KR20100090581A - A feeder suppling feed and water for fogs - Google Patents

Abstract

PURPOSE: A wet feeder for the pig farming is provided to stimulate the growth of the pig by enabling the pigs to intake the dissolved fodder. CONSTITUTION: A wet feeder for the pig farming includes: a feed bucket(102) which stores fodder and then discharges the fodder via a feeder; an outer case(110) which is fixed at the bottom part of the feeder; a controller(120) which is prepared inside the outer case and is installed at the lower part of the feed bucket of the feeder and controls the discharge of the fodder; and a manipulation unit which is prepared in the controller and discharges the fodder stored in the feeder by activating a moving member of the controller.

Description

A feeder suppling feed and water for fogs}

The present invention relates to a wet feed for pigs, so that the pigs are fed to feed the water and feed at the same time to allow the pigs to be fed to feed themselves without a separate operation so that the pigs ingest the liquid feed, The present invention relates to a wet feed for swine that promotes the growth of pigs by ingesting liquid feed at a high speed and prevents atrophic pigs from occurring.

In general, there are many important factors such as pig farming environment in efficient management for pig growth, but since the pig farming purpose is to produce pork lean meat, the focus of management is to provide the pigs with sufficient and adequate feed and water. The need to supply is already known.

In addition, since the pigs eat more feed as their weight increases, the pig feeding wet feeder needs a means for controlling the amount of feed supplied, and the feed is in the form of powder, pellets, or crumbles. Since it is possible to take water in the middle of the feed intake to improve the appetite of the pig is provided with a water supply control device to improve the development.

Such a pig feeder can be classified into a dry feeder for feeding only feed and a wet feeder for feeding feed and water at the same time. The present invention relates to the latter wet feeding, and the patent application number filed by the applicant of the present invention. No. 2005-98553 and Utility Model Application No. 2002-30558 "Swine Wet Feeder" have already been known, so a detailed description thereof will be omitted.

Since the wet feeder according to the prior art is supplied with feed and water at the same time, there is a side to enhance the efficiency of pig management by promoting the convenience of the manager.

That is, the conventional wet feeder for pigs is composed of a hopper for holding a feed, a feed discharge pipe, a feed container under the feed discharge pipe, a partition bar, and a water supply control device mounted on the outside of the hopper to supply water separately from the feed.

However, since the feed is continuously accumulated in the feed container, there was a risk of deterioration or contamination in an externally exposed state. In addition, as the water of the outer feed storage of the feed container is mixed with the feed of the drinking water storage unit beyond the rim, the feed is wet with water, and this wet feed has a disadvantage of being decayed because the pig is not ingested as time passes.

In addition, the neglected feed decayed over time, there was a problem that a bad smell, as well as harmful mold, bacteria, such as a breeding ground for diseases.

Therefore, the manager should check the feeder from time to time, and the inconvenience of periodically cleaning, as well as the operating cost due to the loss of excessive feed had a problem.

Looking at the latter wet feeder, it consists of a discharge pipe connected to the lower end of the conical hopper, the central rotating shaft, the rotating bar of the rotating disk, the feeding container under the discharge pipe, a scraper and a water supply device, etc. It is intended to discharge the feed by rotating the bar.

However, the pig also rotates the rotating bar of the rotating disk by the snout, but by pressing or lifting while stirring up and down, there is a disadvantage that it does not work smoothly.

In addition, in feeding the feed, when the pig discharges the feed into the feed container, there is a problem in that the consumption of the cost due to the waste of unnecessary feed increases, such as excessively overflowing the feed is discharged in addition to the empty space of the feed.

In addition, the spilled feed was frequently mixed with water to absorb moisture and hardened, or the feed passage wetted the feed passage, causing frequent blockage.

In addition, in the hot summer, pigs can not beat the heat to bite nipples are supplied with water or press the feet to feel cool, at which time the water is continuously supplied to the feeding container is filled with water, overflowing. This will soon lead to wastewater, which will result in huge wastewater treatment costs resulting in economic losses. In addition, the feed is locked in the water can not eat the food and the manager has to remove the water, so there was a big loss of manpower.

On the other hand, there is also a system for supplying a liquid feed in order to allow the pig to ingest the feed quickly.

That is, in the related art, water and feed are mixed in a stirrer using a power unit in a stirrer, and then transferred to a pig s room using a supply means such as a pipe so that the pig can ingest it.

However, in order to supply the liquid feed, the cost of the equipment is high, and it is difficult to equip the facility for supplying the liquid feed, and it is possible to hire a manager for pig management to directly supply the liquid fertilizer to the pigs. There is also a method, but the labor cost burden was too big problem.

The present invention has been made in order to solve the above-mentioned conventional problems, by using the pig's wet gultoseong to push the touch portion to the nose or mouth feed that is accommodated in the feed is supplied through the discharge device, pig The purpose is to allow them to feed themselves.

In addition, when the pig pushes the touch member by using the nose or mouth, the fluid is operated so that the pig receives and feeds as much feed as he wants, thereby preventing excessive feed and overflowing to the outside of the feeding container. There is a purpose.

When the pigs are installed between the pigs' compartments, the pigs push the outlet from the feeder to the nose or mouth so that the feed is fed to the central part when the feed is supplied. Even if there is only one part of the pig, the purpose is to reduce the waste of feed and at the same time to receive as much feed as you want to prevent the pig from being stressed.

In addition, by feeding the feed and water from the feed at the same time to feed the feed and water to feed the feed to the liquid good for pigs to feed, by increasing the speed at which the pigs feed feed to promote the growth of pigs At the same time, the aim is to produce less atrophic pigs.

In addition, when the pig pushes up the touch member to feed the feed, the valve of the water supply pipe is opened at the same time so that the water is fed together with the feed, so that the water supply pipe needs to be piped separately from the feeder to supply water. The purpose is to reduce the installation cost of installing the feeder.

The present invention for achieving the above object is that in the wet feed for pigs to feed the feed is accommodated feed is supplied, feed and water at the same time by the operation of the operation unit provided on the lower portion of the feed reservoir of the feeder It features.

Or in a wet feed for pigs comprising a feed reservoir and an outer case, the touch member for the up and down movement, the operation unit coupled to the inner side of the touch member, the outside of the feed in the up and down operation of the operation unit Characterized in that consisting of a fluid discharged to.

Or in a pig feeder for feeding the feed to feed the feeder, the outer case is fixed to the outer peripheral surface of the lower end of the feeder, and provided inside the outer case, to control the discharge of the feed contained in the feed reservoir of the feeder It is characterized in that consisting of the control unit, and the control unit is installed on the control unit, the operation unit for discharging the feed contained in the feed reservoir to the outside by operating the control unit.

