KR20160040007A

KR20160040007A - Electric power tool for sampling livestock product

Info

Publication number: KR20160040007A
Application number: KR1020140133439A
Authority: KR
Inventors: 박태수
Original assignee: 박태수
Priority date: 2014-10-02
Filing date: 2014-10-02
Publication date: 2016-04-12

Abstract

The present invent invention relates to an electric power tool for collecting a livestock product, capable of using a bullet-type capsule for collecting and storing a sample of a conductor. In addition, the electric power tool is capable of accurately recording and managing history information of the collected sample by outputting the same with a printer after scanning the history information and storing the same in a memory equipped inside. According to the present invention, the electric power tool for collecting a livestock product comprises: a dry body; a rotational movement unit including a driver rotatably installed, and formed with a coupling protrusion on the terminal outer circumferential surface to be interlocked to a coupling groove of the bullet-type capsule; a scanner for reading information of a tag in which the history information of the conductor is recorded; and a controller equipped with a memory for storing the history information of the conductor read by the scanner for controlling the rotational movement unit and the scanner.

Description

ELECTRIC POWER TOOL FOR SAMPLING LIVESTOCK PRODUCT.

More particularly, the present invention relates to an electric power tool for sampling a livestock product. More particularly, the present invention relates to a power tool for collecting and storing a sample of a conductor, Which can be output to a printer, so as to accurately record and manage the history information of the sampled sample.

Livestock traceability currently in operation can track all history from the production of livestock to distribution. The Livestock traceability system for the operation of beef traceability as one of the livestock traceability records records and manages information from the birth of the cattle to the slaughtering / processing / sale, If a problem occurs, it can track its history and respond quickly.

In order to operate this livestock traceability system, animal identification numbers are assigned to cattle and pigs, and livestock which are difficult to identify are prohibited from transferring, pumping or exporting. Such an animal product traceability system is disclosed in U.S. Patent No. 8,315,440 entitled " System and method for animal identification using iris images ", and U.S. Patent No. 7,400,742 entitled "Animal Identification and Safety System identification and security system ".

On the other hand, identification of livestock is carried out by ear tags, followed by ear notching and DNA (Deoxyribonucleic acid) identity test. For DNA identity testing, samples are taken from conductors, for example, all cattle slaughtered in our country. Afterwards, the identity of the beef sold and the DNA of the sample are checked for traceability. The livestock product quality evaluator directly samples the conductors by using a sampling tool such as a sterilized scissors or a pinsette.

However, as described above, there is a problem that a sample for the DNA identity test of the livestock products requires a lot of time and effort to collect the sample because the livestock quality assessor must pick up the conductor directly by aseptically cutting it using the sampling tool. In particular, the sampling instruments must be used individually for each conductor, and the sampled specimens should be stored in sterile plastic bags. Therefore, there is a problem in that the process of preparing and using the sample collecting tool and the sterilized plastic bag is very troublesome and the workability is poor. In addition, since the livestock product quality evaluator cuts the conductor by hand and collects and records the sample, it is difficult to level the sample and it is difficult to record and manage the history information.

DISCLOSURE Technical Problem The present invention is intended to solve various problems occurring in the above-mentioned conventional sampling of animal products. An object of the present invention is to provide a power tool for harvesting and sampling animal products, which can cut and conduct a simple and hygienic cutting of a conductor by rotating a blunt-type capsule for cutting and storing a sample of a livestock product and storing the sample .

It is another object of the present invention to provide a method and apparatus capable of scanning history information of a conductor and storing it in a memory provided therein and outputting it as an attachable NFC tag using a printer, And to provide a power tool for sampling animal products that can be recorded and managed.

A power tool for sampling an animal product sample according to the present invention comprises a rotary body including a key body, a rotatable unit including a driver rotatably installed and having a coupling protrusion formed on an outer circumferential surface of the distal end so as to be engaged with a coupling groove of the blind capsule, And a controller for controlling the rotating unit and the scanner, the power tool for sampling an animal product sample having a scanner for reading information of a tag in which information is recorded, and a memory for storing history information of a conductor read by the scanner, do.

Further, the gun body of the present invention further includes a guide cover provided adjacent to the driver.

