CN219228685U - Semi-automatic lamb ware of suckleing - Google Patents

Abstract

The utility model particularly relates to the technical field of lamb breeding, and discloses a semi-automatic lamb feeder. The milk feeder comprises a milk feeder body, wherein the milk feeder body is formed by combining a shield, a rear cover, a front shield, a stirring barrel, a dragon conveying device, a heating barrel and a stirring barrel, and the shield, the rear cover, the front shield, the stirring barrel, the dragon conveying device, the heating barrel and the stirring barrel are all arranged in an independent modularized mode. The milk feeder body is formed by combining the shield, the rear cover, the front shield, the stirring barrel, the dragon conveying device, the heating barrel and the stirring barrel, and each group of structures are independently and modularly arranged to replace the existing milk feeder which is integrally arranged, so that the milk feeder has the characteristics of stable structure and convenience in installation, and is convenient for later maintenance and only needs to replace damaged components when the milk feeder is damaged.

Description

Semi-automatic lamb ware of suckleing

Technical Field

The utility model belongs to the technical field of lamb breeding, and particularly relates to a semi-automatic lamb feeder.

Background

The lamb period is a period of vigorous growth and development, effectively cultures the lamb, creates a proper feeding management environment for the lamb, makes the lamb develop towards the expected direction of people, and is an important measure for improving the production performance of the flock and bringing about high-yield flock. The colostrum is used as a feed which can not be replaced by newborn lambs, and because the colostrum contains extremely high nutrition and microorganisms, the colostrum can improve the immunity of the lambs, clear intestinal tracts, inhibit bacterial reproduction and promote meconium discharge, and enable the lambs to pass through the weak period, so that the feeding of the lambs with the colostrum is one of key measures for improving the resistance and survival rate of the lambs in time.

In the process of lamb breeding, the situation that the female sheep is not milk after delivery or dies after delivery exists, and the like, the lamb must be manually inserted into the female sheep for nursing, but the manual nursing is labor-consuming and time-consuming, and is only suitable for sheep farms with less feeding amount, so that in order to solve the problems in the prior art, people search for a long time, various solutions are provided, the existing lamb nursing devices are all integrally arranged, and the semi-automatic lamb nursing device has the problems of heavy structure, incapability of simultaneously taking into account the lambs of different ages and the like when in use, and influences the growth of the lambs.

In China, the publication number is: the utility model discloses an intelligent portable constant temperature breast-feeding device of lamb in CN 216415572U relates to the lamb breast-feeding field, including constant temperature milk case and temperature sensor and the heating piece of setting in the constant temperature milk incasement, install the controller of being connected with temperature sensor and heating piece on the constant temperature milk case, still include portable liquid reserve tank, elevating system and disinfection mechanism, through setting up a plurality of shower nozzles, drive constant temperature milk case, a plurality of milk pipes and a plurality of nipple decline through electric putter shrink, then the nipple gets into the disinfection incasement, and the apron seals the opening simultaneously. According to the technical scheme, the plurality of spray heads are matched with the water suction pipe, the water suction pump, the water distribution pipe and the water spray pipe to spray hot water for disinfection, so that the nipple is clean and sanitary, the lamb is prevented from being infected by diseases, the nipple can be directly disinfected by hot water after the device is used, workers are not required to be disinfected manually, the labor capacity of the workers is reduced, the workers are convenient to use, but the lamb feeder provided by the utility model still has the advantages of heavy structure, inconvenient movement, incapability of simultaneously considering various problems of lambs of different ages, and the like, and the problem of affecting the growth of the lambs still cannot be solved.

In China, the publication number is: CN 110214717A discloses a lamb feeding device, including organism ladder and constant temperature heating device of ascending, constant temperature heating device installs and fixes on the upper end position of organism ladder of ascending, be provided with control panel in the middle of the outside of organism ladder of ascending, infrared induction through the response pipeline makes can be fine control, and whole in the time of using is similar with current response tap, thereby more convenient in the time of feeding, and electromagnetic control valve can fine control, make the personnel control of being convenient for feed time in the time of feeding, so more convenient in the time of using, and constant heating device can effectually carry out temperature heating, make the inside milk of milk storage container keep at reasonable temperature, thereby in the time of feeding the lamb, effectively avoid the lamb to appear feeding, through holistic intelligent control, personnel intensity of labour has been alleviateed, also reduced personnel cost, thereby have fine market competition.