Here, the outer case is formed in a tubular shape, characterized in that the inclined surface toward the outer side formed on the upper end.

Further, the intermittent portion is provided with an inner case formed in a cylindrical shape to protrude downward, fastened and fixed to the inner side of the outer case, is provided with a feed support plate fixed to be spaced apart from the lower end of the inner case, fastening to the feed support plate It is characterized in that the fluid is fixed to operate by the operating unit.

In addition, the feed plate is provided with a fitting hole protruding to the lower portion at the lower end, the fitting hole is formed in the center is formed, the plate is provided with a fastener extending to the bottom, spaced apart from the outer surface of the plate It is provided to be connected to the plate by the support ribs so that the feed discharge hole is formed therebetween, characterized in that the fixed cylinder is fixed to the inner peripheral surface of the outer case.

In addition, the fluid is formed in a cylindrical shape is fastened and fastened to the fitting hole of the feed plate, the outer peripheral surface is provided with a fitting member formed with a locking projection is seated, the guide member inclined toward one side to correspond to each other on both sides of the fitting member A groove is formed on the side surface, and an upper end of the fitting member is provided with a flow plate positioned on the upper portion of the plate body.

Then, the inclined protrusion surface protruding upward is formed on the plate body upper portion of the feed plate.

Here, the fluid is fitted into the fitting hole of the feed plate, it is formed in a cylindrical shape, the screw hole is formed at the lower end, the upper portion is characterized in that the conical guide surface is formed to protrude to the upper portion of the plate.

In addition, the plate body of the feed plate is characterized in that a plurality of slide holes are formed symmetrically.

Here, the fluid is divided into a plurality is provided on the upper portion of the plate body, the lower plate is provided with a slide plate formed with a fastener to be fitted into the slide hole, the upper portion of the slide plate is provided with a cap fixed to cover, a plurality of outer peripheral surface The fastener is formed, the lower end is provided with a cylindrical body formed with a fastening hole, characterized in that the connecting member is hinged on both sides of each of the fasteners formed in the lower portion of the fixed plate of the cylindrical body and the slide plate of the fluid.

On the other hand, between the lower end inner portion of the feeder and the outer portion of the inner circumference case is characterized in that the feed discharge control member for adjusting the discharge of the feed by the raising, lowering operation.

Here, the feed supply adjusting member is formed in a cylindrical shape, the inner side is formed with a cutting groove in the lower portion of the inner case, the fastening projection is fitted to the cutting groove is formed, characterized in that the operating rod is fastened and fixed to the fastening protrusion do.

And, the operation unit is provided with a lifting member for operating the fluid of the intermittent portion, characterized in that the touch member is mounted to the lifting member is raised by the touch of the pig.

Here, the elevating member is formed in a cylindrical shape is formed through holes penetrating to both sides, the bolt is fastened and fixed to the through hole, characterized in that the lower end is provided with a fastening member screwed to the touch member.

Further, the end of the bolt is characterized in that the pin is further provided with a guide groove formed on the side of the fluid.

Alternatively, the bolt is characterized in that the screw fastened to the fluid.

Alternatively, the elevating member and the cylindrical body of the fluid is characterized in that fixed by the bolt.

In addition, the touch member is formed in a cylindrical shape, the center portion is formed with a tapered surface, a fixing member formed with a screw hole in the center is provided, the fixing member is fixed by a plurality of fixing ribs fixed inside the tapered surface, Feed discharge hole is formed between these fixed ribs.

And, the inner side of the air supply is characterized in that the water supply is further provided.

Here, the water supply portion is provided with a water supply pipe installed to penetrate through the fluid of the intermittent portion, characterized in that the end of the water supply pipe is provided with a valve.

Further, the valve has a flow path formed in the inner side, a water discharge hole is formed in the lower end, the opening and closing plate is located in the flow path is provided with an opening and closing member protruding to the outside lower portion is inserted into the water discharge hole, the thread is provided on the outer peripheral surface of the opening and closing member The fastening member is fastened to form a screw, the support is fastened to the inner peripheral surface of the upper end of the valve, the elastic member is formed between the opening and closing plate and the support, characterized in that the lower portion of the opening and closing plate is provided with an O-ring .

The present invention configured as described above has the effect of allowing pigs to be fed and fed on their own by feeding the feed contained in the feeder by pushing the outlet into the nose or mouth by using the wet oyster property of the pig. .

In addition, when the pig pushes up the outlet using the nose or mouth, the operating lever operates up, down, left, and right so that the pig receives and eats as much feed as he wants. There is an effect that can be prevented.

In addition, the pigs in both pigs may take the feed together by being installed between the dividers of pigs so that the feed is fed to the central part when the feed is fed by pushing the outlet from the feed containing the feed to the nose or mouth. Even if there is only one side of the pig to reduce the waste at the same time feed is to eat as much as you want to eat is effective to prevent the pig from being stressed.

In addition, feed and water are simultaneously supplied from the feeder, so that the feed and water are mixed to form a liquid feed, thereby speeding up the intake of feed by the pigs, thereby promoting the growth of the pigs and reducing the amount of atrophy pigs. It has the effect of being produced.

In addition, when the pig pushes up the outlet for feeding, the valve of the water supply pipe is opened at the same time so that the water is supplied integrally with the feed, so that the water supply pipe does not need to be piped separately from the feeder to supply water. It is effective to reduce the installation cost of installing the feeder.

Hereinafter, described in detail with reference to the accompanying drawings for the wet feed for pigs according to the present invention.

[First Embodiment]

1 is an exploded perspective view showing a wet feeder for pigs according to a first embodiment of the present invention, Figure 2 is a cross-sectional view showing a wet feeder for pigs according to a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention 4 is an enlarged perspective view illustrating an essential part of an intermittent part, and FIG. 4 is an enlarged perspective view of an essential part of an operating part according to a first exemplary embodiment of the present invention.

As shown in FIGS. 1 to 4, the wet feeder 100 for pigs according to the present invention is provided with a feed container 102 in which feed is received and feed is discharged from the feeder 100.

Here, the outer case 110 is provided to be fixed to the lower end of the air supply 100, the outer case 110 is formed in a cylindrical shape on the top end of the inclined surface 112, that is, the air supply 100 Inclined surface 112 is formed so as to correspond to the inclination angle of the feed reservoir 101 of the outside) is mounted to be positioned on the outside of the feeder 100 is fastened and fixed by the bolt 114 or other fixing means.

