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JP5879626B2 - Milk sampling device - Google Patents

Milk sampling device Download PDF

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JP5879626B2
JP5879626B2 JP2012252002A JP2012252002A JP5879626B2 JP 5879626 B2 JP5879626 B2 JP 5879626B2 JP 2012252002 A JP2012252002 A JP 2012252002A JP 2012252002 A JP2012252002 A JP 2012252002A JP 5879626 B2 JP5879626 B2 JP 5879626B2
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milk
valve
port
container
switching
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JP2014100069A (en
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博行 岩崎
博行 岩崎
利幸 岡谷
利幸 岡谷
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Orion Machinery Co Ltd
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Description

本発明は、搾乳機に接続された送乳ラインに付設して搾乳された乳の一部を採取するミルクサンプリング装置に関する。   The present invention relates to a milk sampling device for collecting a part of milk milked by being attached to a milking line connected to a milking machine.

従来、搾乳機により搾乳された乳の一部を採取するためのミルクサンプリング装置としては、特許文献1で開示される乳量計に付設してサンプリングを行うサンプリング手段を含むミルクサンプリング装置が知られている。   Conventionally, as a milk sampling device for collecting a part of milk milked by a milking machine, a milk sampling device including a sampling means attached to a milk meter disclosed in Patent Document 1 for sampling is known. ing.

同文献1で開示されるサンプリング手段(ミルクサンプリング装置)は、サンプリング手段を乳量計に設ける場合であっても、乳量計の大型化を回避し、低コストに実施可能にすることを目的としたものであり、具体的には、送乳ラインの中途に接続し、流入口から流入する乳を貯留可能な計量容器部と、この計量容器部の内部に貯留される乳の液面を検出する液面検出部と、計量容器部の流出口を開閉可能な弁機構部を備える乳量計に対して、円筒状に形成した周面部における縦方向中間部の少なくとも一個所に括れ部を形成し、この括れ部の内周面を流出口とした計量容器部を備えるとともに、括れ部の内周面の下方に、流出口から流出した乳の一部を採取する分取口を配し、この分取口から採取した乳を計量容器部の外部に導くサンプリング手段を設けたものであり、計量容器部から外部に導かれた乳は、サンプリングチューブを介して試料容器に収容される。   The sampling means (milk sampling device) disclosed in the document 1 aims to avoid the enlargement of the milk meter and to be implemented at low cost even when the sampling means is provided in the milk meter. Specifically, the measuring container part connected to the middle of the feeding line and capable of storing the milk flowing in from the inlet, and the liquid level of the milk stored inside the measuring container part For a milk meter equipped with a liquid level detection unit for detection and a valve mechanism unit capable of opening and closing the outlet of the measuring container unit, a constricted part is provided at at least one of the intermediate portions in the longitudinal direction of the circumferential surface formed in a cylindrical shape. And a measuring container part having the inner peripheral surface of the constricted part as an outlet, and a fractionation port for collecting a part of the milk flowing out from the outlet is arranged below the inner peripheral surface of the constricted part. The sump that guides the milk collected from this sampling port to the outside of the weighing container Having thereon a ring means, milk led to the outside from the weighing container unit is accommodated in the sample container through a sampling tube.

特開2011−125322号公報JP 2011-125322 A

しかし、上述した従来のサンプリング手段(ミルクサンプリング装置)は、次のような解決すべき課題が存在した。   However, the conventional sampling means (milk sampling device) described above has the following problems to be solved.

第一に、サンプリング手段により採取された乳は試料容器に収容されるため、乳の検査を行う際には、試料容器をサンプリング手段から取り外した後、容器を振ったり容器から別容器への移し替えをして撹拌をした後、小さな試料容器に採取する。この場合、試料容器に収容された乳は、搾乳時の一定期間に乳を少量ずつ採取したものであるため、乳を十分に撹拌することにより乳全体を均一化させている。このように、従来のミルクサンプリング装置は、乳のサンプリングを行った後の作業が煩雑化する傾向があり、能率的で迅速な採取作業を行うには限界があった。   First, since the milk collected by the sampling means is stored in the sample container, when examining the milk, after removing the sample container from the sampling means, the container is shaken or moved from one container to another. After changing and stirring, collect in a small sample container. In this case, since the milk stored in the sample container is a small amount of milk collected for a certain period of time during milking, the whole milk is homogenized by sufficiently stirring the milk. As described above, the conventional milk sampling device tends to complicate the work after the milk sampling, and there is a limit to the efficient and quick collection work.

第二に、乳の検査は、通常、試料容器内におけるサンプリングした乳の一部を使用するに留まるため、採取後は乳が残留する。結局、この場合、残留した乳は廃棄するか或いは他の容器に移し替えて子牛に与える等の後処理が必要となる。しかし、乳の廃棄は乳の無駄を招くとともに、子牛に与えるとしても品質の低下した乳を与える虞れがある。結局、いずれの場合も望ましい後処理と言えるものではなく、適切な後処理を実現する観点からは更なる改善の余地があった。   Secondly, since milk inspection usually uses only a portion of the sampled milk in the sample container, the milk remains after collection. Eventually, in this case, the remaining milk must be discarded or transferred to another container and given to the calf. However, discarding milk causes waste of milk, and even if it is given to calves, there is a risk of giving milk of reduced quality. After all, it is not a desirable post-processing in any case, and there is room for further improvement from the viewpoint of realizing appropriate post-processing.

本発明は、このような背景技術に存在する課題を解決したミルクサンプリング装置の提供を目的とするものである。   The object of the present invention is to provide a milk sampling device that solves such problems in the background art.