Disclosure of Invention

Aiming at the technical problems, the utility model aims to provide a semi-automatic lamb feeder, which is characterized in that a feeder body is formed by combining a shield, a rear cover, a front shield, a stirring barrel, a dragon conveying device, a heating barrel and a stirring barrel, and each group of structures are independently and modularly arranged to replace the existing integrally arranged feeder, so that the semi-automatic lamb feeder has the characteristics of stable structure and convenient installation, and is convenient for later maintenance and only needs to replace damaged components when the feeder is damaged.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a semi-automatic lamb feeder, includes the feeder body, the feeder body is formed by guard shield, back lid, preceding guard shield, agitator, flood dragon conveyor, heating barrel and agitator combination, guard shield, back lid, preceding guard shield, agitator, flood dragon conveyor, heating barrel and agitator all adopt independent modularization to set up, feeder body top is provided with the milk powder bucket for storing milk powder, the milk powder bucket is connected with the guard shield through the top cap, the guard shield is provided with touch control panel, and touch control panel is connected with the controller of feeder body, the upper end is provided with flood dragon conveyor in the guard shield inside, flood dragon conveyor is used for carrying milk powder, flood dragon conveyor passes the guard shield, is provided with the agitator under in the flood dragon conveyor in the guard shield outside, and the agitator is provided with the heating barrel through the agitator pedestal mounting on the guard shield, and the heating barrel is connected with the agitator through hot water output pipe, and hot water output pipe upside is provided with the control valve, and the agitator is connected with the guard shield through the top cap and the guard shield, the guard shield is connected with the screw and is connected with the screw cap through the inside fastening groove through the fastener, the screw nipple on the side of the guard shield, the screw is connected with the screw and is provided with the front end through the front end, the front end is connected with the screw.

By adopting the technical scheme, the milk feeder body is formed by combining the shield, the rear cover, the front shield, the stirring barrel, the dragon conveying device, the heating barrel and the stirring barrel, and each group of structures are independently and modularly arranged to replace the existing milk feeder integrally arranged, so that the milk feeder has the characteristics of stable structure and convenience in installation, and is convenient for later maintenance and replacement of damaged components when damaged.

The utility model is further provided with:

the milk powder barrel is integrally arranged in a funnel shape, the inside of the shield is hollow, the top cover is buckled and installed at the top end of the shield, a through hole is formed in the upper side of the top cover, and the milk powder barrel penetrates through the through hole and is located inside the shield.

By adopting the technical scheme, the milk powder is placed in the milk powder barrel.

The utility model is further provided with:

the middle upper end in the shield is fixedly connected with a dragon conveying channel through a fastening screw, a dragon transparent shield is arranged on the upper side of the side end face of the dragon conveying channel positioned on the outer side of the shield, a discharging opening is arranged at the bottom end, the discharging opening is located right above the stirring barrel, the dragon transparent shield is installed on the dragon conveying channel through a fastening screw, and the dragon conveying device is arranged inside the dragon conveying channel.

By adopting the technical scheme, the milk powder is conveyed into the stirring barrel through the feed opening.

The dragon conveying device is provided with a servo motor, the driving end of the servo motor is connected with a dragon conveying shaft through a dragon bearing seat, a spiral blade is arranged on the upper side of the dragon conveying shaft, and the dragon bearing seat is arranged on the upper side of the inner wall of the other end of the dragon conveying channel through a fastening screw.

By adopting the technical scheme, the servo motor is started, and the screw conveyer shaft is driven by the servo motor to rotate, so that the screw blade on the upper side of the screw conveyer shaft is driven to rotate, and the milk powder is forced to finish pushing and conveying by the forward power generated during the rotation of the screw blade.

The utility model is further provided with:

the screw conveyer conveying channel top is connected with the screw conveyer upper shield through fastening screw, and milk powder barrel bottom is provided with the discharging pipe, the screw conveyer upper shield suit is in the discharging pipe upside.

By adopting the technical scheme, the milk powder in the milk powder barrel is conveyed into the dragon conveying channel through the discharging pipe.

The utility model is further provided with:

the bottom end of the shield is provided with a pedestal, the upper side of the pedestal positioned right below the feed opening is provided with a stirring barrel, the end surface of the bottom of the stirring barrel is connected with a stirring barrel base through a fastening screw, the inside of the stirring barrel base is provided with a driving motor, the drive end of driving motor is connected with stirring subassembly through the bearing frame, stirring subassembly adopts the common small-size stirring piece in the market, stirring subassembly passes the bottom of agitator to be located the agitator inside.

By adopting the technical scheme, the stirring assembly is driven by the driving motor to stir.