Then, provided on the inside of the outer case 110, it is provided in the feed reservoir (101) lower portion of the feeder 100 is provided with an intermittent portion 120 to control the discharge of the feed contained in the feeder (100). .

Here, the intermittent portion 120 is formed in a cylindrical shape is fastened and fixed to the inside of the lower end of the feeder 100, the upper portion is formed with an inclined surface (122a) corresponding to the inclination angle of the feeder 100, the feeder 100 An inner case 122 is fixed to the inner circumferential surface of the bottom surface by a bolt 122b or other fixing means, and the lower end portion is fastened and fixed to be spaced apart from the inner circumferential surface of the lower end of the feeder 100 at a predetermined interval.

In addition, the feed support plate 124 is fitted to the inner circumferential surface of the outer case 110 is fixed by a fixing means such as bolts 114, the predetermined distance is spaced apart from the lower end of the inner case 122 is provided.

Here, the feed plate 124 is provided with a fitting hole 124b protrudes toward the lower portion at the lower end, and is provided with a plate body 124a having a fitting hole 124c formed at the center thereof.

Furthermore, the outer side of the plate body 124a is provided at a predetermined interval spaced apart, connected by the plate body 124a and the support ribs (124d), the feed discharge hole through which the feed is discharged between the support ribs (124d) A fixing cylinder 124e is provided so that the 125 is formed, and the fixing cylinder 124e is fitted to the inner circumferential surface of the outer case 110 to be fastened and fixed by bolts or other fixing means.

In addition, the fluid 126 is provided with a fitting hole 124c formed in the plate body 124a of the feed plate 124 to be flowable.

Here, the fluid 126 is formed in a cylindrical shape is fitted into the fitting hole (124c) of the feed support plate 124, the engaging projection 126b is fitted in the outer peripheral surface of the insertion hole (124b) of the feed support plate 124 from the top. ) And a fitting member 126a formed to correspond to both sides is formed, and side surfaces 126c corresponding to each other in the opposite direction to both sides of the fitting member 126a, that is, the locking projection 126b, are formed, and this side surface 126c is formed. ) Is inclined guide groove (126d) is formed.

In addition, the upper end of the fitting member 126a is provided with a flow plate 126e which is positioned above the plate body 124a and has a through hole 127 formed downward in the center thereof.

In addition, the upper end of the flow plate 126e is a plurality of feed so that the feed contained in the feeder 100 by the flow of the flow plate 126e to be discharged to the feed outlet hole 125 of the feed plate 124 smoothly It is also possible to form a wing, and the wing is preferably formed to be inclined in the rotational direction of the flow plate 126e.

In addition, the fitting member 126a and the flow plate 126e are separately formed to be fastened and fixed, and a clutch bearing is provided at the fastening portion of the fitting member 126a and the flow plate 126e to reciprocally rotate the fitting member 126a. The fluid flow plate 126e may be rotated in only one direction.

A feed discharge control member 128 is provided between the lower end inner side of the air feeder 100 and the outer side of the inner case 122 to adjust the discharge of the feed by the raising and lowering operation.

Here, the feed discharge control member 128 is formed in a cylindrical shape is formed with a fastening projection (128a) protruding inward on the inner circumferential surface, the operation protrusion to protrude to the top of the feeder (100) in the fastening projection (128a) 128b is fastened and fixed, and the cutting protrusion 128c of the feed discharge control member 128 is fitted in the vertical direction of the inner case 122 so as to perform a slide operation.

In addition, the operation unit 130 is installed on the intermittent part 120 to operate the fluid 126 of the intermittent part 120 to discharge the feed contained in the feeder 100.

Here, the operation unit 130 is provided with a lifting member 132 for rotating the fluid 126 of the intermittent portion 120, the lifting member 132 is formed in a cylindrical shape on both sides of the upper end side A through hole 132a through which a thread is formed on the inner circumferential surface thereof is formed, and the through hole 132a includes a pin 134a having an end portion fitted into a guide groove 126d formed on the side surface 126c of the fluid 126. It is provided, the bolt 134 is screwed to the screw thread formed in the through hole 132a is fastened and fixed, the lower end is formed stepped so that the screw thread 133a is formed on the outer side, the inclined surface 133b so that the lower portion is narrow on the inner peripheral surface The formed fastening member 133 is provided.

Furthermore, a touch member 136 mounted to the elevating member 132 and raised and lowered by a touch of a pig is provided.

At this time, the touch member 136 is formed in a cylindrical shape, the tapered surface 136a is formed so that the upper end surface is tapered, the screw hole that the coupling member 133 of the elevating member 132 is screwed on the inside ( A fixing member 137 having a 137a is provided, and the fixing member 137 is fixed between the fixing member 137 and the inner circumferential surface of the tapered surface 136a by a plurality of fixing ribs 136b and a plurality of fixing members. Between the ribs 136b, a feed discharge hole 136c through which the feed is discharged is formed.

In addition, a water supply unit 140 is provided at the inner side of the feeder 100 to protrude downward to feed water to the feed container 102 and to be mixed with the feed.

Here, the water supply unit 140 is provided with a water supply pipe 142 that is inserted through the through-hole 127 formed in the fluid 126 of the intermittent portion 120 is installed, the support member 144 in the water supply pipe 142 ) Is fastened and fixed, and the support member 144 is mounted on the upper portion of the fluid 126 so as to be close to the upper end of the fluid 126 so that the feed can be fed to the outside of the fluid 126.

At this time, the water supply pipe 142 is fixed to the upper end of the air supply 100 by a fixing means (not shown), the lower end is provided to be located on the inner side of the elevating member 132 of the operation unit 130.

Further, the lower end of the water supply pipe 142 is fastened and fixed to the valve 146, the valve 146, the upper portion is screwed to the end of the water supply pipe 142, the flow path 146a is formed inside, the lower end The water discharge hole 146b is formed, and is fitted into the water discharge hole 146b is formed to protrude to the bottom and the opening and closing member 148 is provided with an opening and closing plate 148a located in the flow path 146a.

In addition, a thread 148b is formed on an outer circumferential surface of the opening / closing member 148, and a locking member 149 is screwed to the thread, and provided with a locking member 149 which is screwed upward and downward, and on the inner circumferential surface of the upper end of the flow path 146a. The support 147 is fastened and fixed, an elastic member S is provided between the support 147 and the opening and closing plate 148a, and an O ring O is provided at the lower end of the opening and closing plate 148a. .