本発明に係るミルクサンプリング装置1は、上述した課題を解決するため、採取した乳Mを収容する乳容器部2と、この乳容器部2の上部に配し、かつ送乳ラインLmを流通する乳Mの一部を採取可能な採取口部31に対して接続可能な乳取込口部3とを、少なくとも備えてなるミルクサンプリング装置であって、乳取込口部3及び底部2dに有する乳取出口部4を除いて密閉構造に形成した乳容器部2と、乳流路部11内に少なくとも進退自在に配した弁体部12,この弁体部12の上流側における乳流路部11に設けることにより、弁体部12が当接可能な弁座部13,及び弾性線材Wを折曲及び/又は湾曲させて形成し、両端に乳流路部11側に係止可能な一対のピン部Wp,Wqを有するとともに、当該一対のピン部Wp,Wqの相対位置が弾性変位可能な係止部材14sを有し、弁体部12の下流側における乳流路部11に配することにより、弁体部12を係止しつつ乳Mの流通を許容可能な弁体係止部14を備える乳取込口部3に設けた逆止弁部5と、乳容器部2の上部に設けた外部と内部を連通する通気口部6h及びこの通気口部6hを選択的に開閉可能な開閉弁部6vを有する開閉機構部6と、乳取出口部4に設け、この乳取出口部4を閉塞する第一切換位置P1,乳容器部2の内部に所定流量の空気(外気)Aを吸入可能又は乳容器部2の内部の乳Mを外部に取出可能にする第二切換位置P2,乳容器部2の内部を送乳ラインLmに設けた戻し口部32に対して接続可能にする第三切換位置P3にそれぞれ選択的に切換可能な切換弁部7とを具備することを特徴とする。   In order to solve the above-described problem, the milk sampling device 1 according to the present invention is arranged on the milk container part 2 that contains the collected milk M and on the upper part of the milk container part 2, and circulates through the milk feeding line Lm. A milk sampling device comprising at least a milk intake port portion 3 connectable to a collection port portion 31 capable of collecting a part of milk M, and has a milk intake port portion 3 and a bottom portion 2d. A milk container portion 2 formed in a sealed structure except for the milking outlet portion 4, a valve body portion 12 disposed at least freely in the milk flow passage portion 11, and a milk flow passage portion on the upstream side of the valve body portion 12 11 is formed by bending and / or curving the valve seat portion 13 and the elastic wire W that can contact the valve body portion 12, and can be engaged at both ends on the milk flow passage portion 11 side. The pin portions Wp, Wq and the phase of the pair of pin portions Wp, Wq By having a locking member 14s whose position is elastically displaceable and disposed in the milk flow path portion 11 on the downstream side of the valve body portion 12, the flow of the milk M can be allowed while the valve body portion 12 is locked. The check valve portion 5 provided in the milk intake port portion 3 provided with the valve body locking portion 14, the vent portion 6h communicating with the outside and the inside provided at the upper portion of the milk container portion 2, and the vent portion 6h An opening / closing mechanism portion 6 having an opening / closing valve portion 6v that can be selectively opened and closed, and a milk flow outlet portion 4 provided with a predetermined flow rate in the first switching position P1 and the milk container portion 2 for closing the milk discharge outlet portion 4. The second switching position P2 where the air (outside air) A can be inhaled or the milk M inside the milk container part 2 can be taken out to the outside, and the return port part 32 provided inside the milk container part 2 in the feeding line Lm And a switching valve portion 7 that can be selectively switched at a third switching position P3 that enables connection to each other. To.

この場合、発明の好適な態様により、採取口部31には、送乳ラインLmを構成するミルクパイプ(又はミルクチューブ)Lmpに設けた採取口部31を適用してもよいし、送乳ラインLmの中途に接続する乳量計51に設けた採取口部31を適用してもよい。この際、乳量計51は、流入口52から流入する乳Mを貯留可能な計量容器部53と、この計量容器部53の内部に貯留される乳Mの液面を検出する液面検出部54と、計量容器部53の流出口55を開閉可能な弁駆動部56により駆動される弁機構部57と、少なくとも液面検出部54が所定高さの液面を検出したなら弁機構部57を開閉制御する制御系58とを備えた形態が望ましく、採取口部31は、流出口55から流出する乳Mの一部を採取可能に設けることができる。   In this case, according to a preferred aspect of the invention, the collection port portion 31 may be applied with the collection port portion 31 provided in the milk pipe (or milk tube) Lmp constituting the feeding line Lm. You may apply the collection port part 31 provided in the milk meter 51 connected in the middle of Lm. At this time, the milk meter 51 includes a measuring container unit 53 that can store the milk M flowing in from the inlet 52 and a liquid level detecting unit that detects the liquid level of the milk M stored in the measuring container unit 53. 54, a valve mechanism portion 57 driven by a valve drive portion 56 capable of opening and closing the outlet 55 of the measuring container portion 53, and a valve mechanism portion 57 if at least the liquid level detection unit 54 detects a liquid level of a predetermined height. A control system 58 that controls the opening and closing of the mouth is desirable, and the collection port portion 31 can be provided so that a part of the milk M flowing out from the outflow port 55 can be collected.