The apparatus further includes a guide formed on one side of the guide cover of the present invention, wherein the guide is configured to engage with a guide of the magazine equipped with the capsule.

In addition, the gun body of the present invention further includes a communication port connected to the controller, and further includes a cradle connected to the communication port to transmit and receive information recorded in the memory to an external device.

According to the present invention, it is possible to collect and store a sample by cutting the conductor easily and hygienically by rotating the blip-shaped capsule using a power tool for sampling agricultural products. Therefore, it is easy to cut and store a sample of the livestock product and to use it conveniently. In addition, it has an effect of improving the sanitary property, workability and storage of the sample.

In addition, the electric power tool for livestock sample collection can scan the history information of the conductor, store it in a memory provided therein, and output it to an attachable NFC tag using a printer. Therefore, it is possible to quickly record, manage, and confirm the history information of the sample stored in the plurality of blister-type capsules mounted on the magazine. In addition, since it uses short-range wireless communication such as an NFC tag, transmission / reception of the history information is facilitated.

1 is a perspective view showing the construction of a power tool for sampling animal products according to the present invention.
Fig. 2 is a front view of the power tool for sampling the livestock products shown in Fig. 1;
FIG. 3 is a perspective view illustrating the configuration of a magazine equipped with a blister-type capsule for sampling animal products mounted on a power tool for sampling animal products according to the present invention.
4 is a perspective view of the blister-type capsule shown in Fig.
FIG. 5 is a perspective view illustrating a state before mounting a wiping capsule mounted on a magazine in a driver of a power tool for sampling a livestock product sample according to the present invention.
FIG. 6 is a front view of a state before collecting a sample from a conductor using a blind-type capsule mounted on a power tool for sampling a livestock product according to the present invention shown in FIG.
FIG. 7 is a front view showing a state after collecting a sample from a conductor by a blind-type capsule mounted on a power tool for sampling a livestock product according to the present invention shown in FIG.
FIG. 8 is a cross-sectional view showing a state in which a blind-type capsule in which a sample is stored using a power tool for sampling a livestock product according to the present invention shown in FIG. 7 is mounted on a magazine.
FIG. 9 is a perspective view schematically showing a state in which a power tool for sampling a livestock product sample, a notebook computer, and a printer are connected to each other according to the present invention.
10 is a front view showing the state of the magazine to which the NFC tag is output, which is output from the printer of FIG.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

Hereinafter, preferred embodiments of a magazine equipped with a wiping capsule for sampling animal products according to the present invention will be described in detail with reference to the accompanying drawings.

1, 2, and 7, a power tool 110 for sampling an animal product sample according to the present invention includes a bladder-type capsule 220 for picking up a sample 11 from a conductor 10, (10). The power tool 110 is configured in such a form that it can be hand held by an animal product quality evaluator. That is, the power tool 110 has a gun body 111 hollow. A handle (Handle) 112 is formed on one side of the gun body 111 so that the user can grasp the handle. A guide cover 113 is provided at the other end of the gun body 111. The guide cover 113 is opened at its front side, its both sides and rear portions are connected to each other, and the rear portion is fixed to the other end of the key body 111. The guide 113a is provided on at least one surface on the inner side of the guide cover 113. [ The holes 114 are formed at intervals in the lower direction of the guide 113a so as to communicate with the hollow interior of the gun body 111.

A scanner button 115 and a trigger button 116 are provided on the upper portion of the handle 112. A plurality of LED lamps 117 are provided on the upper outer surface of the gun body 111 to indicate whether the power tool 110 is powered or not. The counter 118 counts the number of the blister-type capsules 220 for collecting the sample 11 and inputs the data to the controller 150. The number of the LED lamps 117 Respectively. The speaker 119 is provided at an upper portion of the handle 112 adjacent to the scanner button 115 and the trigger button 116. The speaker 119 alerts the user whether or not the power is turned on and the operating state. A power on / off button 120 is provided below the gun body 111.