Therefore, when the pig touches the touch member 136 and raises the upper portion, the touch member 136 is raised to raise and lower the elevating member 132, and the inclined surface formed inside the elevating member 132. The locking member of the opening / closing member 147a is raised to rise, and the water discharge hole 146b of the valve 146 is opened so that the water is discharged through the water discharge hole 146b to be supplied to the feed container 102. The guide groove 126d is slid by the pin 134a formed on the bolt 134 fastened to the lifting member 132 by the lifting of the lifting member 132 to rotate the fluid 126 in one direction. The feed received in the feeder 100 by the rotation of the fluid 126 is supplied to the feed container 102 with water through the feed discharge hole 125 of the feed support plate 124 and is supplied to the feed container 102. The mixed water and feed are mixed with each other, making it a liquid food that is easy to eat. It becomes.

On the other hand, the water supply unit 140 is described in that it is inserted in the upper portion of the feed reservoir 101 and positioned in the center, but is not limited to this, the valve inside the feed reservoir 101 through the side of the feed reservoir 101 146 may be installed to be located, of course, the water supply pipe 142 of the water supply unit 140 is installed in the feed storage container 101 by various methods to install the valve 146 to be located inside the feed storage container 101. All means are applicable.

Referring to the operational relationship for the wet feed for pigs according to the present invention configured as described above are as follows.

5 is a cross-sectional view showing the working relationship of the swine wet feeder according to the first embodiment of the present invention, Figure 6 is a plan view showing the working relationship of the fluid according to the first embodiment of the present invention.

As shown in the figure, the pig member raises the touch member 136 to the upper portion by using the nose or the snout, etc. in the state of receiving the feed inside the pig feed wet feeder 100 according to the present invention. The elevating member 132 fastened and fixed thereto is raised, and the guide groove 126d of the fluid 126 connected to the pin 134a of the bolt 134 is lifted by the elevating member 132. As the 134a rises, the fluid 126 rotates in one direction.

As the fluid 126 rotates as described above, the feed plate 126e provided at the top of the feed support plate 124 rotates to stir the lower portion so that the feed received in the feeder 100 spreads in various directions. The feed spreads by the rotation of the plate 126e and falls downward through the feed outlet hole 125 of the feed support plate 124.

At this time, the discharge of the feed discharged to the feed outlet hole 125 of the feed support plate 124 by the rotation of the fluid 126 is to control the space of the discharge portion by the elevating operation of the feed discharge control member 128. To control emissions.

That is, when raising the operating rod (128b) is fixed to the upper portion of the feeder 100, the feed discharge control member 128 is raised to the upper space between the feed support plate 124 and the inner case 122 is wide The amount of the feed discharged to the outside will be discharged to the outside, and on the contrary, if the operation rod 128b is lowered to the bottom, the feed discharge control member 128 will be lowered to the plate body 124a of the feed support plate 124. As the distance between the feed discharge control member 128 and the plate body 124a of the feed support plate 124 becomes narrow, the amount of feed discharged to the outside can be reduced.

As described above, the feed discharged through the feed discharge hole 125 of the feed support plate 124 is discharged to the outside through the inner feed discharge hole 136c of the touch member 136 and the feed discharged to the outside is the feed container 102. To be supplied.

On the other hand, when the pig raises the touch member 136 and the elevating member 132 is raised, the locking member 149 of the opening and closing member 148 on the inclined surface 133b formed on the inner circumferential surface of the elevating member 132. While being in close contact with the upper part, the opening and closing plate 148a rises to the upper part while pressing the elastic member S so that the water discharge hole 146b of the valve 146 is opened to the outside through the valve 146. To be discharged to, and the water discharged to the outside to be supplied to the feed container (102).

At this time, the inclined surface 133b formed on the inner circumferential surface of the fastening member 133 of the elevating member 132 so that the water discharged through the water discharge hole 146b of the valve 146 can be supplied to the feed container 104 well. A plurality of grooves (not shown) may be formed in the vertical direction.

Therefore, by forming a plurality of grooves on the inclined surface 133b formed on the inner peripheral surface of the fastening member 133 of the elevating member 132, the locking member 149 of the opening and closing member 148 is in close contact with the inclined surface 133b, Water can be smoothly discharged to the bottom.

In this way, the pig raises the touch member 136 and the feed received in the feeder 100 is supplied to the feeding container 102, and at the same time, the water supplied through the water supply pipe 142 is discharged to the valve 146 to the feeding container 102. As the feed and water are mixed with each other and the liquid feed is good for the pigs to feed, a large amount of feed can be eaten in a short time and a water supply means for supplying only water is required. It is possible to prevent the surroundings of the feed container 102 from being contaminated or dirty.

As such, when the pig lifts the touch member 136 and is fed with water and feed, the pig falls from the touch member 136 and descends downward by the weight of the touch member 136 and the lifting member 132. do.

At this time, as the pin 134a integrally formed with the bolt 134 descends by the lowering of the elevating member 132, the elevating member 132 is raised while the guide groove 126d of the fluid 126 slides. When the fluid 126 is rotated in the opposite direction when the fluid is flowing, the fluid is rotated by the fluid 126 to discharge the feed into the feed outlet hole 125 of the feed support plate 124.

On the contrary, during the lowering of the touch member 136 and the elevating member 132, the elastic member S provided on the upper part of the opening / closing plate 148a formed on the opening / closing member 148 of the valve 146 is elastically applied. As the opening / closing member 148a descends, the water discharge hole 146b of the valve 146 is blocked, so that water is no longer supplied.

Therefore, the fluid 126 is reciprocally rotated by the elevating member 132 by the lifting and lowering operation of the touch member 136 as described above, thereby lowering the lower portion of the feed received inside the feeder 100. The feed becomes a stirring form is supplied to the feed container 102 through the feed discharge holes 125, 136c formed in the feed support plate 124 and the touch member 136, respectively, and the water of the elevating member 132 By repeatedly raising and lowering the valve 146 while repeatedly opening and closing the water supply to the feed container 102 is mixed with water and the feed it is possible to supply a liquid feed to the pig.

Second Embodiment

Figure 7 is a cross-sectional view showing a wet feeder for pigs according to a second embodiment of the present invention, Figure 8 is an enlarged view of the main portion of FIG.

As shown in FIGS. 7 and 8, the wet feeder 200 for pigs according to the present invention includes a feed container 202 for receiving feed therein and receiving feed discharged from the feeder 200.

Here, the outer case 210 is provided to be fixed to the lower end of the air supply 200, the outer case 210 is formed in a cylindrical shape on the upper end inclined surface 212, that is, the air supply 200 Inclined surface 212 is formed to correspond to the inclination angle of the feed storage container 201 of the outside) is mounted to be positioned on the outside of the feeder 200 is fastened and fixed by the bolt 214 or fixing means.