一方、弁座部13と弁体部12間には、当該弁座部13と当該弁体部12の当接により形成され、所定流量の通気を許容する通気孔部15を設けることができる。また、開閉機構部6には、弾性素材により形成し、一端16s側が通気口部6hに外部から当接するとともに、他端16t側を固定し、一端16s側をマニュアル操作可能に構成した開閉弁部6vを設けることができる。なお、この開閉弁部6vには、通気口部6hを閉塞可能な吸盤状の閉塞体部6vsを一体に設けることが望ましい。他方、切換弁部7には、第二切換位置P2に切換えた際に形成され、かつ乳容器部2の内部に所定流量の空気Aの流入を許容するとともに、当該空気Aの流入する向きFiを設定した通気路17を設けることができる。さらに、この切換弁部7を第三切換位置P3に切換えた際に接続される送乳ラインLmであって、乳取出口部4に接続される戻し口部32が臨む当該送乳ラインLmには、戻し口部32の上流側を覆うカバー部18を設けることができる。   On the other hand, between the valve seat portion 13 and the valve body portion 12, a vent hole portion 15 that is formed by abutment between the valve seat portion 13 and the valve body portion 12 and allows ventilation at a predetermined flow rate can be provided. The opening / closing mechanism 6 is made of an elastic material, and has an end 16s side that comes into contact with the vent 6h from the outside, the other end 16t is fixed, and the end 16s can be manually operated. 6v can be provided. In addition, it is desirable that the opening / closing valve portion 6v is integrally provided with a sucker-like closing body portion 6vs that can close the vent portion 6h. On the other hand, the switching valve portion 7 is formed when switching to the second switching position P2 and allows the flow of air A at a predetermined flow rate into the milk container portion 2 and the direction Fi into which the air A flows. It is possible to provide an air passage 17 in which is set. Furthermore, the feeding line Lm connected when the switching valve part 7 is switched to the third switching position P3 and the feeding line Lm facing the return port part 32 connected to the milking outlet part 4 faces. The cover portion 18 that covers the upstream side of the return port portion 32 can be provided.

このような構成を有する本発明に係るミルクサンプリング装置1によれば、次のような顕著な効果を奏する。   According to the milk sampling apparatus 1 according to the present invention having such a configuration, the following remarkable effects can be obtained.

(1) 切換弁部7を第二切換位置P2に切換えることにより、乳容器部2の内部に所定流量の空気(外気)Aを吸入し、気泡を発生させることにより乳容器部2に収容された乳Mを撹拌できるとともに、この後、開閉機構部6を操作することにより、乳容器部2の内部の乳Mを検査に必要な量だけ外部の試料容器に取出すことができる。このように、乳Mのサンプリングを行った後、小さな試料容器に採取するまでの作業が単純化され、能率的で迅速な作業を行うことができる。   (1) By switching the switching valve unit 7 to the second switching position P2, a predetermined flow rate of air (outside air) A is sucked into the milk container unit 2 and bubbles are generated, thereby being accommodated in the milk container unit 2. The milk M can be stirred, and thereafter, by operating the opening / closing mechanism 6, the milk M inside the milk container 2 can be taken out into the external sample container by an amount necessary for the inspection. In this way, after sampling the milk M, the operation until it is collected in a small sample container is simplified, and an efficient and quick operation can be performed.

(2) 切換弁部7を第三切換位置P3に切換えることにより、乳容器部2の内部を送乳ラインLmに設けた戻し口部32に対して接続できるため、乳容器部2の内部に残留した乳Mをそのまま送乳ラインLmに戻すことができる。したがって、従来のような残留した乳Mを廃棄したり或いは子牛に与える等の後処理が不要になり、乳Mの無駄を招いたり、品質の低下した乳Mを子牛に与えてしまうなどの不具合を解消でき、適切な後処理を実現できる。   (2) By switching the switching valve portion 7 to the third switching position P3, the inside of the milk container portion 2 can be connected to the return port portion 32 provided in the feeding line Lm. The remaining milk M can be returned to the feeding line Lm as it is. Therefore, the post-treatment such as discarding the remaining milk M or giving it to the calf becomes unnecessary, and the milk M is wasted, or the milk M having a reduced quality is given to the calf. Can be solved, and appropriate post-processing can be realized.

(3) 逆止弁部5は、乳流路部11内に少なくとも進退自在に配した弁体部12と、この弁体部12の上流側における乳流路部11に設けることにより、弁体部12が当接可能な弁座部13と、弁体部12の下流側における乳流路部11に配することにより、弁体部12を係止しつつ乳Mの流通を許容可能な弁体係止部14とを設けて構成したため、乳Mの流動性等に左右されることのない安定に動作する逆止弁部5を構成できる。   (3) The check valve portion 5 is provided in the milk flow passage portion 11 disposed at least in the milk flow passage portion 11 so as to freely advance and retract, and in the milk flow passage portion 11 on the upstream side of the valve body portion 12, thereby providing a valve body. A valve that allows passage of milk M while engaging the valve body 12 by disposing the valve seat 13 that can contact the part 12 and the milk flow path 11 on the downstream side of the valve body 12. Since the body locking portion 14 is provided, the check valve portion 5 that operates stably without being influenced by the fluidity of the milk M can be configured.