As shown in FIG. 2, the rotary unit 130 is partly mounted to be exposed to the outside of the gun body 111, and rotates the bladder-type capsule 220. That is, the rotational unit 130 includes a motor 131 and a driver 132 having a coupling protrusion 133 on the outer peripheral surface of the distal end. Therefore, when the shaft of the motor 131 rotates, the driver 132 connected to the shaft rotates together. When the driver 132 rotates, the blind-type capsule 220 mounted on the coupling protrusion 133 provided on the outer peripheral surface of the driver 132 is rotated.

The scanner 140 is installed at a lower portion of the rotation unit 130 and is mounted inside the gun body 111 which communicates with the hole 114 preferably. A controller 150 is installed under the hollow body 111 and includes a memory and a microcomputer. The controller 150 is electrically connected to the LED lamp 117, the counter 118, the speaker 119, the rotary unit 130 and the scanner 140, and the rotary unit 130 and the scanner 140 Control operation. A battery 160 and a communication port 170 are installed in a lower portion of the body of the gun body 111 where no interference with the power on / off button 120 and the controller 150 occurs.

Referring to FIG. 1, a cradle 180 is connected to an external device, that is, a notebook computer, a computer, and other recording mediums (not shown) . The cradle 180 is connected to an external device through a cable, but is not limited thereto. The cradle 180 may be a wireless communication device such as a Wi-Fi module or a Bluetooth module. The cradle 180 according to the present invention includes a receiving groove 181 for receiving the lower portion of the gun body 111 of the power tool 110 and a receiving groove 181 for receiving the communication port 170 mounted on the lower portion of the gun body 111 And a terminal 182 provided in the groove 181.

As shown in FIGS. 3 to 5, the magazine 210 is a rectangular bar type, and is fixed with bolts so that the left side and the right side are not separated from each other in the longitudinal direction. The magazine 210 has a through hole 213 penetrating through one end 211 and the other end 212 of the rim. The through holes 213 are formed in the circumference of the magazine 210 at ten intervals along the longitudinal direction. The guide 214 is provided on at least one side of the side surface of the magazine 210 adjacent to the through hole 213. The guide 214 is removed from the one end 211 of the through hole 213 by a predetermined length in the direction of the other end 212 and the blind capsule 220 in which the power tool 110 is inserted into the through hole 213 is mounted It serves as a guide when you do. The guide 214 of the present invention is in the form of a groove, but may also be formed as a projection. The window 215 is provided on the outer surface of the magazine 210 so that the blister-shaped capsule 220 mounted on the through hole 213 from the outside can be visually confirmed. The plate 216 extends to the upper edge of the rim of the magazine 210, but is not limited thereto.

4 and 8, the blister-type capsule 220 has one end 211 of the through-hole 213 of the magazine 210 so as to be slidable in the direction of the other end 212 from one end 211, Respectively. The ogive 221 of the bladder capsule 220 gradually decreases in cross section toward the tip so that the conductor 10 can smoothly penetrate, and the hollow is hollow. The O-jib 221 has a straight line shape with a vertex 222. The inflow hole 223 gradually increases in cross section from the point adjacent to the vertex 222 of the ojive 221 toward the rear of the ojive 221. [ The inlet hole 223 is formed in a triangular shape on the outer surface of the ooze 221 for smooth inflow of the sample 11. [ The blade is formed at the edge of the inlet hole 223 for cutting the sample 11 but is formed in a helical shape connected to the inlet hole 223 on the outer surface of the ojibe 221 for smooth cutting of the sample 11 .

Further, a cylinder container 224 is provided behind the O-jib 221. A cylinder container 224 is provided behind the O-jib 221. A chamber 224 is formed inside the cylinder container 224 so that a chamber 225 is communicated with the inlet hole 223 for storing the sample 11. A bottom 226 is formed in the chamber 225 so as to be adjacent to the rear end of the cylinder container 224. A vent hole 227 for discharging the moisture of the sample 11 is formed at the center of the bottom 226. A coupling groove 228 is provided at the rear of the cylinder container 224. A water absorbent 229 for absorbing and removing moisture of the sample 11 is accommodated in the chamber 225. The water absorbent 229 may be composed of an absorbent gauze, a sponge, an absorbent paper, or a non-woven cloth.