In addition, the inner case 210 is provided inside, the feeder 200 is provided on the lower portion of the feed reservoir 201 is provided with an intermittent portion 220 to control the discharge of the feed contained in the feeder 200. .

Here, the intermittent portion 220 is formed in a cylindrical shape is fastened and fixed to the inside of the lower end of the feeder 200, the upper portion is formed with an inclined surface 222a corresponding to the inclination angle of the feeder 200 is supplied to the feeder 200 An inner case 222 is fixed to the inner circumferential surface of the bottom by a bolt 222b, and the lower end is fastened and spaced apart from the inner circumferential surface of the lower end of the feeder 200 at a predetermined interval.

In addition, the feed support plate 224 is fitted to the inner circumferential surface of the outer case 210 is fixed by a fixing means such as a bolt, the fastening plate 224 is fastened and fixed to be spaced apart from the lower end of the inner case 222.

Here, the feed plate 224 is provided with a fitting hole 224b protrudes toward the lower portion at the lower end, a long hole 224c is formed in the vertical direction of the outer peripheral surface, the plate body 224a is formed with a fitting hole 224d in the center Is provided.

Further, the outer side of the plate body 224a is provided at a predetermined interval spaced apart, connected by the plate body 224a and the support ribs 224e, the feed discharge hole through which the feed is discharged between the support ribs (224e) A fixed cylinder 224f is provided to form 225, and the fixed cylinder 224f is fitted to the inner circumferential surface of the outer case 210 and fastened and fixed by bolts or the like.

In addition, the inclined protrusion surface 224g is formed to protrude to the upper end portion of the plate body 224a, that is, the fitting hole 224d is formed to extend to form an inclined surface.

Then, the fluid 226 is fastened and fixed to the insertion hole (224d) of the feed plate 224 is provided.

Here, the fluid 226 is formed in a cylindrical shape is fitted into the fitting hole (224d) of the feed support plate 224 to perform the lifting, lowering operation, the fastening hole (226a) is formed to correspond to each other on the lower circumferential surface The upper end portion has a conical guide surface 226b, and a through hole 226c is formed in the center portion of the guide surface 226b.

In addition, between the lower inner portion of the feeder 200 and the outer side of the inner case 222 is provided with a feed discharge control member 228 to control the discharge of the feed by the lifting, lowering operation.

Here, the feed discharge control member 228 is formed in a cylindrical shape so that the upper and lower portions are opened, and a fastening protrusion 228a is formed at one side of the inner circumferential surface thereof, and protrudes upward from the feeder 200 to the fastening protrusion 228a. The operating rod 228b fixed by the fixing means is fastened and fixed, and the operating rod 228b is moved upward and downward by an operation means (not shown) to allow the feed discharge control member 228 to perform a slide operation. do.

At this time, the feed discharge control member 228 is a cutting groove 222c to slide the fastening protrusion 228a to the inner case 222 so as to guide and support so as to perform smoothly when performing the lifting, lowering operation Is formed.

Then, the operation unit 230 is provided in the intermittent portion 220 to operate the fluid 226 to discharge the feed contained in the feeder 200 to the feed discharge hole 225 of the feed support plate 224 is provided with do.

Here, the operation unit 230 is fastened and fixed to the fluid 226 of the intermittent part 220 is provided with a lifting member 232 for raising and lowering the fluid 226, the lifting member 232 Is formed in a cylindrical shape and the fastening hole 232a is formed to correspond to the fastening hole 226a formed in the fluid 226 at the upper end, the fastening hole 232a of the elevating member 232 and the fluid 226 The fastening hole 226a and the long hole 224c of the feed support plate 224 are fixed to each other by the bolt 233, the lower end is formed stepwise so that the thread 234a is formed on the outside, the inclined surface of the lower portion is narrowed on the inner peripheral surface A fastening member 234 having a 134b is provided.

At this time, the bolt 233 is inserted into the long hole 224c of the feed plate 224 to be inserted into the fastening hole 232a of the elevating member 232 and the fastening hole 226a of the fluid 226 in order to be fixed. desirable.

In addition, the touch member 236 is mounted on the elevating member 232 so that the pig is touched with a snout or a nose and raised upward.

At this time, the touch member 236 is formed in a cylindrical shape, the tapered tapered surface 236a is formed on the upper end surface, the screw hole for screwing the fastening member 234 of the elevating member 232 on the inside ( A fixing member 237 having a 237a is provided, and the fixing member 237 is fixed between the inner circumferential surfaces of the tapered surface 236a by a plurality of fixing ribs 236b, and between the plurality of fixing ribs 236b. Feed discharge hole (236c) is formed is discharged the feed.

In addition, the inside of the air supply 200 is provided with a water supply unit 240 for supplying water to the feed container 202, the lower portion is located inside the touch member 236.

Here, the water supply unit 240 is provided with a water supply pipe 242 is installed through the distribution body 226 of the intermittent portion 220, the water supply pipe 242 is a through hole 226c formed in the distribution body 226 The fluid 226 is fastened and fixed by the guide of the water supply pipe 242 so as to perform the lifting and lowering operation.

Furthermore, a valve 246 is fastened and fixed to a lower end of the water supply pipe 242, and the upper part of the valve 246 is screwed to an end of the water supply pipe 242, and a flow path 246a is formed on the inner side of the valve 246. The water discharge hole 246b is formed, is inserted into the water discharge hole 246b is formed to protrude to the bottom and the opening and closing member 248 is provided with an opening and closing plate 248a is located in the flow path 246a.

In addition, a thread 248b is formed on an outer circumferential surface of the opening and closing member 248, and a locking member 249 is screwed to the thread, and provided with a locking member 249 that is screwed upward and downward, and an inner circumferential surface of the upper end of the flow path 246a. The support 247 is fastened and fixed, and an elastic member S is provided between the support 247 and the opening and closing plate 248a, and an O ring O is provided at the lower end of the opening and closing plate 248a. do.

Accordingly, the valve 246 is frozen and closed by the elevating operation of the opening / closing member 248 while the elevating member 232 is raised when the touch member 236 is raised to raise the fluid 226 to discharge the feed. By operation, water is supplied to the feeding container 202.

The working relationship for the wet feed for pigs according to the present invention configured as described above is made by the same method as in the first embodiment, and a description of the working relationship will be omitted here.