The utility model is further provided with:

the stirring barrel base is connected with the stirring barrel base fixing plate through a rotating shaft pin shaft, so that the stirring barrel base is movably connected between the stirring barrel base fixing plates.

By adopting the technical scheme, the stirring barrel rotates at an angle, so that the stirring barrel has the advantages of visualization and no dead angle cleaning.

The utility model is further provided with:

the stirring barrel is internally provided with a water level metering device, the water level metering device adopts a small water level metering device common in the market, and a connecting port, a water inlet and a water outlet are formed in the upper side of the side wall of the stirring barrel.

By adopting the technical scheme, the liquid level inside the stirring barrel is detected by the water level metering device, so that accurate feeding is realized.

The utility model is further provided with:

the nipple support is provided with the U type frame, the U type frame becomes irregular U type setting, the inside cavity that is of U type frame sets up to the one end and the connector of U type frame are linked together, and the other end of U type frame passes nipple support mounting panel and nipple and is linked together, and nipple support mounting panel upside is provided with the control valve, the hose that the U type frame adopted the SUS material is made.

By adopting the technical scheme, the feeding nipple is fixed by adopting the U-shaped frame, the nipple pollution caused by the collision of the sheep is avoided by additionally arranging the nipple support, and the nipple position can be moved up and down and back simultaneously, so that the feeding nipple is used for feeding the lambs in different ages of month.

The utility model is further provided with:

the heating barrel is located inside the shield, installs on the bottom terminal surface of shield through the fastening screw, heating barrel delivery port and heating barrel water inlet have been seted up to the heating barrel upside, and the inside electric heating components and parts that is provided with of heating barrel (not annotate in the figure, adopt common electric heating components and parts in the market), and the heating barrel delivery port is connected with the water inlet of agitator through hot water output tube, and the heating barrel water inlet is connected in external water source.

By adopting the technical scheme, the hot water in the heating barrel is conveyed into the stirring barrel through the hot water output pipe.

The utility model is further provided with:

the front protective cover is characterized in that the upper side of the front protective cover is connected with a clamping piece through a fastening screw, one end of the clamping piece is bent inwards, the upper side of the side wall of the protective cover is connected with a connecting piece through the fastening screw, a retaining ring is hinged to the connecting piece, the retaining ring is buckled on the upper side of the clamping piece to clamp and connect, an installation clamping groove is formed in the end face of the rear portion of the protective cover, and the installation clamping groove is clamped and connected with the rear cover and is fixed through the fastening screw.

By adopting the technical scheme, the connection and fixation between the shield and the front shield are realized.

The utility model is further provided with: the guard shield, back lid, preceding protection casing and flood dragon conveyor adopt the panel beating to make, heating barrel, milk powder bucket and agitator all adopt food-grade SUS material to make, and it is safer to feed, control valve, flood dragon conveyor in this.

In summary, the beneficial technical effects of the utility model are as follows:

1. the milk feeder body is formed by combining a shield, a rear cover, a front shield, a stirring barrel, a dragon conveying device, a heating barrel and a stirring barrel, and each group of structures are independently and modularly arranged to replace the existing milk feeder integrally arranged, so that the milk feeder body has the characteristics of stable structure and convenience in installation, is convenient for later maintenance when damaged, only needs to replace a damaged component, and only needs to detach the damaged independent modularized component when replaced.

2. The utility model can automatically mix, the colostrum powder is transmitted into the stirring barrel through the rotation of the auger conveying device when in use, in a synchronous state, the running time of equipment, the powder and water mixing ratio formula are set through the controller of the milk feeder body according to actual requirements, the powder and water mixing ratio is accurately controlled, the water level metering device is arranged in the stirring barrel, and when in use, the water level metering control device sends out metering signals and feeds the metering signals back to the controller of the milk feeder body in real time, so that accurate feeding is realized.

3. According to the nipple, the nipple support is additionally arranged, the nipple is fixed by the U-shaped frame, so that the nipple pollution caused by collision of the sheep during feeding is avoided, and meanwhile, the nipple position can be moved up and down, so that the nipple is used for feeding the lambs in different ages of month, and the practicability is greatly improved.

