KR200489475Y1 - Device For Supplying And Transfering The CombinationFodder - Google Patents

Abstract

In particular, the present invention relates to an automobile for loading and delivering compounded feeds, and more particularly, to a vehicle having a feed tank divided into intermediate space open / close doors of intermediate opening / closing means, Feeding the feed to the upper part is assisted by the rotary feed member while feeding the feed to the rear side by the conveyor, and the feed is gradually distributed to the housings of both side parts while gradually advancing the vehicle by using the distribution screw again, It is a very useful and effective method to feed the diets differently according to the supply area of the livestock farmer, so as to supply them quickly and accurately.
However, in the case of the vehicle of the present invention, different kinds of feeds are divided into the front and rear storage portions respectively by the intermediate opening / closing means, The supply efficiency is increased.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a device for feeding a compound feed,

In particular, the present invention relates to an automobile for loading and delivering compound feeds, and more particularly, to an automobile for feeding feedstuffs by dividing a feed tank of a vehicle into a middle opening and closing door of a middle opening and closing means, The feed is assisted to feed the upper part by the rotation feed member while feeding the feed to the rear part, and the feed is gradually distributed to the housings of both side parts while gradually advancing the vehicle by using the distribution screw, and the feed amount of the feed is checked Therefore, the present invention relates to an automobile for loading and delivering compounded feeds that feeds different kinds of compounded feed according to the supply area of the livestock farmer and quickly and accurately supplies them.

Generally, in order to breed cattle, dairy cows and other livestock in livestock farms, it is necessary to collect the hay, such as rice straw cultivated in the fall, and cut it into a certain size and mix it with the various feeds, food waste, etc., The method of breeding was mainly used.

On the other hand, as the breeding of livestock has been massed around farms, the breeders have been cutting the hay every single day to reach the limit to supply to a large number of livestock. Considering this, nutrients called total mixed ration (TMR) It is mainly used for feeds that are mixed evenly.

The compounded feed is a feed containing various kinds of minerals and various kinds of minerals such as a roughage, a concentrated feed, water, various minerals, various kinds of minerals and the like in a proper amount. Considering the digestibility and nutrients of livestock Help to feed.

In this way, in order to efficiently distribute and feed the compounded feed to the farmhouse, various feed transportation vehicles have been recently developed and used. In the mixed feed transportation vehicle, the feed is transferred and distributed using the conveyor, A load cell is used to measure the amount of feed and the resulting price of the feed using a counter.

However, in the above-described conventional mixed feed transportation vehicle, since the feed tank is divided into one space and only the same type of mixed feed is to be supplied, different types of mixed feed can not be stacked and supplied at the same time.

In the case where the livestock farms supplied with the compound feed are in various places, since the feed amount is to be adjusted to each livestock farming house while the compound feeds are simultaneously loaded on the inside of the feed tank, It takes a lot of time.

In other words. It is not easy to supply different kinds of mixed feed separately if the feed tank is divided into a certain portion, and since the supply amount of the supplied livestock farmers can not be distinguished even with the same kind of feed, It is an inconvenient disadvantage that should be fixed.

Also, conventionally, a pulverizer for grinding and feeding a lump of compounded feed in a feed tank is constituted by a screw system, so that the lump is not easily pulverized while the compounded feed is being wound, resulting in a problem that the pulverization efficiency is lowered.

The present invention was conceived in view of this point, and it was found that the feed tank of the vehicle is divided into the middle opening and closing door of the intermediate opening / closing means, and the feed is stored in each of the partitioned spaces, and the feed is fed backward by the first and second feeding conveyors The feed is assisted by the rotary feed member while feeding the feed, and the feed is gradually distributed to the housings of both sides while gradually advancing the vehicle by using the distribution screw, and the feeding amount of the feed is checked by the weighing display means, The purpose of this study is to supply different kinds of mixed feed according to the supply area of the feeder quickly and accurately.