(4) 弁体係止部14には、弾性線材Wを折曲及び/又は湾曲させて形成し、両端に乳流路部11側に係止可能な一対のピン部Wp,Wqを有するとともに、当該一対のピン部Wp,Wqの相対位置が弾性変位可能な係止部材14sを設けたため、係止部材14sを乳流路部11に対して容易に着脱でき、係止部材14sのメンテナンスや洗浄等を容易に行うことができる。また、係止部材14sを交換することにより逆止弁部5の開時における弁体部12と弁座部13の間隔を容易かつ任意に設定できる。さらに、弁体部12が係止部材14sに接触した際には係止部材14sが揺れるため、乳流路部11側と一対のピン部Wp,Wqの係止部分に汚れが堆積するなどの不具合を防止できる。   (4) The valve body locking portion 14 is formed by bending and / or curving the elastic wire W, and has a pair of pin portions Wp and Wq that can be locked on the milk flow channel portion 11 side at both ends. Since the locking member 14 s is provided so that the relative position of the pair of pin portions Wp and Wq can be elastically displaced, the locking member 14 s can be easily attached to and detached from the milk flow path portion 11, and maintenance of the locking member 14 s Cleaning etc. can be performed easily. In addition, the interval between the valve body 12 and the valve seat 13 when the check valve 5 is opened can be easily and arbitrarily set by exchanging the locking member 14s. Furthermore, when the valve body 12 comes into contact with the locking member 14s, the locking member 14s is shaken, so that dirt accumulates on the milk flow path portion 11 side and the locking portions of the pair of pin portions Wp and Wq. You can prevent problems.

(5) 好適な態様により、採取口部31として、送乳ラインLmを構成するミルクパイプ(又はミルクチューブ)Lmpに設けた採取口部31を適用すれば、ミルクサンプリング装置1は、ミルクパイプ(又はミルクチューブ)Lmpの任意の位置を選定して接続できるため、設置性(融通性)及び汎用性に優れたミルクサンプリング装置1として提供できる。   (5) According to a preferred embodiment, when the sampling port 31 provided in the milk pipe (or milk tube) Lmp constituting the feeding line Lm is applied as the sampling port 31, the milk sampling device 1 can (Or milk tube) Since any position of Lmp can be selected and connected, it can be provided as a milk sampling apparatus 1 excellent in installation (flexibility) and versatility.

(6) 好適な態様により、採取口部31として、送乳ラインLmの中途に接続する乳量計51に設けた採取口部31を適用すれば、乳量計51とミルクサンプリング装置1は一体化が可能になるため、管理の容易化及びメンテナンス性の向上に寄与できるとともに、設備全体のシンプル化及び省スペース化にも寄与できる。   (6) If the collection port 31 provided in the milk meter 51 connected in the middle of the feeding line Lm is applied as the collection port 31 according to a preferred embodiment, the milk meter 51 and the milk sampling device 1 are integrated. Therefore, it is possible to contribute to the simplification of the entire equipment and the space saving, as well as the ease of management and the improvement of the maintainability.

(7) 好適な態様により、乳量計51として、流入口52から流入する乳Mを貯留可能な計量容器部53と、この計量容器部53の内部に貯留される乳Mの液面を検出する液面検出部54と、計量容器部53の流出口55を開閉可能な弁駆動部56により駆動される弁機構部57と、少なくとも液面検出部54が所定高さの液面を検出したなら弁機構部57を開閉制御する制御系58とを備えて構成するとともに、採取口部31を、当該乳量計51の流出口55から流出する乳Mの一部を採取可能に設ければ、一定量の乳Mを安定に採取でき、採取不足となるなどの不具合を回避できるとともに、バラツキの少ない正確で安定したサンプリング量を確保できる。   (7) According to a preferred embodiment, as the milk meter 51, the measuring container part 53 capable of storing the milk M flowing in from the inlet 52 and the liquid level of the milk M stored inside the measuring container part 53 are detected. Liquid level detection unit 54, valve mechanism unit 57 driven by a valve drive unit 56 capable of opening and closing the outlet 55 of the measuring container unit 53, and at least the liquid level detection unit 54 has detected a liquid level of a predetermined height. If it comprises the control system 58 which controls opening and closing of the valve mechanism part 57, and if the collection port part 31 is provided so that a part of the milk M flowing out from the outflow port 55 of the milk meter 51 can be collected, Thus, a certain amount of milk M can be collected stably, and problems such as insufficient collection can be avoided, and an accurate and stable sampling amount with little variation can be secured.

(8) 好適な態様により、弁座部13と弁体部12間に、当該弁座部13と当該弁体部12の当接により形成され、所定流量の通気を許容する通気孔部15を設ければ、弁体部12と弁座部13が当接して閉じた後、弁体部12が付着して戻らなくなる(戻りにくくなる)不具合を回避でき、逆止弁部5の開時には弁体部12を確実かつ速やかに落下させることができる。   (8) According to a preferred embodiment, a vent hole portion 15 is formed between the valve seat portion 13 and the valve body portion 12 by contact between the valve seat portion 13 and the valve body portion 12 and allows ventilation at a predetermined flow rate. If provided, after the valve body portion 12 and the valve seat portion 13 abut and close, the problem that the valve body portion 12 adheres and does not return (becomes difficult to return) can be avoided, and when the check valve portion 5 is opened, the valve The body 12 can be reliably and quickly dropped.

(9) 好適な態様により、開閉機構部6に、弾性素材により形成し、一端16s側が通気口部6hに外部から当接するとともに、他端16t側を固定し、一端16s側をマニュアル操作可能に構成した開閉弁部6vを設ければ、比較的簡易な構造により低コストかつ容易に実施できる。   (9) According to a preferred embodiment, the opening / closing mechanism 6 is formed of an elastic material, the one end 16s side comes into contact with the vent 6h from the outside, the other end 16t side is fixed, and the one end 16s side can be manually operated. If the constructed opening / closing valve portion 6v is provided, it can be easily implemented at low cost with a relatively simple structure.