Drawings

FIG. 1 is a three-dimensional view of one embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of an embodiment of the present utility model;

FIG. 3 is an exploded view of one embodiment of the present utility model

FIG. 4 is a schematic diagram of a dragon delivery device according to one embodiment of the present utility model;

FIG. 5 is a schematic view of a mixing drum structure according to one embodiment of the present utility model;

FIG. 6 is a schematic view of a base structure of a mixing drum in accordance with one embodiment of the present utility model;

FIG. 7 is a schematic view of a base structure of a stirring tank according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a shield structure according to one embodiment of the present utility model;

FIG. 9 is a schematic view of a heating barrel structure according to an embodiment of the present utility model;

FIG. 10 is a schematic view of a nipple support structure in accordance with one embodiment of the utility model;

fig. 11 is a front view of an embodiment of the present utility model.

Reference numerals:

1. milk powder barrel; 2. a nipple holder; 021. a U-shaped frame; 023. a nipple holder mounting plate; 3. a milk feeder body; 4. a clamping piece; 5. a front shield; 6. a top cover; 7. a dragon upper shield; 8. heating the barrel; 081. a water outlet of the heating barrel; 082. a water inlet of the heating barrel; 9. a rear cover; 10. a dragon conveying device; 101. a servo motor; 102. dragon bearing seat; 103. a dragon conveying shaft; 104. a helical blade; 11. a shield; 12. a hot water output pipe; 13. a stirring barrel base fixing plate; 132. a rotating shaft pin; 14. a stirring barrel base; 142. a driving motor; 143. a bolt connection; 15. a front shield; 16. a stirring barrel; 161. a water level metering device; 162. a water outlet; 163. a connection port; 165. a stirring assembly; 166. a water inlet; 17. a dragon transparent shield; 18. touching the control panel; 19. a dragon conveying channel; 20. a feed opening; 21. a pedestal; 22. a connecting piece; 23. and (5) installing a clamping groove.

Detailed Description

The present utility model will be described more fully hereinafter with reference to the accompanying examples.

Referring to fig. 1-11, a semi-automatic lamb feeder comprises a feeder body 3, wherein the feeder body 3 is formed by combining a shield 11, a rear cover 9, a front protective cover 15, a stirring barrel 16, a dragon conveying device 10, a heating barrel 8 and a stirring barrel 16, the shield 11, the rear cover 9, the front protective cover 15, the stirring barrel 16, the dragon conveying device 10, the heating barrel 8 and the stirring barrel 16 are all arranged in an independent modularized manner, a milk powder barrel 1 is arranged at the top end of the feeder body 3 and is used for storing milk powder, the milk powder barrel 1 is integrally arranged in a funnel shape, the milk powder barrel 1 is connected with the shield 11 through a top cover 6, the shield 11 is provided with a touch control panel 18, the touch control panel 18 is connected with a controller of the feeder body 2, the inside of the shield 11 is in a hollow shape, the top cover 6 is buckled and arranged at the top end of the shield 11, a through hole is formed in the upper side of the top cover 6, and the milk powder barrel 1 penetrates through the through hole and is positioned inside the shield 11;

the middle upper end in the shield 11 is fixedly connected with a dragon conveying channel 19 through a fastening screw, a dragon transparent shield 17 is arranged on the upper side of the side end face of the dragon conveying channel 19 positioned on the outer side of the shield 11, a discharging opening 20 is formed in the bottom end of the dragon conveying channel 19, the discharging opening 20 is positioned right above a stirring barrel 16, the dragon transparent shield 17 is installed on the dragon conveying channel 19 through the fastening screw, a dragon conveying device 10 is arranged in the dragon conveying channel 19, the dragon conveying device 10 is used for conveying milk powder, the dragon conveying device 10 is provided with a servo motor 101, the driving end of the servo motor 101 is connected with a dragon conveying shaft 103 through a dragon bearing seat 102, a spiral blade 104 is arranged on the upper side of the dragon conveying shaft 103, and the dragon bearing seat 102 is installed on the upper side of the inner wall of the other end of the dragon conveying channel 19 through the fastening screw; the top end of the dragon conveying channel 19 is connected with a dragon upper shield 7 through a fastening screw, a discharging pipe is arranged at the bottom end of the milk powder barrel 1, and the dragon upper shield 7 is sleeved on the upper side of the discharging pipe;