As means for achieving the above object,

The present invention relates to a feeding device for feeding a compound feed through a feeding port of a feed tank placed in a box shape on a vehicle body frame of a vehicle and detecting the feed amount of the compound feed by a load cell provided between the vehicle body frame and the feed tank An intermediate opening / closing means installed at an intermediate portion of the feed tank to open and close a space portion so as to separately store mixed feed; First and second conveying conveyors installed on the bottom surfaces of the front and rear portions of the intermediate opening and closing means so as to convey the mixed feed stored in the front and rear storage portions backward; A rotation feed member rotatably supported on both rear sides of the feed tank to promote rearward discharge while grinding compound feed forwardly conveyed through the first and second conveyance conveyors; An opening / closing door provided at a rear lower portion of the feed tank for opening and closing to feed the fed mixed feed; A dispensing screw for distributing the mixed feed discharged through the opening and closing door to left and right through a forward and a reverse rotation; And a nutrient supply device installed at one end of the feed tank to supply nutrients to the feed.

In addition, the nutrient solution supply device 1100 includes a housing 1110; A battery 1120 installed inside the housing 1110 and supplied with electric power from outside to provide electricity to the device after charging electricity; A rotation motor (1130) electrically connected to the battery to receive power from the battery and convert it into a mechanical rotational motion; A motor shaft 1131 mounted on the central axis of the rotary motor and rotating in accordance with the rotation of the rotary motor, the bottom surface of which is in the form of a waveform, and the shape of the curved waveform continuously rotates; A vertical driving cylinder 1140 positioned at a lower end of the rotary motor and adapted to move up and down and up and down while converting the rotation of the rotary motor into reciprocating vertical motion; The upper and lower driving cylinders 1140 are positioned on the central axis and are in mechanical contact with the motor shaft 1131 of the rotating motor 1130 and are in contact with the motor shaft 1131 of the rotating motor 1130 And a rotating shaft 1141 for moving up and down while repeating separation; The upper and lower driving cylinders 1140 are fixed to the outer periphery of the upper and lower driving cylinders, one side of which is fixed to the inner side of the housing and the other side of which is fixed to the lower and lower driving cylinders. (1150) for lifting and lowering the support member The upper and lower driving cylinders 1140 are inserted into and connected to the upper and lower driving cylinders 1140. The upper and lower driving cylinders 1140 are cylindrically shaped and have a plurality of holes 1161 for passing the nutrient solution. A nutrient applicator 1160; One side is coupled to the nutrient applicator 1160 and the other side is coupled to one end of the housing 1110. The upper and lower driving cylinders and the nutrient applicator 1160 are simultaneously fixed on the basis of the housing to make the nutrient applicator 1160 perform gravity And a temporary fixing means 1180 for preventing the liquid from dropping down due to the action of the liquid.

In addition, the nutrient dispenser temporary fixing means 1180 is formed in a wedge shape having a sharp end and is forcibly fitted to the coupling hole of the upper and lower driving cylinders and the coupling hole of the nutrient applicator, A hooking hook 1181 for holding the hooked state of the hook 1181; A connecting piece 1182 integrally connected to the hooking hook 1181 in an oblique direction and guiding the hooking hook 1181 to move in a clockwise or counterclockwise direction by a rotational movement; A rotation supporting hinge 1183 provided between the connecting piece 182 and the latching hook 1181 to support the rotation of the connecting piece; The connecting piece is installed between the connecting piece 1182 and the upper and lower driving cylinder 1140 and pushes the connecting piece outward so that the hook 1181 moves in the counterclockwise direction to maintain the state where the nutrient applicator is coupled to the upper and lower driving cylinders When the connecting piece is pressed by an external force and is pressed in the direction of the up and down driving cylinder, the hook 1181 is separated from the upper and lower driving cylinders 1140 and the nutrient applicator 1160, A support spring 1184 for guiding the spring member 1140 to be detached from the support shaft 1140; A sliding flow piece 1185 provided at an end of the connecting piece 1182 and moving simultaneously when the hooking hook 1181 and the connecting piece 1182 move up and down in accordance with the upward and downward flow of the up and down driving cylinder 1140; And supports the upward and downward movement of the sliding flow piece 1185 by slidingly coupling with the sliding flow piece 1185 and pushes the connection piece 1182 by pushing the nutrient application device 1160 toward the up and down driving cylinder 1140 at the time of replacement The connection piece 1182 is rotated around the rotation support hinge pin 1183 so that the hook 1181 is separated from the upper and lower drive cylinders 1140 and the nutrient applicator 1160, And a push button 1186 for guiding the upper and lower driving cylinders 1140 to be removed from the upper and lower driving cylinders 1140.