3 and 10, the magazine 210 has a cap 230 attached to the oval 221 of the blister-type capsule 220 at the other end 212 of the through hole 213 . The cap 230 has a receiving portion 231 into which the eighth jaw 221 is fitted. When the sample 11 is collected, the cap 230 is fitted into the oval 221 of the blister-type capsule 220, so that the inlet hole 223 is blocked by the cap 230 and is introduced into the chamber 225 Contaminant entry is blocked.

As shown in FIG. 10, an NFC tag 240 is attached to one surface of the plate 216. The NFC tag 240 is a short-range wireless communication, which uses the reader to quickly read and record information of the NFC tag 240 on which the history information is recorded, so that the NFC tag 240 is convenient to use and easy to manage. The NFC tag 240 may be attached to the plate 216 of the magazine 210 but may be attached to the outer surface and the inner surface of the magazine 210 in the absence of the plate 216.

Hereinafter, the operation of the power tool for livestock sample collection according to the present invention having such a configuration will be described.

3 and 4, the magazine 210 has a blind capsule 220 mounted at one end 211 of each of the through holes 213 and a cap 230 at the other end 212 . At this time, the eyecup 221 of the blister-type capsule 220 is fitted into the receiving portion 231 of the cap 230 and is engaged. As described above, a plurality of blister-type capsules 220 and a cap 230 are attached to one magazine 210.

5, when the power on / off button 120 provided below the gun body 111 of the power tool 110 is turned on, a plurality of LED lamps 117, And the speaker 119, as shown in FIG. The livestock product quality assessor grasps the magazine 210 on which the bladder capsule 220 for the sampling of animal products is mounted with one hand and grasps the handle 112 of the power tool 110 with the other hand, do. The coupling protrusion 133 of the driver 132 exposed to the other side of the gun body 111 of the power tool 110 is pushed into the coupling groove 228 of the blind-type capsule 220 mounted on the magazine 210 . At this time, the guide cover 113 surrounding both sides of the driver 132 has a protruding guide 113a provided therein and inserted into a groove-shaped guide 214 formed on both sides of the magazine 210, do. Therefore, the engaging projection 133 of the driver 132 is accurately and quickly fitted into the engaging groove 228 of the capsule 220, thereby facilitating the detachment operation.

A plurality of blister-type capsules 220 mounted on the magazine 210 are sequentially used from the top to the bottom, and the blister-type capsules 220 mounted on the upper side are numbered 1, The bladder-type capsule 220 mounted on the main body 200 is referred to as n times. The livestock product quality assessor is displayed on the counter 118 provided on the upper outer surface of the gun body 111 and the number of the bladder capsule 220 coupled to the rotational unit 130, It is necessary to check whether the numbers displayed on the counter 118 match. When the power tool 110 is removed from the magazine 210 if it is matched, the blind-type capsule 220 coupled to the coupling projection 133 of the driver 132 passes through one end 211 of the through hole 213 and is separated do. A tag (not shown) may be attached under one end 211 of the through hole 213 of the magazine 210 to indicate the order of the through holes 213, respectively. Such a tag is recognized by a camera and used after confirming the order of the blind-type capsule 220 mounted on the through hole 2130. Therefore, it is possible to record the history information of the blister-type capsule 220 in which the sample is stored in the correct order, and to mount the blister-type capsule 220 at the correct entrance in order.

1 and 6, when the scanner button 115 installed on one side of the power tool 110 is pressed, the scanner 140 reads the tag attached to the conductor 10 through the hole 114. The information read by the scanner button 115 is recorded in the memory of the controller 150, and this situation is notified by the speaker 119 as an effect sound. When the trigger button 116 provided at a position adjacent to the scanner button 115 is pressed, the rotary unit 130 rotates, and this situation is informed by the speaker 119 as an effect sound. That is, as the shaft of the motor 131 to which power is supplied rotates, the driver 132 connected to the shaft rotates. Then, the blister-shaped capsule 220 engaged with the coupling protrusion 133 formed on the outer peripheral surface of the driver 132 rotates.