the dragon conveyor 10 passes through the shield 11, the bottom end of the shield 11 is provided with a pedestal 21, the upper side of the pedestal 21 positioned at the position right below the feed opening 20 is provided with a stirring barrel 16, the end face of the bottom of the stirring barrel 16 is connected with a stirring barrel base 14 through a fastening screw, a driving motor 142 is arranged in the stirring barrel base 14, the driving end of the driving motor 142 is connected with a stirring assembly 165 through a bearing seat, the stirring assembly 165 adopts a small stirring piece common in the market, the stirring assembly 165 passes through the bottom end of the stirring barrel 16 and is positioned in the stirring barrel, the stirring barrel base 14 is connected with a stirring barrel base fixing plate 13 through a rotating shaft pin 132, the inside of the stirring barrel 16 is provided with a water level metering device 161, the water level metering device 161 adopts a small water level metering device common in the market, and the upper side wall of the stirring barrel 16 is provided with a connecting port 163, a water inlet 166 and a water outlet 162;

a heating barrel 8 is arranged right below the dragon conveying device 10 positioned at the inner side of the shield 11, the heating barrel 8 is connected with a stirring barrel 16 through a hot water output pipe 12, the heating barrel 8 is positioned inside the shield 11 and is installed on the bottom end face of the shield 11 through a fastening screw, a heating barrel water outlet 081 and a heating barrel water inlet 082 are formed in the upper side of the heating barrel 8, electric heating components (not annotated in the figure and common electric heating components in the market are adopted) are arranged inside the heating barrel 8, the heating barrel water outlet 081 is connected with a water inlet 166 of the stirring barrel through a hot water output pipe 12, the heating barrel water inlet 082 is connected with an external water source, and a control valve is arranged on the upper side of the hot water output pipe 12;

the agitator 16 is connected with the nipple through nipple support 2, nipple support 2 is provided with U type frame 021, U type frame 021 becomes irregular U type setting, the inside cavity that is of U type frame sets up to the one end of U type frame 021 is linked together with connector 163, and nipple support mounting panel 023 is linked together with the nipple in passing to the other end of U type frame 021, and nipple support mounting panel 023 upside is provided with the control valve, U type frame 021 wholly adopts the hose of SUS304 material to make

The rear end of the shield 11 is provided with a mounting clamping groove 23, a rear cover 9 is arranged in the mounting clamping groove 23 and is fixedly connected through a fastening screw, the front end of the shield 11 is provided with a front protection cover 15, the upper side of the front protection cover 15 is connected with a clamping piece 4 through the fastening screw, one end of the clamping piece is inwards bent, the end face of the side part of the shield 11 is connected with a connecting piece 22 through the fastening screw, the connecting piece 22 is hinged with a retaining ring, the retaining ring is buckled on the upper side of the clamping piece 4 and is clamped and connected, and the connection between the shield 11 and the front protection cover 15 is realized;

the guard shield 11, back lid 9, front shield 15 and flood dragon conveyor 10 adopt the panel beating to make, heating barrel 8, milk powder bucket 1 and agitator 16 all adopt food grade SUS304 material to make, and it is safer to feed, control valve, flood dragon conveyor in this context.

The application flow and the working principle of the utility model are as follows:

before the milk powder feeder is used, the required equipment operation time, the powder and water ratio formula is required to be set in advance through the touch control panel of the milk feeder body 83, the ratio of the powder to the water is accurately controlled, then the milk powder is placed in the milk powder barrel 1, at the moment, the milk powder in the milk powder barrel 1 continuously falls into the dragon conveying channel 19 under the action of gravity, meanwhile, the servo motor 101 is started, at the moment, the servo motor 101 drives the dragon conveying shaft 103 to rotate, thereby driving the screw blade 104 on the upper side of the dragon conveying shaft 103 to rotate, and the milk powder is forced to finish pushing and conveying through the forward power generated when the screw blade 104 rotates, so that the milk powder is conveyed to the other end of the dragon conveying channel 19 through the screw conveying device 10 and falls into the stirring barrel 16 on the lower side through the blanking opening 20;

when the weight of milk powder set in advance is reached, the servo motor is automatically closed through the controller of the milk feeder body 3, the conveying is stopped, meanwhile, the control valve of the hot water output pipe 12 is started, at the moment, the hot water in the heating barrel 8 is conveyed into the stirring barrel 16 through the hot water output pipe 12, and as the water level metering device 161 is additionally arranged in the stirring barrel 16, when the water level in the stirring barrel reaches the preset value, the water level metering device 161 sends out a signal and transmits the signal to the controller of the milk feeder body 2, the control valve of the hot water output pipe 12 is automatically closed by the controller of the milk feeder body, and the conveying of the hot water is stopped;

at this moment, the ratio of water and milk powder in the stirring barrel reaches the preset value, meanwhile, the driving motor 142 is started, the driving motor 142 is utilized to drive the stirring assembly 165 to uniformly stir the water and the milk powder in the stirring barrel, so that the stirring barrel is completely fused, then the water outlet 162 is opened, and at this moment, the liquid milk in the stirring barrel is conveyed to the nipple through the U-shaped frame, so that calves can suck and drink milk.