Therefore, as described above, when the cargo feeding vehicle of the mixed feed according to the present invention is used, the feed tank of the car is divided into the middle opening and closing door of the intermediate opening and closing means, 1, while feeding the feed to the rear with the second conveying conveyor, the feed of the upper part is assisted by the rotation feed member, and the feed is gradually distributed to the housings of both side parts while gradually advancing the vehicle using the distribution screw, , It is a very useful and effective method to feed different kinds of mixed feed according to the feeding area of the livestock farmer and to supply them quickly and accurately.

Fig. 1 is a perspective view of a vehicle carrying a mixed feed according to the present invention; Fig.
Fig. 2 is a side cross-sectional view of the loaded transport vehicle of the compound feed according to the present invention; Fig.
FIG. 3 is a perspective view showing a pulverizing member of a loaded transport vehicle of a compound feed according to the present invention. FIG.
Fig. 4 is a view showing the metering display means of the loaded transport vehicle of the compounded feed according to the present invention. Fig.
FIG. 5 is a view showing the state of use of the feed transport vehicle of the compound feed according to the present invention. FIG.
FIG. 6 is an exploded perspective view of the nutrient supply device of the present invention; FIG.
7 is a cross-sectional view and a main part sectional view of the nutrient solution supply device of the present invention.
FIG. 8 is an enlarged cross-sectional view of the main part of the nutrient solution supply device of the present invention. FIG.
Fig. 9 is a block diagram of a rotation motor and an up-and-down driving cylinder of the nutrient solution supply device of the present invention; Fig.
FIG. 10 is an enlarged view of the rotation motor and the vertical drive cylinder of the nutrient solution supply device of the present invention; FIG.
11 is a schematic view of a provisional fixing means of the nutrient solution supply device of the present invention.
Fig. 12 is another angular view of the temporary fixing means of the nutrient supply device of the present invention. Fig.
Fig. 13 is a view showing a hole structure for passing the nutrient solution according to the present invention. Fig.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following description are provided for illustrative purposes only and are not intended to limit the scope of the present invention.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. It is to be understood that the following terms are defined in consideration of functions in the present invention, and may vary depending on the user, the intention or custom of the operator, and the like. Therefore, the definition should be based on the contents of this whole design.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention and are incorporated in and constitute a part of this specification. The configuration is omitted as much as possible and the functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of components that have been used in the prior art among the functional configurations not shown in the following description, The relationship between the elements and the added components for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments will appropriately modify the terms so that those skilled in the art can clearly understand the present invention. However, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following examples are intended to illustrate the technical idea of the present inventive concept in a more effective manner to those skilled in the art, .

Fig. 1 is a perspective view of a vehicle carrying a mixed feed according to the present invention; Fig.

Fig. 2 is a side cross-sectional view of the loaded transport vehicle of the compound feed according to the present invention; Fig.

FIG. 3 is a perspective view showing a pulverizing member of a loaded transport vehicle of a compound feed according to the present invention. FIG.

Fig. 4 is a view showing the metering display means of the loaded transport vehicle of the compounded feed according to the present invention. Fig.

FIG. 5 is a view showing the state of use of the feed transport vehicle of the compound feed according to the present invention. FIG.

FIG. 6 is an exploded perspective view of the nutrient supply device of the present invention; FIG.

7 is a cross-sectional view and a main part sectional view of the nutrient solution supply device of the present invention.

FIG. 8 is an enlarged cross-sectional view of the main part of the nutrient solution supply device of the present invention. FIG.

Fig. 9 is a block diagram of a rotation motor and an up-and-down driving cylinder of the nutrient solution supply device of the present invention; Fig.

FIG. 10 is an enlarged view of the rotation motor and the vertical drive cylinder of the nutrient solution supply device of the present invention; FIG.