However, as shown in FIG. 9, the touch member 236 is raised upward by touching the nose or the nose with the touch member 236. The lifting member 246 of the valve 246 is raised while the lifting member 232 is raised upward. And the fluid 266 to the upper portion, that is, to raise the fluid 226 to the upper portion to push the lower portion of the feed contained in the inside of the feeder 200 to serve to shake the stagnant feed Is discharged to the feed discharge hole 225 along the inclined protrusion surface (224g) formed in the feed support plate 224, the feed discharged to the feed discharge hole 225 is the feed of the touch member 236 provided at the bottom It is supplied to the feed container 202 through the discharge hole (236c).

In addition, the valve 246 is the valve 246 while the locking member 248a is in close contact with the inclined surface 234b of the fastening member 234 by the rising and lowering of the lifting member 232. Is opened to be supplied to the feed container 202 through the valve 246.

Accordingly, the feed and water are mixed with each other in a state in which the feed and water supplied to the feed container 202 are supplied by each operation, thereby making a liquid feed that is easy for pigs to eat.

On the contrary, when the touch member 236 is lowered, the elevating member 232 connected to the touch member 236 is lowered by a load, and the fluid 226 and the opening / closing member connected to the elevating member 232 are connected to each other. At the same time 248) the feed and water supply are cut off.

By raising and lowering the touch member 236 as described above, feed and water are repeatedly supplied so that the feed and water can be fed as much as the pig wants, so that the liquid feed can be ingested. Labor and maintenance costs can be reduced.

[Third Embodiment]

10 is an exploded perspective view showing a wet feeder for pigs according to a third embodiment of the present invention, Figure 11 is a cross-sectional view showing a wet feeder for pigs according to a third embodiment of the present invention, Figure 12 is an enlarged view of the main portion of FIG. to be.

10 to 12, the pig feeder wet feeder 300 according to the present invention is provided with a feed container 302, the feed is received inside, the feed is discharged from the feeder 300.

Here, the outer case 310 is provided to be fixed to the lower end of the air supply 300, the outer case 310 is formed in a cylindrical shape on the upper end inclined surface 312, that is, the air supply 300 Inclined surface 312 is formed to correspond to the outside inclination angle of the feed reservoir 301 of the) is mounted to be positioned outside the feeder 300 is fastened and fixed by the bolt 314.

Then, provided on the inside of the outer case 310, is installed in the feed reservoir 301 lower portion of the feeder 300 is provided with an intermittent portion 320 to control the discharge of the feed contained in the feeder (300). .

Here, the intermittent portion 320 is formed in a cylindrical shape is fastened and fixed to the inside of the lower end of the feed reservoir 301 of the feeder 300, the upper portion is formed with an inclined surface 322a corresponding to the inclination angle of the feeder 300 The inner case 322 is fixed to the inner circumferential surface of the feeder 300 by a bolt 322b, and the lower end portion is fastened and spaced apart from the inner circumferential surface of the lower end of the feeder 300 at a predetermined interval.

In addition, the feed support plate 324 is fitted to the inner circumferential surface of the outer case 310 is fixed by a fixing means such as a bolt, the fastening plate 324 is fastened and fixed to be spaced apart from the lower end of the inner case 322.

Here, the feed plate 324 has a fitting hole 324b is formed in the lower direction in the lower direction, the slide hole 324c toward the outside is formed centered around the center, the slide hole 324c is "+" "Formed to have a shape, the center is provided with a plate body (324a) formed with fitting holes (324d).

Furthermore, the outer side of the plate body 324a is provided to be spaced at a predetermined interval so that the feed discharge hole 324g is formed, is connected by the plate body 324a and the plurality of support ribs (324e) of the outer case 310 A fixing cylinder 324f fixed to the inner circumferential surface by fixing means such as a bolt is provided.

Then, a fluid 325 is fastened and fixed to the plate body 324a of the feed support plate 324 to push and feed the feed contained in the feeder 300 to the feed discharge hole 324g of the feed support plate 324.

Here, the fluid 325 is separated into a plurality is provided with a slide plate 326 that is mounted on the upper plate body 324a of the feed plate 324, the lower portion of the slide plate 326 is formed in the plate body 324a A fastener 326a fitted to the slide hole 324c is formed.

Further, a cap 326b for supporting the slide plate 326 from the upper portion of the slide plate 326 is further provided.

In addition, the cap (326b) is formed in the shape of a shade to support the upper portion of the slide plate 326 and at the same time to cover the top to block the penetration of the feed between the plurality of slide plate 326, the through hole in the center portion 326c is formed.

In addition, provided in the lower portion of the feed plate 324, is formed in a cylindrical shape fastening hole 327a is formed to penetrate both sides, the bolt 327c is fastened and fixed to the fastening hole 327a, feed plate A cylindrical body 327 which is positioned inside the slide 324b of the 324 and slides upward and downward is provided, and a plurality of fasteners 327b are formed on the outer side of the upper end of the cylindrical body 327. The connection member 327e is provided to connect the fastener 327b of the cylindrical body 327 and the spherical mouth 326a provided at the lower part of the slide plate 326 by hinges 326d and 327d. .

In addition, a feed discharge control member 328 is provided between the lower inner side of the air feeder 300 and the outer side of the inner case 322 to control the discharge of the feed by the raising and lowering operation.

Here, the feed discharge control member 328 is formed in a cylindrical shape so that the upper and lower parts are opened, a fastening protrusion 328a is formed at one side of the inner circumferential surface, and protrudes upward of the feeder 300 to the fastening protrusion 328a. The operating rod 328b fixed by the fixing means is fastened and fixed, and the operating rod 328b is operated by the operation means (not shown) to the upper and lowered by the feed discharge control member 328.

At this time, the feed discharge control member 328 incision groove 322c is fitted to the fastening protrusion 328a to the inner case 322 to support and support so as to perform smoothly when performing the lifting, lowering operation Is formed.

In addition, an operation unit 330 is mounted on the cylindrical body 327 of the intermittent part 320 to operate the slide plate 326 to discharge the feed contained in the feeder 300 to the outside.

Here, the operation unit 330 is connected to the cylindrical body 327 of the fluid 325 is provided with a lifting member 332 for sliding the cylindrical body 327 to the top.

Furthermore, the elevating member 332 is formed in a cylindrical shape and positioned inside the fitting hole 324b of the feed support plate 324 and at the same time positioned outside the cylindrical body 327 of the fluid 325. A fastening hole 332a corresponding to the fastening hole 327a of the 327 is formed, and the bolt 327c of the cylindrical body 327 is fitted into and fixed. A fastening member 333 having an inclined surface 333b formed on an inner circumferential surface thereof is provided.

In addition, the fastening member 333 of the elevating member 332 is provided with a fixing member 335 having a screw hole 335a formed therein so as to be screwed, the outer side of the fixing member 335 is formed in a cylindrical shape In addition, a tapered surface 334a with a tapered center portion is formed, and the inner circumferential surface of the tapered surface 334a and the fixing member 335 are connected by a plurality of fixing ribs 334b, and between the fixing ribs 334b. The feed discharge hole 334c is formed.