(10) 好適な態様により、開閉弁部6vに、通気口部6hを閉塞可能な吸盤状の閉塞体部6vsを一体に設ければ、吸盤の形状を有する閉塞体部6vsにより、通気口部6hに対する密着性を高めることができるため、閉塞時の空気もれこみを低減し、安定した乳Mの分取(採取)を行うことができる。   (10) According to a preferred embodiment, if a suction cup-like closing body portion 6vs capable of closing the ventilation port portion 6h is provided integrally with the on-off valve portion 6v, the ventilation hole portion is formed by the closing body portion 6vs having the shape of a suction cup. Since the adhesion to 6h can be increased, air leakage during blockage can be reduced, and stable separation (collection) of milk M can be performed.

(11) 好適な態様により、切換弁部7に、第二切換位置P2に切換えた際に形成され、かつ乳容器部2の内部に所定流量の空気Aの流入を許容するとともに、当該空気Aの流入する向きFiを設定した通気路17を設ければ、気泡の発生方向を多様化できるため、気泡を垂直方向に浮揚させるのみならず、例えば、螺旋方向に発生させるなど、撹拌効果をより高めることができる。   (11) According to a preferred embodiment, the switching valve portion 7 is formed when switching to the second switching position P2, and allows the flow of air A at a predetermined flow rate into the milk container portion 2, and the air A If the air flow path 17 in which the inflow direction Fi is set is provided, the generation direction of the bubbles can be diversified, so that not only the bubbles are floated in the vertical direction, but also, for example, the bubbles are generated in the spiral direction. Can be increased.

(12) 好適な態様により、切換弁部7を第三切換位置P3に切換えた際に接続される送乳ラインLmであって、乳取出口部4に接続される戻し口部32が臨む当該送乳ラインLmに、戻し口部32の上流側を覆うカバー部18を設ければ、送乳ラインLm側の乳Mが戻し口部32に入り込む逆流現象を防止し、乳Mの合流を円滑かつ安定に行わせることができる。   (12) According to a preferred embodiment, the feeding valve Lm connected when the switching valve unit 7 is switched to the third switching position P3 and the return port 32 connected to the milking outlet unit 4 faces. If the milk supply line Lm is provided with a cover portion 18 that covers the upstream side of the return port 32, the reverse flow phenomenon in which the milk M on the milk supply line Lm side enters the return port 32 is prevented, and the milk M is smoothly joined. And it can be performed stably.

本発明の好適実施形態に係るミルクサンプリング装置の全体を示す側面断面図、Side surface sectional drawing which shows the whole milk sampling apparatus which concerns on suitable embodiment of this invention, 同ミルクサンプリング装置における乳取込口部の抽出拡大断面図、Extraction enlarged sectional view of the milk intake port in the milk sampling device, 同ミルクサンプリング装置における開閉機構部の抽出拡大断面図、Extraction expanded sectional view of the opening and closing mechanism part in the milk sampling device, 同ミルクサンプリング装置における切換弁部の抽出拡大断面図、Extraction expanded sectional view of the switching valve part in the milk sampling device, 同ミルクサンプリング装置の使用時における第一の接続形態を示す一部断面を含む側面接続図、Side connection diagram including a partial cross section showing the first connection configuration when using the milk sampling device, 同ミルクサンプリング装置の使用時における第二の接続形態を示す一部断面を含む側面接続図、Side connection diagram including a partial cross section showing a second connection configuration when using the milk sampling device, 同ミルクサンプリング装置における切換弁部を第一切換位置に切換えた際の作用説明図、Action explanatory diagram when switching the switching valve portion in the milk sampling device to the first switching position, 同ミルクサンプリング装置における切換弁部を第二切換位置に切換えた際の作用説明図、Action explanatory diagram when switching the switching valve portion in the milk sampling device to the second switching position, 同ミルクサンプリング装置における切換弁部を第二切換位置に切換え、かつ開閉機構部を開側に操作した際の作用説明図、Operation explanatory diagram when switching the switching valve portion in the milk sampling device to the second switching position and operating the opening and closing mechanism portion to the open side, 同ミルクサンプリング装置における切換弁部を第三切換位置に切換え、かつ開閉機構部を開側に操作した際の作用説明図、Operation explanatory diagram when switching the switching valve portion in the milk sampling device to the third switching position and operating the opening and closing mechanism portion to the open side, 同ミルクサンプリング装置における乳取込口部に備える弁体係止部の係止部材の変更例を示す外観図、External view showing a modified example of the locking member of the valve body locking portion provided in the milk intake port in the milk sampling device, 同ミルクサンプリング装置における切換弁部の変更例を示す断面図、Sectional drawing which shows the example of a change of the switching valve part in the milk sampling device,

次に、本発明に係る好適実施形態を挙げ、図面に基づき詳細に説明する。   Next, preferred embodiments according to the present invention will be given and described in detail with reference to the drawings.

まず、本実施形態に係るミルクサンプリング装置1の構成について、図1〜図4を参照して具体的に説明する。   First, the configuration of the milk sampling device 1 according to the present embodiment will be specifically described with reference to FIGS.

図1は、ミルクサンプリング装置1の全体構造を示す。2は採取した乳Mを収容する乳容器部であり、上端を開口した容器本体部2mとこの容器本体部2mの上端に装着した蓋体部2cからなる。容器本体部2mは透明又は半透明のプラスチック或いはガラス等の素材より全体を底付きの円筒状に形成するとともに、蓋体部2cも透明又は半透明のプラスチック或いはガラス等の素材より平板状に形成する。蓋体部2cと容器本体部2mはネジ結合等により着脱することができる。また、蓋体部2cには乳取込口部3を設けるとともに、容器本体部2mの底部2dには乳取出口部4を設ける。これにより、乳取込口部3と乳取出口部4を除いて乳容器部2は密閉構造となる。   FIG. 1 shows the overall structure of the milk sampling device 1. Reference numeral 2 denotes a milk container portion for storing the collected milk M, and includes a container main body portion 2m having an open upper end and a lid portion 2c attached to the upper end of the container main body portion 2m. The container body 2m is formed in a cylindrical shape with a bottom from a transparent or translucent plastic or glass material, and the lid 2c is also formed in a flat plate from a transparent or translucent plastic or glass material. To do. The lid 2c and the container body 2m can be attached and detached by screw connection or the like. In addition, a milk intake port 3 is provided on the lid 2c, and a milk outlet 4 is provided on the bottom 2d of the container body 2m. Thereby, the milk container part 2 becomes a sealed structure except for the milk intake part 3 and the milk outlet part 4.