11 is a schematic view of a provisional fixing means of the nutrient solution supply device of the present invention.

Fig. 12 is another angular view of the temporary fixing means of the nutrient supply device of the present invention. Fig.

Fig. 13 is a view showing a hole structure for passing the nutrient solution according to the present invention,

The constitution of the present invention is such that the compounded feed is loaded through the feed port 14 of the feed tank 12 loaded in a box shape on the vehicle body frame 1 of the vehicle 10 and fed to the body frame 1 and the feed tank 12. The feed vehicle according to claim 1, wherein the feeding amount of the mixed feed is detected by a load cell (100) installed between the feed tank (12) and the feed tank An intermediate opening / closing means (30) to be opened / closed; First and second conveying conveyors (20) (50) installed on the bottom surfaces of the front and rear portions of the intermediate opening / closing means (30) to feed the mixed feed stored in the front and rear storage portions backward; The feed tank 12 is rotatably supported on both rear sides of the feed tank 12 so as to scrape the mixed feed forwardly conveyed through the first and second conveying conveyors 20, A supply member (60); An opening / closing door 80 installed at a rear lower portion of the feed tank 12 and opened / closed in a sliding manner to feed the fed mixed feed; And a dispensing screw 90 for distributing the mixed feed discharged through the opening and closing door 80 to left and right through a forward and a reverse rotation.

The intermediate opening and closing means 30 is provided so as to be rotatable with respect to the rotary support shaft 36 at an intermediate upper corner portion of the feed tank 12 so that the space portion of the feed tank 14 is divided into two portions An intermediate opening / closing door 32 for forming a reinforcing bent portion 34 for strength reinforcement; An operation cylinder 40 fixed to the lower side surface of the intermediate opening / closing door 32 by a fixing portion 42 to open / close the intermediate opening door 32; And a fixed shaft 38 fixedly supported on both sides of the feed tank 14 to support the operating cylinder 40.

The first and second conveying conveyors 20 and 50 include first and second hydraulic motors 26 and 56 fixed to the feed tank 14 to generate power. The first and second conveyance chains 24 and 54, which are driven by gears engaged with the first and second hydraulic motors 20 and 50 and installed at the rear side, and; (52) fixed to the first and second transport chains (24) and (54) and protruded and formed so as to feed the compound feed loaded on the feed tank (14) .

The rotation supply member 60 includes a third hydraulic motor 66 installed in the feed tank 12 and generating power by the oil pressure supplied from the oil compressor 2; A plurality of spacing plates (62) fixed to the motor shaft (67) of the third hydraulic motor (66) and spaced apart from one another at regular intervals; A protrusion fixing plate 64 fixedly installed at a rectangular corner of the gap holding plate 62 in the width direction of the feed tank 14; A support shaft (70) for fixing the opposite side of the gap holding plate (62) to the feed tank (12) to support the rotation; And a rotation protrusion 68 which is fixedly projected on the outer surface of the protrusion fixing plate 64 to scrape back the compounded feed in the feed tank 14 while scraping it backward.

One end is fixed to the rear surface of the opening and closing door 80 by the fixing portion 84 and the other end is configured to be opened and closed by the opening and closing cylinder 82 provided on the inner wall surface of the feed tank 12.

The distribution screw 90 is installed at a predetermined interval so as to rotate by the chain 94 rotating by the power of the fifth hydraulic motor 92 installed at the rear bottom portion of the feed tank 12 .

The weighing display means 30 includes a sum box 120 for calculating the weight detected by the load cell 100; An indicator (116) for indicating the weight of the compound feed calculated in the summing box (120) so that the driver can know the weight; A printer (118) for issuing a receipt after supplying the compound feed indicated by the indicator (116); And an inverter 114 installed between the indicator 116 and the power source 112 for supplying electricity to the printer 118 to convert the direct current into an AC current.

The oil compressor (2) generates an oil pressure using a reduction device that is powered by the transmission of the vehicle (10).

Hereinafter, the function and effect of the present invention will be described in detail based on the accompanying drawings.

First, the use state of the mixed transportation feed vehicle according to the present invention will be described. In a state where the vehicle 10 according to the present invention is introduced into the bottom portion of the discharge conveyor in the production line of the compound feed, The compound feed is supplied to the feed port (14) of the feed tank (12) and stored.