On the other hand, the water supply unit 340 is provided so that the end portion is located inside the touch member 334 penetrates the inner portion of the air supply 300.

Here, the water supply part 340 is provided with a water supply pipe 342 fitted into the through hole 326c formed in the cap 326b of the intermittent part 320, the cap 326b is the outside of the water supply pipe 342 Is fixed to, the end of the water supply pipe 342 is equipped with a valve 346 having an opening and closing member 345 to perform the opening and closing operation on the outside.

Furthermore, a valve 346 is fastened and fixed to the lower end of the water supply pipe 342, and the valve 346 is screwed to an end of the water supply pipe 342, and a flow path 346a is formed on the inner side of the valve 346. The water discharge hole 346b is formed, and is fitted into the water discharge hole 346b is formed to protrude to the bottom and the opening and closing portion 348 is provided with the opening and closing plate 348a is located in the flow path (346a).

In addition, a thread 348b is formed on an outer circumferential surface of the opening and closing member 348, and a locking member 349 is screwed to the thread 348b and screwed upward and downward, and includes a flow path 346a. A support 347 is fastened and fixed to an inner circumferential surface of the upper end, and an elastic member S is provided between the support 347 and the opening and closing plate 348a, and an O ring O is provided at the lower end of the opening and closing plate 348a. Is provided.

Therefore, the lifting member 332 is raised when the touch member 334 is raised, and the opening and closing member 345 is raised by the lifting of the lifting member 332 so that the valve 346 is opened. The water supplied to the water supply pipe 342 is discharged to the outside and the discharged water is supplied to the feed container 302.

The working relationship for the wet feed for pigs according to the present invention configured as described above is made by the same method as in the first embodiment, and the description of the working relationship will be omitted here.

However, as shown in FIG. 13, when the touch member 334 is raised upward by using a snout or nose, the touch member 334 rises upward while raising the lifting member 332. The cylindrical body 327 is raised when the lifting member 332 is raised.

As such, when the cylindrical body 32 is raised, the slide plate 326 is spread outward by the connecting member 327e connected to the slide plate 326, and the upper portion of the slide plate 326 is provided. The upper portion of the slide plate 326 is supported by the cap 326b so that the slide plate 326 does not rise to the upper side and opens outward along the slide groove 324c of the plate body 324a.

Therefore, the feed that is seated on the upper plate body 324a of the feed support plate 324 by the slide operation of the slide plate 326 is discharged downward through the feed outlet hole 324g of the feed support plate 324, The feed discharged to the lower portion is fed to the feed container 302 through the feed discharge hole 334c of the touch member 334.

In addition, the valve 346 is opened while the touch member 334 rises and the opening / closing member 345 screwed inside the lifting member 332 is raised by the lifting of the lifting member 332. The feed and water are simultaneously supplied to the feed container (302).

As the feed and water are simultaneously supplied to the feed container 302, the feed and water are mixed with each other, which is a liquid feed that is good for pigs to ingest.

On the other hand, when the pig falls from the touch member 334 is moved downward by the weight of the touch member 334 and the elevating member 332 and the cylindrical body 327, and thus the touch member 334 and win As the lowering member 332 and the cylindrical body 327 are lowered, the slide plate 326 slides back to the center along the slide groove 324c of the feed support plate 324.

In addition, the opening and closing member 345 of the valve 346 is lowered by the lowering of the elevating member 332 to block the valve 346 to stop the supply of water.

As described above, water and feed are simultaneously supplied to the feeding container 302 by the repetitive operation of raising and lowering the touch member 334. The feed and water are mixed with each other so that the liquid feed is good for the pig to eat. Will be supplied.

In the above description of the preferred embodiment of the wet feed for pigs according to the present invention, the present invention is not limited to this, and the present invention is not limited to the claims and the detailed description of the invention and the various modifications to be carried out within the scope of the accompanying drawings. It is possible that this also belongs to the scope of the present invention.

The present invention relates to a wet feed for pigs, so that the pigs are fed to feed the water and feed at the same time to allow the pigs to be fed to feed themselves without a separate operation so that the pigs ingest the liquid feed, The present invention relates to a wet feed for swine that promotes the growth of pigs by ingesting liquid feed at a high speed and prevents atrophic pigs from occurring.

1 is an exploded perspective view showing a wet feeder for swine according to a first embodiment of the present invention.

Figure 2 is a cross-sectional view showing a wet feeder for swine according to a first embodiment of the present invention.

Figure 3 is an enlarged perspective view of the main portion showing the interruption portion according to the first embodiment of the present invention.

Figure 4 is an enlarged perspective view of the main portion showing the operation portion according to the first embodiment of the present invention.

Figure 5 is a cross-sectional view showing the working relationship of the pig feeding wet feed according to the first embodiment of the present invention.

6 is a plan view showing the working relationship of the fluid according to the first embodiment of the present invention.

Figure 7 is a cross-sectional view showing a wet feeder for swine in accordance with a second embodiment of the present invention.

8 is an enlarged view illustrating main parts of FIG. 7;

Figure 9 is a cross-sectional view showing the working relationship of the swine wet feeder according to a second embodiment of the present invention.

Figure 10 is an exploded perspective view showing a wet feeder for swine in accordance with a third embodiment of the present invention.

11 is a cross-sectional view showing a wet feeder for swine in accordance with a third embodiment of the present invention.

12 is an enlarged view illustrating main parts of FIG. 11;

Figure 13 is a cross-sectional view showing the operation of the pig feed wet feed according to a third embodiment of the present invention.