乳取込口部3は、図2に示すように、蓋体部2cの表裏面に対して直角に貫通する管体状の乳流路部11を一体に形成し、この乳流路部11により乳取込口部3を構成する。蓋体部2cに対して外部側に位置する乳流路部11は乳Mが供給されるミルクチューブTsが接続される接続管部11sとなる。一方、蓋体部2cに対して内部側に位置する乳流路部11は乳容器部2の内部に臨み、主に逆止弁部5として構成する。逆止弁部5は、乳流路部11内に少なくとも進退自在に配した球状の弁体部12と、この弁体部12の上流側(図1中、上側)における乳流路部11に設けることにより、弁体部12が当接可能なテーパ面により形成した弁座部13と、弁体部12の下流側における乳流路部11に配することにより、弁体部12を係止しつつ乳Mの流通を許容可能な弁体係止部14とを備える。逆止弁部5を構成するに際して、このような構造を採用すれば、乳Mの流動性等に左右されることのない安定に動作する逆止弁部5を構成できる利点がある。   As shown in FIG. 2, the milk intake port portion 3 integrally forms a tubular milk flow passage portion 11 that penetrates at right angles to the front and back surfaces of the lid portion 2 c, and this milk flow passage portion 11. The milk intake part 3 is configured by The milk flow path part 11 located on the outer side with respect to the lid part 2c is a connecting pipe part 11s to which a milk tube Ts to which milk M is supplied is connected. On the other hand, the milk flow path part 11 located on the inner side with respect to the lid part 2 c faces the inside of the milk container part 2, and is mainly configured as a check valve part 5. The check valve portion 5 includes a spherical valve body portion 12 that is disposed at least freely in the milk flow passage portion 11 and a milk flow passage portion 11 on the upstream side (the upper side in FIG. 1) of the valve body portion 12. By providing the valve body portion 12 with the valve seat portion 13 formed by a tapered surface with which the valve body portion 12 can come into contact with the milk flow passage portion 11 on the downstream side of the valve body portion 12, the valve body portion 12 is locked. And a valve body locking portion 14 capable of allowing the milk M to flow. When the check valve portion 5 is configured, if such a structure is adopted, there is an advantage that the check valve portion 5 that operates stably without being influenced by the fluidity of the milk M can be configured.

また、弁座部13と弁体部12間には、当該弁座部13と当該弁体部12の当接により形成され、所定流量の通気を許容する通気孔部15を設ける。具体的には、図2に示すように、弁座部13のテーパ面に、軸心方向に沿った複数の直線溝15s,15sを形成する。これにより、球状の弁体部12が当接しても直線溝15s,15sは埋まることがなく、通気孔部15として機能する。このような通気孔部15を設ければ、弁体部12と弁座部13が当接して閉じた後、弁体部12が付着して戻らなくなる(戻りにくくなる)不具合を回避でき、逆止弁部5の開時には弁体部12を確実かつ速やかに落下させることができる利点がある。   Further, a vent hole 15 is provided between the valve seat portion 13 and the valve body portion 12, which is formed by contact between the valve seat portion 13 and the valve body portion 12 and allows ventilation at a predetermined flow rate. Specifically, as shown in FIG. 2, a plurality of linear grooves 15 s and 15 s are formed on the tapered surface of the valve seat portion 13 along the axial direction. As a result, even if the spherical valve body 12 abuts, the linear grooves 15s, 15s are not filled and function as the vent hole 15. If such a vent hole 15 is provided, after the valve body 12 and the valve seat 13 abut and close, it is possible to avoid the problem that the valve body 12 adheres and does not return (becomes difficult to return). There is an advantage that the valve body 12 can be reliably and quickly dropped when the stop valve portion 5 is opened.

さらに、弁体係止部14は、乳流路部11の下端部(下流側端部)付近の180〔゜〕対向する径方向位置に設けた一対の保持孔14p,14qと、この保持孔14p,14qに保持される係止部材14sを備える。また、係止部材14sには、弾性線材Wを折曲及び/又は湾曲させて形成したコイルスプリング14scを用いる。このため、このコイルスプリング14scは両端側の軸心位置には、乳流路部11側の保持孔14p,14qに対して挿入可能な一対のピン部Wp,Wqを有する。このようなコイルスプリング14scを用いることにより、一対のピン部Wp,Wqの相対位置は弾性変位可能になるため、図2に実線で示すコイルスプリング14scのように、手で圧縮させることができる。したがって、コイルスプリング14scを乳流路部11側に装着する際には、手で圧縮させ、乳流路部11の下端口から内部に入れた後、各ピン部Wp,Wqを各保持孔14p,14qに挿入すればよく、仮想線で示すコイルスプリング14scのように、乳流路部11に対して容易に装着できるとともに、反対の手順を行うことにより容易に離脱できる。   Further, the valve body locking portion 14 includes a pair of holding holes 14p and 14q provided in a radial position opposite to each other by 180 ° in the vicinity of the lower end portion (downstream end portion) of the milk passage portion 11, and the holding holes. A locking member 14s held by 14p and 14q is provided. Further, a coil spring 14sc formed by bending and / or bending the elastic wire W is used for the locking member 14s. For this reason, this coil spring 14sc has a pair of pin portions Wp and Wq that can be inserted into the holding holes 14p and 14q on the milk flow passage portion 11 side at the axial center positions on both ends. By using such a coil spring 14sc, the relative position of the pair of pin portions Wp and Wq can be elastically displaced, and therefore can be compressed by hand as in the case of the coil spring 14sc shown by the solid line in FIG. Therefore, when the coil spring 14sc is mounted on the milk flow path portion 11 side, the pin springs Wp and Wq are inserted into the holding holes 14p after being compressed by hand and inserted into the milk flow passage portion 11 from the lower end. , 14q, and can be easily attached to the milk flow path portion 11 like a coil spring 14sc indicated by a virtual line, and can be easily detached by performing the opposite procedure.