At this time, since the feed tank 12 of the vehicle 10 according to the present invention is partitioned by the intermediate opening / closing door 32 serving as the intermediate opening / closing means 30, the feed storage tank 12 of the vehicle 10 It is possible to load and store the compounded feed of the kind in the front portion of the feed tank 12 and the compound feed in the rear portion.

Even if the same feed is loaded before and after the feed tank 12, when a predetermined amount of compound feed is supplied to each of the livestock farms in area A and the livestock farm in area B, It may be preliminarily measured and loaded in the storage unit.

In this way, the cargo transportation feeding vehicle 10 of the compound feed is moved to the livestock farm to which the compound feed stored in the feed tank 12 is to be fed, and the vehicle 10 is gradually driven to the housing of the livestock farming The second hydraulic motor 56 is operated by the oil pressure generated in the oil compressor 2 provided in the vehicle body frame 1 to rotate the second conveyance chain 54 to drive the second conveyance conveyor 50 And feed the mixed feed to the rear by the second locking projection 52.

The mixed feed falling into the distribution screw 90 in a state in which the opening and closing door 80 is pulled and opened by the opening and closing cylinder 82 fixed to the fixed portion 84 is fed to the fifth hydraulic motor 92 The distribution screw 90 provided at regular intervals by the forward and reverse rotating chains 94 by the forward and reverse rotations is rotated in the forward and reverse directions and the compound feed is uniformly distributed in the housing arranged on the left and right sides of the vehicle 10, Distribution.

At this time, the compound feed fed through the second conveying conveyor 50 is driven by the third hydraulic motor 66 by the rotation feed member 60, so that the gap holding plate 62 and the projection fixing plate 64 The rotating lug 68 is rotated to feed the liquid to the distribution screw 90 while grinding the agglomerated mass due to moisture or pressure in the mixed feed. The rotation supply member 60 is rotatable in a forward direction or a reverse direction.

The intermediate opening and closing door 30 serving as the intermediate opening and closing door 32 is connected to the operation cylinder 38 fixed to the fixed shaft 38. [ (40) to push the intermediate opening / closing door (32) with respect to the rotation support shaft (36) and open rearward.

The first hydraulic motor 26 is operated by the oil pressure generated in the oil compressor 2 to rotate the first conveyance chain 24 to drive the first conveyance conveyor 20 and to rotate the first conveyance chain 22 And the opening and closing door 80 is crushed by the rotation feed member 60 through the second conveying conveyor 50 which has a constant step with respect to the first conveying conveyor 20, To the distribution screw 90, and is distributed and supplied to the housing.

The weight of the compound feed supplied after the load cell 100 is installed is calculated in the summing box 120 in the bottom side body frame 1 of the feed tank 12 and the indicator 116 installed on the driver's seat is calculated. The printer 118 and the summing box 120 can display the supply weight of the vehicle 10 and the receipt of the supplied compounded food on the printer 118. The indicators 116, The power source 112 is supplied and is converted into direct current and alternating current at the inverter 114. [

On the other hand, when different kinds of feeds are loaded in the spaces on the front and rear sides of the intermediate opening and closing door 32, they are conventionally supplied by using different vehicles or by using two different vehicles. However, The feeding efficiency of the vehicle 10 is increased because different types of feed are separately supplied to the front and rear storage portions.

In addition, even when the feedstock of the same kind is loaded in the feed tank 12, when the amounts of the feedstuffs to be stored in the storage sections before and after the feedstock are previously measured and supplied to the two farmhouses while being loaded, The indicator 116 can be selectively operated and supplied to the first and second conveying conveyors 20 and 50 without the need to measure the report supply amount and when the indicator 116 is supplied to two or more farms, The supply amount can be measured and distributed to the housing, and the charge can be processed by the printer 118 on the spot to settle the cost.

Meanwhile, in the present invention, a nutrient supply device 1100 is further installed in the feed tank of the vehicle so that nutrients can be supplied to the feed.