The above description is only a preferred embodiment of the present utility model, and is not intended to limit the scope of the present utility model. All equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. The utility model provides a semi-automatic lamb ware of suckleing, includes the ware body of suckleing, the ware body of suckleing is formed its characterized in that by guard shield, back lid, preceding protection casing, agitator, dragon conveyor, heating bucket and agitator combination: the milk feeder is characterized in that a milk powder barrel is arranged at the top end of the milk feeder body and is connected with the shield through a top cover, a touch control panel is arranged on the shield, a dragon conveying device is arranged at the middle upper end inside the shield, a stirring barrel is arranged right below the dragon conveying device and arranged on the outer side of the shield, the stirring barrel is arranged on a pedestal of the shield through a stirring barrel base, a heating barrel is arranged right below the dragon conveying device and arranged on the inner side of the shield, the heating barrel is connected with the stirring barrel through a hot water output pipe, and the stirring barrel is connected with a nipple through a nipple support.

2. A semi-automatic lamb feeder according to claim 1, wherein: the utility model discloses a milk powder storage device, including the milk powder bucket, including the cover, front shield, agitator, flood dragon conveyor, heating barrel and agitator all adopt independent modularization setting, milk powder bucket wholly becomes funnel formula setting, the inside cavity setting that is of cover to the top cap is installed to the cover top lock, and milk powder bucket bottom is provided with the discharging pipe.

3. A semi-automatic lamb feeder according to claim 2, wherein: the middle upper end in the shield is fixedly connected with a dragon conveying channel through a fastening screw, a dragon transparent shield is arranged on the end face of the side part of the dragon conveying channel positioned outside the shield through the fastening screw, the top end of the dragon conveying channel is connected with a dragon upper shield through the fastening screw, the discharging pipe passes the top cap and installs in the guard shield on the flood dragon to the feed opening has been seted up to flood dragon conveying channel bottom, the feed opening is located directly over the agitator, flood dragon conveying channel is inside to be provided with flood dragon conveyor.

4. A semi-automatic lamb feeder according to claim 3, wherein: the screw conveyer is provided with servo motor, and servo motor's drive end is connected with the screw conveyer axle through the screw bearing frame, screw blade is provided with to screw conveyer axle upside, and the screw bearing frame passes through fastening screw to be installed on the screw conveyer passageway other end inner wall.

5. A semi-automatic lamb feeder according to claim 1, wherein: the stirring barrel is characterized in that the end face of the bottom of the stirring barrel is connected with a stirring barrel base through a fastening screw, a driving motor is arranged inside the stirring barrel base, a driving end of the driving motor is connected with a stirring assembly through a bearing seat, the stirring assembly penetrates through the bottom end of the stirring barrel and is positioned inside the stirring barrel, and the stirring barrel base is connected with a stirring barrel base fixing plate through a rotating shaft pin shaft.

6. The semi-automatic lamb feeder of claim 5, wherein: the stirring barrel is internally provided with a water level metering device, and a connecting port, a water inlet and a water outlet are formed in the side wall of the stirring barrel.

7. A semi-automatic lamb feeder according to claim 1, wherein: the nipple support is provided with the U type frame, the inside cavity that is of U type frame sets up to the one end and the connector of U type frame are linked together, and the other end of U type frame passes nipple support mounting panel and nipple and is linked together, the hose that the U type frame adopted the SUS material is made.

8. A semi-automatic lamb feeder according to claim 1 or 6, wherein: the heating barrel is located inside the shield and is installed on the bottom end face of the shield through a fastening screw, a heating barrel water outlet and a heating barrel water inlet are formed in the upper side of the heating barrel, the heating barrel water outlet is connected with the water inlet of the stirring barrel through a hot water output pipe, and the heating barrel water inlet is connected with an external water source.

9. A semi-automatic lamb feeder according to claim 1, wherein: the rear end of the shield is provided with a mounting clamping groove, a rear cover is arranged in the mounting clamping groove and is fixedly connected through a fastening screw, the front end of the shield is provided with a front shield, the upper side of the front shield is connected with a clamping piece through the fastening screw, the setting of inwards bending of fastener one end, guard shield lateral wall upside is connected with the connecting piece through fastening screw, and connecting piece hinged joint has the buckle, and the buckle lock is in the fastener upside, carries out card and connection.

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