[Description of Symbols for Main Parts of Drawing]

100, 200, 300: Feeder 102, 202, 302: Feeding container

110, 210, 310: outer case 120, 220, 320: intermittent

122, 222, 322: inner case 124, 224, 324: feed support plate

124a, 224a, 324a: Plate 124b, 224b, 324b: Fitting

124c, 224d: Fitting hole 124d, 224e, 324e: Supporting rib

124e, 224f, 324f: Fixed cylinder

125, 136c, 225, 236c, 324g, 334c: feed discharge hole

126, 226, 320: fluid 126a: fitting member

126b: protrusion 126c: side

126d: guide groove 126e: fluid plate

127, 132a, 226c, 326c: through hole 128, 228, 328: feed discharge control member

128a, 228a, 328a: fastening protrusion 128b, 228b, 328b: working rod

130, 230, 320: operating part 132, 222, 322: elevating member

133, 234, 333: fastening member

133a, 147a, 234a, 246a, 333a, 345a: thread

134, 233, 327c: bolt 134a: pin

136, 236, 334: touch member 136a, 236a, 334a: tapered surface

136b, 236b, 334b: fixed ribs 140, 240, 340: water supply

142, 242, 342: water supply pipe 146, 246, 346: valve

146a, 246a, 346a: Euro 146b, 246b, 346b: Water discharge hole

147, 247, 347: Supporting tools 148, 248. 348: Opening and closing member

148a, 248a, 348a: opening and closing plate 149, 249, 349: locking member

324c: Slide ball 326: Slide plate

326a, 327b: Fixture 326b: Cap

326d, 327d: hinge 327: cylindrical body

327a: Fastening hole 327e: Connection member

Claims (22)

In a wet feeder for swine where the feed is received and fed to the feeding container, Wet feeder for pigs, characterized in that the feed and water is supplied to the feeder at the same time by the operation of the operating unit provided in the lower portion of the feed reservoir of the feeder. In the wet feed for pigs comprising a feed reservoir and an outer case, A touch member that moves up and down, An operation unit coupled to the inside of the touch member; Pig feeding wet feeder, characterized in that consisting of a fluid for discharging the feed to the outside by the up, down operation of the operating unit. In a wet feeder for swine where the feed is received and fed to the feeding container, An outer case fixed to the outer peripheral surface of the lower end of the feed container of the feeder, It is provided on the inner side of the outer case, and the intermittent part for regulating the discharge of the feed contained in the feed reservoir; The wet feeder for pigs, characterized in that it is installed in the intermittent part, consisting of an operating part for discharging the feed contained in the feeder to the outside by operating the intermittent part. The method according to claim 2 or 3, The outer case is formed in a tubular shape, the pig feed wet feeder, characterized in that the inclined surface toward the outside formed on the upper end. The method of claim 3, wherein The intermittent portion is provided with an inner case formed in a cylindrical shape to protrude downward, Is fastened and fixed to the inside of the outer case, is provided with a feed support plate is fastened and fixed apart from the lower end of the inner case, Wet feed for pigs, characterized in that the fluid is fastened and fixed to the feed plate is operated by the operating unit. The method of claim 5, The feed plate is provided with a fitting hole protruding to the lower portion at the lower end, the fitting hole is formed in the center, the plate is formed with a fastener extending to the lower portion, and is provided to be spaced apart from the outer surface of the plate Pigment is connected to the plate by a support rib so that the feed discharge hole is formed therebetween, pig feeder is provided with a fixed cylinder fixed to the inner peripheral surface of the outer case. The method of claim 6, The fluid is formed in a cylindrical shape is fastened and fixed to the fitting hole of the feed support plate, the outer peripheral surface is provided with a fitting member formed with a locking projection for seating the feed support plate, Both side surfaces of the fitting member are formed with side surfaces formed with guide grooves inclined to one side to correspond to each other, Wet feeder for pigs, characterized in that the upper end of the fitting member is provided with a fluid plate located on the upper portion of the plate body. The method of claim 6, Wet feed for pigs, characterized in that the inclined protrusion surface protruded to the upper portion of the plate body of the feed plate. The method of claim 8, The fluid is inserted into the fitting hole of the feed plate, it is formed in a cylindrical shape, the screw hole is formed at the lower end, the upper portion is protruded to the upper portion of the plate wet feed for pigs, characterized in that the conical guide surface is formed. The method of claim 6, Wet feed for pigs, characterized in that the plate body of the feed plate is formed a plurality of slide holes symmetrically. The method of claim 10, The fluid is divided into a plurality is provided on the upper portion of the plate body, the lower plate is provided with a slide plate formed with a fastener to be fitted into the slide hole, the upper portion of the slide plate is provided with a cap fixed to cover, a plurality of fasteners on the outer peripheral surface It is formed, the lower end is provided with a cylindrical body formed with a fastening hole, a wet feed for pigs, characterized in that the connection member is hinged on both sides of each of the fasteners formed on the bottom of the fixed plate and the slide plate of the fluid. The method of claim 5, Wet feeder for pigs, characterized in that the feed discharge control member for controlling the discharge of the feed by further raising, lowering operation between the inner side of the lower end of the feeder and the outer portion of the inner peripheral case. 13. The method of claim 12, It is formed in the cylindrical shape of the feed supply control member is formed in the inside of the incision groove is formed in the lower portion of the inner case, the fastening protrusion is fitted to the incision groove, pigs, characterized in that the operating rod is fastened fixed to the fastening protrusion Wet feeding. The method according to claim 2 or 3, The operation unit is provided with a lifting member for operating the fluid of the intermittent portion, The wet feeder for pigs, characterized in that the touch member is mounted to the elevating member is provided by the touch of the pig. The method of claim 14, The elevating member is formed in a cylindrical shape is formed through holes penetrating to both sides, the bolt is fastened and fixed to the through hole, screwed to the touch member at the lower end, characterized in that provided with a fastening member formed with an inclined surface inside Extraction device of pig feeder made with. The method of claim 15, Pig end wet feeder, characterized in that the end of the bolt is further provided with a pin fitted to the guide groove formed on the side of the fluid. The method of claim 15, The bolt is pig feed wet feeder characterized in that the fastening is fixed to the fluid. The method of claim 15, The hoisting feeder for pigs, characterized in that the elevating member and the cylindrical body of the fluid is fixed by a bolt. The method of claim 14, The touch member is formed in a cylindrical shape, the center portion is formed with a tapered surface, the center is provided with a fixing member formed with a screw hole, the fixing member is fixed by a plurality of fixing ribs fixed inside the tapered surface, these fixing Pig feeding wet feeder, characterized in that the feed discharge hole is formed between the ribs. The method according to any one of claims 1 to 3, Pigment wet feeder, characterized in that the water supply is further provided on the inner side of the feeder. The method of claim 20, The water supply unit is provided with a water supply pipe which is installed to penetrate through the fluid of the intermittent portion, a wet feeder for pigs, characterized in that the valve is provided at the end of the water supply pipe. The method of claim 21, The valve has a flow path formed inside, a water discharge hole is formed at the lower end, the opening and closing plate is located in the flow path is provided with an opening and closing member protruding to the outside lower portion is inserted into the water discharge hole, the thread is formed on the outer peripheral surface of the opening and closing member The fastening member to be screwed is fastened, A supporter is fastened to an inner circumferential surface of the upper end of the valve, and an elastic member is formed between the opening and closing plate and the support, and an O-ring is provided below the opening and closing plate.

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