The nutrient solution supply device 1100 includes a housing 1110, a battery 1120, a rotating motor 1130, a vertical driving cylinder 1140, a lifting spring 1150 for lifting and lowering support, a nutrient applicator 1160 A nutrient solution storage means 1170, and an applicator temporary fixing means 1180.

The housing 1110 has an internal space, and various devices are built therein. That is, the housing is constructed by mutually joining two cases each having one side opened, and various devices are installed in a space portion generated in the process of joining the case. Such a housing is generally similar in structure to means having a void portion therein.

The battery 1120 is installed inside the housing 1110 and receives electric power from the outside to charge the electricity and provide electricity to the device. That is, the battery is installed on the upper part of the housing, and is electrically connected to the external power supply unit to receive electricity, temporarily store the supplied power, and supply electricity to various devices requiring power.

The rotation motor 1130 is electrically connected to the battery, receives power from the battery, converts the rotation into a mechanical rotation motion, and freely rotates the motor shaft. At this time, the motor shaft 1131 has a bottom surface in the form of a waveform in the vertical direction, and the shape of the curved waveform continuously rotates. That is, the rotary motor is rotated by receiving power from the battery, and the bottom surface of the motor shaft is formed in a curved waveform shape and rotated.

The up-and-down driving cylinder 1140 is mechanically connected to the rotation motor, and the rotation of the rotation motor is converted into a reciprocating vertical motion and flows upward and downward. At this time, the rotating shaft 1141 of the up-and-down driving cylinder 1140 is formed in a waveform shape in the vertical direction so as to move upward and downward while repeating mutual coupling and separation with the waveform of the motor shaft of the rotating motor. That is, the upper and lower drive cylinders are formed in the shape of a waveform in which the rotation axis is bent like the motor shaft of the rotation motor so that the up and down movement operation is performed in accordance with the rotation of the rotation motor. .

The lifting spring 1150 for lifting and lowering support is installed on the outer periphery of the upper and lower driving cylinders 1140 and has one side fixed to the inner side of the housing 1110 and the other side fixed to the lower side of the upper and lower driving cylinders 1140 The upper and lower drive cylinders 1140 are elastically supported so that the up and down drive cylinders 1140 can maintain the up and down operation. That is, since the upward / downward support elastic spring 1150 performs a spring action to continuously push up and down the driving cylinder 1140 in the upward direction, the rotation of the rotary motor 1130 causes the waveform of the motor shaft 1131 of the rotary motor The upper and lower driving cylinders are lowered while the waveform of the rotating shaft 1141 of the upper and lower driving cylinder 1140 is shifted and the upper and lower driving cylinders 1140 are lifted by the elevating and lowering support elastic spring 1150 after the stapling is completed, 1141 and the waveform of the motor shaft 1131 of the rotary motor 1130 are in close contact with each other. The upper and lower driving cylinders 1140 are repeatedly moved closer to and away from the rotary motor 1130 so that the upper and lower driving cylinders 1140 are continuously moved up and down about the rotary motor 1130.

The nutrient applicator 1160 has a body cylinder shape and has a plurality of holes 1161 for passing nutrients through the bottom thereof. The nutrient applicator 1160 is inserted into the upper and lower driving cylinders 1140 and supplies nutrients . That is, the nutrient applicator 1160 allows the nutrient solution stored in the nutrient applicator 1160 to be discharged to the outside through the nutrient passage hole 1161. Since the nutrient applicator 1160 is installed inside the up-down driving cylinder, The nutrient applicator 1160 is struck at the time of the up-and-down operation of the cap 1140 to output the nutrient solution to the outside according to the inertia rule.

The nutrient solution storage means 1170 is inserted into the nutrient applicator 1160 and is output through the nutrient passage hole 1161 of the nutrient applicator 1160. [ That is, the nutrient solution storage means 1170 is connected to the nutrient solution dispenser 1160 in a state where the nutrient solution is fixed and the lower part is opened. When the nutrient solution storage means is moved to the outside . In fact, since the nutrient passage holes 1161 are formed finely, when the upper and lower driving cylinders 1140 are not operated, they are not easily discharged to the outside.

