case lid (203), the positive surface and the rear surface of case lid (203) all are fixed with connecting block (211), relief valve (204) are installed in top through-hole department of case lid (203), check valve (205) are installed to the input of shunt (202), connecting pipe (206) are installed to the input of check valve (205), fan (207) are installed to the input of connecting pipe (206), the bottom of liquid reserve tank (201) is fixed with two second installation pieces (210), hose (217) are installed to the input of fan (207), multiple-pass pipe (212) are installed to the input of hose (217), multiple fixed piece (213) have been cup jointed in the equidistance distribution of the outer wall equidistance of multiple-pass pipe (212), one side controller (214) of liquid reserve tank (201) main part installs connecting pipe (215), ring-shaped piece (215) are installed near top (215).

2. The mulberry leaf layer feeding device of claim 1, wherein: one end of the diverter (202) away from the one-way valve (205) is slidably embedded in the rear surface of the inner wall of the liquid storage tank (201), the fan (207) is mounted on the top of the first mounting block (209), and the two connecting blocks (211) are mounted on the front surface and the rear surface of the liquid storage tank (201) respectively through screws.

3. The mulberry leaf layer feeding device of claim 1, wherein: the controller main body (214) is electrically connected with the ammonia concentration sensor (208), and the fan (207) is electrically connected with the controller main body (214).

4. The mulberry leaf layer feeding device of claim 1, wherein: feeding mechanism (1) is including mounting bracket (101), first installation piece (209) are installed in one side of mounting bracket (101), every second installation piece (210) are all installed in one side of mounting bracket (101), every mounting (213) are all installed in one side of mounting bracket (101).

5. The feeding device for mulberry leaf layer chicken of claim 4, wherein: one side of mounting bracket (101) is fixed with support frame (102), blowing box (103) are installed at the top of support frame (102), ammonia concentration sensor (208) are installed on the positive surface of blowing box (103), the top of mounting bracket (101) is fixed with two symmetrical mount pad (104), two be provided with single head pipe (105) between the inside of mount pad (104), two mount pad (104) top is all installed mount bracket (106), plectane (107) are installed in the opening part of single head pipe (105), the inside of single head pipe (105) is provided with auger (108).

6. The feeding device for mulberry leaf layer chicken of claim 5, wherein: one end of auger (108) rotates and inlays to be established at the inner wall front surface of single head pipe (105), the other end activity of auger (108) runs through the front surface of plectane (107), one of them surface mounting of mount pad (104) has motor (109), the output of motor (109) is installed with the other end of auger (108) mutually, the outer wall of single head pipe (105) is fixed to be run through has shell body (110), the outer wall activity of shell body (110) is run through has dog (111), the outer wall of single head pipe (105) is fixed to be run through has inlet pipe (112).

7. The feeding device for mulberry leaf layer chicken of claim 6, wherein: the discharging box is characterized in that the output end of the discharging box (103) is in contact with the top of the feeding pipe (112), a clamping block (113) is movably penetrated through one side of the feeding pipe (112), a first L-shaped block (114) is fixed on the lower side of the supporting frame (102), a first electric push rod (115) is installed on one side, close to the clamping block (113), of the first L-shaped block (114), the telescopic end of the first electric push rod (115) is installed on one side of the clamping block (113), two symmetrical second L-shaped blocks (116) are fixed on the top of the mounting frame (101), and second electric push rods (117) are installed on one sides of the two second L-shaped blocks (116).

8. The mulberry leaf layer feeding device of claim 7, wherein: main control unit (118) are installed to one side that fan (207) was kept away from to mounting bracket (101), first electric putter (115), motor (109) and two second electric putter (117) all with main control unit (118) electric connection, rectangular hole (119) have been seted up to one side of support frame (102), the inside of rectangular hole (119) is provided with baffle (120), one side screw thread that main control unit (118) was kept away from to support frame (102) has run through fixing bolt (121), the one end of fixing bolt (121) offsets with the surface of baffle (120), the fixed surface of support frame (102) has bottom plate (124).

9. The mulberry leaf layer feeding device of claim 8, wherein: the bottom of baffle (120) slides and inlays the top of establishing in bottom plate (124), the top of bottom plate (124) is provided with battery (122), main control unit (118) and controller main part (214) all with battery (122) electric connection, the inside of mounting bracket (101) is provided with storage shell (123), and the bottom of storage shell (123) is in same horizontal plane with the bottom of mounting bracket (101).

10. A feeding method of a mulberry leaf layer feeding device, characterized in that a mulberry leaf layer feeding device according to any one of claims 1-9 is used, comprising the steps of:

s1, when ammonia in a farm is required to be removed for reaction, the controller main body (214) and the ammonia concentration sensor (208) are directly used for controlling the on-off of the motor (109), then the fan (207), the multi-way pipe (212) and the hose (217) are used for matching to suck the air in the farm, and then the connecting pipe (206), the one-way valve (205) and the shunt (202) are used for matching to guide the absorbed farm air into the liquid storage tank (201), and then the ammonia mixed in the air is removed for reaction through the liquid in the liquid storage tank (201);

s2, when the feed in the feed box (103) is required to be fed into a conveying and storing shell (123), the feed in the feed box (103) is fed into the single-head pipe (105) by directly utilizing the cooperation of a main controller (118), a clamping block (113), a first L-shaped block (114) and a first electric push rod (115), and then the feed is stored from one end inside the single-head pipe (105) to one end inside the single-head pipe (105) far away from the motor (109) by the cooperation of the main controller (118), a motor (109), a circular plate (107), a guide shell (110), a stop block (111), the single-head pipe (105) and a packing auger (108);

s3, directly removing the stop block (111) from the inside of the guide shell (110) through the matching of the main controller (118), the second electric push rod (117) and the second L-shaped block (116), and finally uniformly conveying the feed in the single-head pipe (105) into the storage shell through the guide shell (110).