このような係止部材14s(コイルスプリング14sc)を用いれば、係止部材14sのメンテナンスや洗浄等を容易に行うことができる。また、係止部材14sを交換することにより、逆止弁部5の開時における弁体部12と弁座部13の間隔、即ち、弁体部12の上下移動ストロークHs(図2参照)を容易かつ任意に設定できる。さらに、弁体部12が係止部材14sに接触した際には係止部材14sが揺れるため、乳流路部11側に対する一対のピン部Wp,Wqの係止部分に汚れが堆積するなどの不具合を防止できる利点がある。   If such a locking member 14s (coil spring 14sc) is used, the locking member 14s can be easily maintained and cleaned. Further, by replacing the locking member 14s, the interval between the valve body 12 and the valve seat 13 when the check valve 5 is opened, that is, the vertical movement stroke Hs of the valve body 12 (see FIG. 2). Can be set easily and arbitrarily. Furthermore, when the valve body 12 comes into contact with the locking member 14s, the locking member 14s is shaken, so that dirt accumulates on the locking portions of the pair of pin portions Wp and Wq with respect to the milk flow channel portion 11 side. There is an advantage that it is possible to prevent defects.

一方、蓋体部2cの他の位置には、図3に示す開閉機構部6を設ける。開閉機構部6は、乳容器部2の上部となる蓋体部2cに設けた外部と内部を連通する通気口部6hと、この通気口部6hを選択的に開閉可能な開閉弁部6vを備える。開閉弁部6vは、ゴム素材等の弾性素材により短冊板状に一体形成し、他端16t側を固定ネジ21により蓋体部2cの上面に固定するとともに、一端16s側を通気口部6hに対して外部から当接させる。この場合、開閉弁部6vの一端16s側における通気口部6hに対向する面には、図1及び図3に示すように、当該通気口部6hを閉塞可能な吸盤状の閉塞体部6vsを一体に設ける。これにより、吸盤状の閉塞体部6vsが通気口部6hを直接閉塞する。このように、開閉弁部6vに閉塞体部6vsを一体に設ければ、吸盤の形状を有する閉塞体部6vsにより、通気口部6hに対する密着性を高めることができるため、閉塞時の空気もれこみを低減し、安定した乳Mの分取(採取)を行える利点がある。   On the other hand, an opening / closing mechanism 6 shown in FIG. 3 is provided at another position of the lid 2c. The opening / closing mechanism 6 includes a vent 6 h that is provided in the lid 2 c that is an upper part of the milk container 2 and communicates the outside with the inside, and an open / close valve 6 v that can selectively open and close the vent 6 h. Prepare. The on-off valve portion 6v is integrally formed in a strip shape by an elastic material such as a rubber material, and the other end 16t side is fixed to the upper surface of the lid portion 2c by a fixing screw 21, and the one end 16s side is connected to the vent hole portion 6h. Abut against the outside. In this case, as shown in FIGS. 1 and 3, a suction cup-like closing body portion 6vs that can close the ventilation port portion 6h is provided on the surface of the opening / closing valve portion 6v facing the ventilation port portion 6h on the one end 16s side. Provide one. As a result, the suction cup-shaped closing body portion 6 vs directly closes the vent hole portion 6 h. In this way, if the closing body portion 6vs is provided integrally with the opening / closing valve portion 6v, the closing body portion 6vs having the shape of a suction cup can improve the adhesion to the vent hole portion 6h. There is an advantage that it is possible to reduce the contamination and to stably extract (collect) the milk M.

また、開閉弁部6vの一端16s側の一部16spは蓋体部2cの外周縁から更に外方に突出させる。これにより、ユーザーは、開閉弁部6vの一端16s側を手で持ち、図3に仮想線で示すように、上方へ持ち上げることにより、閉塞体部6vsを通気口部6hから離間させることができる。一方、手を離せば、開閉弁部6vの一端16s側は弾性復帰し、実線で示すように、閉塞体部6vsが通気口部6hを閉塞する。即ち、通気口部6hを選択的に開閉できる。このように、開閉機構部6に、弾性素材により形成し、一端16s側が通気口部6hに外部から当接するとともに、他端16t側を固定し、一端16s側をマニュアル操作可能に構成した開閉弁部6vを設ければ、比較的簡易な構造により低コストかつ容易に実施できるとともに、ユーザーは開閉弁部6vを容易にマニュアル操作できる利点がある。   Further, a part 16sp on the one end 16s side of the on-off valve portion 6v is further protruded outward from the outer peripheral edge of the lid portion 2c. As a result, the user can hold the one end 16s side of the on-off valve portion 6v with his hand and lift it upward as shown by the phantom line in FIG. 3 to separate the closing body portion 6vs from the vent portion 6h. . On the other hand, when the hand is released, the one end 16s side of the on-off valve portion 6v is elastically restored, and as shown by the solid line, the closing body portion 6vs closes the vent portion 6h. That is, the vent portion 6h can be selectively opened and closed. As described above, the opening / closing mechanism 6 is formed of an elastic material, and the one end 16s side comes into contact with the vent portion 6h from the outside, the other end 16t side is fixed, and the one end 16s side can be manually operated. If the portion 6v is provided, there is an advantage that the user can easily perform the manual operation of the on-off valve portion 6v while being able to easily carry out at low cost with a relatively simple structure.