The nutrient dispenser temporary fixing means 1180 is coupled to the nutrient applicator 1160 at one side and coupled to one end of the housing 1110 at the other side and connected to the upper and lower driving cylinders 1140 and the nutrient solution dispensing The upper and lower driving cylinders 1140 and the nutrient applicator 1160 move up and down while preventing the nutrient applicator 1160 from falling down due to gravity action, (1160), the liquid applicator is released from the upper and lower driving cylinders by releasing the fixing of the nutrient applicator based on the housing by pressing the button. In other words, the temporary fixing means of the nutrient applicator temporarily locks up and down the driving cylinder and the nutrient applicator to prevent the nutrient applicator from being removed during operation, and when the nutrient solution existing in the nutrient applicator is used up, Releasing the liquid and guiding the liquid storage means to re-store.

The temporary fixing means 1180 includes a locking hook 1181, a connecting piece 1182, a rotation supporting hinge 1183, a supporting spring 1184, a sliding sliding piece 1185, a push button 1186).

The hooking hook 1181 is formed in a sharp wedge shape at the end and is forcibly fitted to the coupling hole 1160a of the upper and lower driving cylinder 1140 and the coupling hole 1160a of the nutrient applicator 1160, (1160) is coupled to the inner periphery of the up-down driving cylinder (1140).

The connecting piece 1182 is integrally connected to the latching hook 1181 in an oblique direction and guides the latching hook 1181 to move clockwise or counterclockwise by the rotational movement.

The rotation supporting hinge 1183 is installed between the connecting piece 1182 and the hook 1181 and acts as a center shaft for rotating the connecting piece.

The supporting spring 1184 is installed between the connecting piece 1182 and the upper and lower driving cylinder 1140 and pushes the connecting piece outward so that the hook 1181 moves in the counterclockwise direction and the nutrient applicator is coupled to the upper and lower driving cylinders When the connecting piece is pressed by the external force and pressed in the direction of the up and down driving cylinder, the hook 1181 for hooking is separated from the upper and lower driving cylinders 1140 and the nutrient applicator 1160, (1160) to be removed from the upper and lower driving cylinders (1140).

The sliding flow piece 1185 is installed at an end of the connecting piece 1182 and moves simultaneously when the hooking hook 1181 and the connecting piece 1182 move upward and downward according to the upward and downward movement of the upper and lower driving cylinders 1140.

The push button 1186 is slidably engaged with the sliding flow piece 1185 to support the upward and downward movement of the sliding flow piece 1185. The push button 1186 pushes the nutrient solution dispenser 1160 in the direction of the up and down driving cylinder 1140 The connection piece 1182 is rotated about the rotation supporting hinge pin 1183 by the connection piece 1182 being pressed so that the hook 1181 is separated from the upper and lower driving cylinder 1140 and the nutrient applicator 1160 And serves to guide the nutrient solution applicator 1160 to be removed from the upper and lower driving cylinders 1140.

1: Body frame 2: Oil compressor
10: vehicle 12: feed tank
14: Inlet 20: First conveying conveyor
22: first stopping device 24: first feeding chain
26: first hydraulic motor 30: intermediate opening / closing means
32: Middle opening / closing door 34:
36: rotary support shaft 38: fixed shaft
40: operating cylinder 42:
50: second conveying conveyor 52: second locking projection
54: second feed chain 56: second hydraulic motor
60: rotation feed member 62:
64: projection fixing plate 68: rotation projection
80: opening / closing door 90: dispensing screw
92: fifth hydraulic motor 94: chain
100: load cell 120:

Claims (3)

A feed vehicle for a compounded feed to load compounded feed through a feed port of a feed tank mounted in a box shape on a vehicle body frame of a vehicle and detect the feed amount of the compounded feed by a load cell provided between the vehicle body frame and the feed tank,
An intermediate opening / closing means installed at an intermediate portion of the feed tank to divide the space portion so as to store the mixed feed separately;
First and second conveying conveyors installed on the bottom surfaces of the front and rear portions of the intermediate opening and closing means so as to convey the mixed feed stored in the front and rear storage portions backward;
A rotation feed member rotatably supported on both rear sides of the feed tank to promote rearward discharge while grinding compound feed forwardly conveyed through the first and second conveyance conveyors;
An opening / closing door provided at a rear lower portion of the feed tank for opening and closing to feed the fed mixed feed;
A dispensing screw for distributing the mixed feed discharged through the opening and closing door to left and right through a forward and a reverse rotation;
And a nutrient supply device installed at one end of the feed tank to supply nutrients to the feed;