The livestock product quality assessor mounts the blind capsule 220 on the power tool 110 and then pushes the trigger button 116 with the ojb 221 on the conductor 10 to drive the motor 131 The driver 132 is rotated. Then, the blister-type capsule 220 advances in the conductor direction, and the driver 132 and the blister-type capsule 220 are rotated together, and the conductor 10 is cut by the blade, and the sample 11 moves in the direction of the inlet hole 223 And flows into the chamber 225. When the sampling of the sample 11 is completed, the trigger button 116 is pressed again to stop the motor 131 of the rotation unit 130. [ When the power tool 110 is pulled out of the conductor 10, the bladder-type capsule 220 from which the sample 11 is collected is separated from the conductor 10, The sample 11 of the sample can be easily cut and collected.

The guide cover 113 according to the present invention serves to stably separate or bind the blister-type capsule 220 from the magazine 210. However, when the sample 11 is taken, the blister- 10) in the direction of the depth.

As shown in Fig. 8, the sample 11 is pushed into the first end 211 of the through hole 213 from which the bladder capsule 220 in which the sample 11 is stored is first removed. The ozone 221 of the bladder-type capsule 220 is fitted into the receiving portion 231 of the cap 230. Since the eyelid 221 of the bladder capsule 220 is fitted into the receiving portion 231 of the cap 230 as described above, the inflow hole 223 is blocked by the cap 230, Can be completely blocked. The remaining blister-type capsule 220 in which the chamber 225 is empty among the blister-type capsules 220 mounted on the magazine 210 is mounted on the driver 132 having the coupling protrusion 133 of the power tool 210 The sample 4 of the other conductor 10 may be sampled.

9, when the sample 11 is completely taken out from the plurality of blister-type capsules 220 mounted on the magazine 210, the lower portion of the gun body 111 of the power tool 110 is received by the cradle 180 It is mounted in the groove 181. A communication port 170 provided below the gun body 111 and a terminal 182 provided in the receiving groove 181 of the cradle 180 are connected. The cradle 180 is connected to the notebook 300 connected to the printer 400 via a cable. The history information of each of the plurality of blister-shaped capsules 220 mounted on the magazine 210 stored in the memory of the controller 150 of the power tool 110 is transmitted to the notebook 300.

Next, all the history information of the samples transmitted to the notebook 330 is outputted to the attachable NFC tag 240 using the printer 400. When the output NFC tag 240 in which the history information is recorded is attached to the plate 216 of the magazine 210, the operation is completed. When the magazine 210 with the NFC tag 240 is stored and the sanitary and safety problems occur, if the NFC tag 240 attached to the magazine 210 is read, accurate history information of the stored sample is obtained You can check it quickly.

According to the present invention, it is easy to collect and store a sample by cutting a conductor by rotating a blind capsule using a power tool for sampling agricultural products. Therefore, it can be conveniently used, and the sanitary property of the sampling, workability and storage property can be improved. In addition, the power tool for livestock sample collection scans the history information of the conductor, stores it in a memory provided therein, and outputs it to an attachable NFC tag using a printer. Therefore, it is possible to quickly record, manage, and confirm the history information of the sample stored in each blister-type capsule mounted on the magazine. In addition, since it uses short-range wireless communication such as NFC tag, it is easy to transmit and receive the history information.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

110: Power tool 120: Power on / off button
130: Rotating unit 140: Scanner
150: Controller 160: Battery
170: communication port 180: cradle
210: Magazine 220: Bleed capsule
230: Cap 240: NFC tag
300: computer 400: printer

Claims

The gun body,
And a driver having a coupling protrusion formed on an outer peripheral surface of the distal end so as to be engaged with the coupling groove of the blister-shaped capsule,
A scanner for reading information of a tag in which history information of a conductor is recorded,
And a memory for storing history information of the conductor read by the scanner, the controller including a controller for controlling the rotating unit and the scanner.

The method according to claim 1,
Wherein the gun body further comprises a guide cover disposed adjacent to the driver.

3. The method of claim 2,
And a guide formed on one side of the guide cover, wherein the guide is adapted to engage with a guide of a magazine equipped with a blind capsule.

4. The method according to any one of claims 1 to 3,
Wherein the gun body further comprises a communication port connected to the controller,
And a cradle connected to the communication port to transmit and receive information recorded in the memory to an external device.