The nutrient supply device 1100 includes:
A housing 1110;
A battery 1120 installed inside the housing 1110 and supplied with electric power from outside to provide electricity to the device after charging electricity;
A rotation motor (1130) electrically connected to the battery to receive power from the battery and convert it into a mechanical rotational motion;
A motor shaft 1131 mounted on the central axis of the rotary motor and rotating in accordance with the rotation of the rotary motor, the bottom surface of which is in the form of a waveform, and the shape of the curved waveform continuously rotates;
A vertical driving cylinder 1140 positioned at a lower end of the rotary motor and adapted to move up and down and up and down while converting the rotation of the rotary motor into reciprocating vertical motion;
The upper and lower driving cylinders 1140 are positioned on the central axis and are in mechanical contact with the motor shaft 1131 of the rotating motor 1130 and are in contact with the motor shaft 1131 of the rotating motor 1130 And a rotating shaft 1141 for moving up and down while repeating separation;
The upper and lower driving cylinders 1140 are fixed to the outer periphery of the upper and lower driving cylinders, one side of which is fixed to the inner side of the housing and the other side of which is fixed to the lower and lower driving cylinders. (1150) for lifting and lowering the support member
The upper and lower driving cylinders 1140 are inserted into and connected to the upper and lower driving cylinders 1140. The upper and lower driving cylinders 1140 are cylindrically shaped and have a plurality of holes 1161 for passing the nutrient solution. A nutrient applicator 1160;
One side is coupled to the nutrient applicator 1160 and the other side is coupled to one end of the housing 1110. The upper and lower driving cylinders and the nutrient applicator 1160 are simultaneously fixed on the basis of the housing to make the nutrient applicator 1160 perform gravity And a temporary fixing means (1180) for preventing the nutrient application device from falling down due to the action of the nutrient application device (1180). delete The method according to claim 1,
The nutrient dispenser temporary fixation means 1180 includes:
A hook for hooking 1181 for holding the nutrient applicator coupled to the inner circumferential edge of the upper and lower driving cylinders and forcibly engaging with the coupling hole of the upper and lower driving cylinders and the coupling hole of the nutrient applicator, ;
A connecting piece 1182 integrally connected to the hooking hook 1181 in an oblique direction and guiding the hooking hook 1181 to move in a clockwise or counterclockwise direction by a rotational movement;
A rotation supporting hinge 1183 provided between the connecting piece 182 and the latching hook 1181 to support the rotation of the connecting piece;
The connecting piece is installed between the connecting piece 1182 and the upper and lower driving cylinder 1140 and pushes the connecting piece outward so that the hook 1181 moves in the counterclockwise direction to maintain the state where the nutrient applicator is coupled to the upper and lower driving cylinders When the connecting piece is pressed by an external force and is pressed in the direction of the up and down driving cylinder, the hook 1181 is separated from the upper and lower driving cylinders 1140 and the nutrient applicator 1160, A support spring 1184 for guiding the spring member 1140 to be detached from the support shaft 1140;
A sliding flow piece 1185 provided at an end of the connecting piece 1182 and moving simultaneously when the hooking hook 1181 and the connecting piece 1182 move up and down in accordance with the upward and downward flow of the up and down driving cylinder 1140;
And supports the upward and downward movement of the sliding flow piece 1185 by slidingly coupling with the sliding flow piece 1185 and pushes the connection piece 1182 by pushing the nutrient application device 1160 toward the up and down driving cylinder 1140 at the time of replacement The connection piece 1182 is rotated around the rotation support hinge pin 1183 so that the hook 1181 is separated from the upper and lower drive cylinders 1140 and the nutrient applicator 1160, And a push button (1186) for guiding the upper and lower driving cylinders (1140) to be detached from the upper and lower driving cylinders (1140).

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