他方、容器本体部2mの底部2dの内面は、中心側が下方に位置するテーパ面に形成し、中心位置に乳取出口部4を設ける。乳取出口部4は、底部2dの中心位置から下方に突出した筒形の結合口部22を有するとともに、この結合口部22の下方に配した切換弁部7を有する。この切換弁部7は、横向きのカップ状に形成した弁ハウジング23を有し、この弁ハウジング23の上端には上方に突出する乳入口23iを一体形成するとともに、弁ハウジング23の側面に位置する閉塞端面23sの中央には横方に突出する第二乳出口25を一体形成する。そして、乳入口23iと結合口部22はゴム素材により形成した筒状のカップリング部材24により結合(連結)する。   On the other hand, the inner surface of the bottom 2d of the container main body 2m is formed as a tapered surface with the center side positioned below, and the milking outlet 4 is provided at the center. The milking outlet portion 4 has a cylindrical coupling port portion 22 that protrudes downward from the center position of the bottom portion 2 d, and has a switching valve portion 7 disposed below the coupling port portion 22. The switching valve portion 7 has a valve housing 23 formed in a lateral cup shape. A milk inlet 23 i protruding upward is integrally formed at the upper end of the valve housing 23, and is located on a side surface of the valve housing 23. A second milk outlet 25 projecting sideways is integrally formed at the center of the closed end face 23s. The milk inlet 23i and the coupling port 22 are coupled (connected) by a cylindrical coupling member 24 formed of a rubber material.

また、弁ハウジング23の開口端面から内部に操作弁体26を挿入する。操作弁体26は、弁ハウジング23の内部に収容される円柱形の弁本体26mと弁ハウジング23の開口端面から外部に突出するツマミ部26hを備え、このツマミ部26hは手で操作できるように偏平に形成する。そして、ツマミ部26hの先端であって、一側に偏した位置には第一乳出口27を設け、この第一乳出口27は、ツマミ部26h及び弁本体26mの内部に形成した第一乳路28の一端となるとともに、この第一乳路28の他端28sは、第一乳出口27側に対して他側の位置となる弁本体26mの外周面に開口する。第一乳路28の内部には、図4に示すように、球体34を自在に収容して気泡発生部35を構成する。この場合、球体34に対して他端28s側の第一乳路28は小径に形成するとともに、球体34が当接する部位にはテーパ面28stを形成して弁座機能を持たせる。さらに、このテーパ面28stには、第一乳路28の軸方向に沿った一又は二以上の通気溝17sを形成する。これにより、テーパ面28stに球体34が当接した場合であっても、通気溝17sは埋まることがなく、乳容器部2の内部に所定流量の空気(外気)Aの流入を許容する通気路17が形成される。なお、33は球体34の落下防止部である。また、閉塞端面23sの内面に対向する弁本体26mの端面の中央には第二乳路29の一端29sが開口するとともに、第二乳路29の他端29tは弁本体26mの外周面であって、他端28sに対して180〔゜〕反対側の外周面に開口する。   Further, the operation valve body 26 is inserted into the inside from the opening end surface of the valve housing 23. The operation valve body 26 includes a cylindrical valve main body 26m housed in the valve housing 23 and a knob portion 26h protruding outward from the opening end surface of the valve housing 23. The knob portion 26h can be operated by hand. Form flat. A first milk outlet 27 is provided at the tip of the knob portion 26h and is biased to one side. The first milk outlet 27 is formed in the first milk outlet 26h and the valve body 26m. While being one end of the passage 28, the other end 28s of the first milk passage 28 opens to the outer peripheral surface of the valve body 26m which is located on the other side with respect to the first milk outlet 27 side. As shown in FIG. 4, a spherical body 34 is freely accommodated in the first milk passage 28 to form a bubble generating unit 35. In this case, the first milk passage 28 on the other end 28s side with respect to the sphere 34 is formed with a small diameter, and a tapered surface 28st is formed at a portion where the sphere 34 abuts to provide a valve seat function. Furthermore, one or two or more ventilation grooves 17 s are formed in the tapered surface 28 st along the axial direction of the first milk passage 28. Thus, even when the sphere 34 is in contact with the tapered surface 28st, the ventilation groove 17s is not filled, and the ventilation path that allows the flow of air (outside air) A at a predetermined flow rate into the milk container portion 2 is allowed. 17 is formed. Reference numeral 33 denotes a drop prevention unit for the sphere 34. Further, one end 29s of the second milk passage 29 is opened at the center of the end face of the valve main body 26m facing the inner surface of the closed end face 23s, and the other end 29t of the second milk passage 29 is an outer peripheral surface of the valve main body 26m. Thus, an opening is formed on the outer peripheral surface opposite to the other end 28s by 180 [°].

これにより、切換弁部7は、ツマミ部26hを回し操作すれば、乳取出口部4を閉塞する第一切換位置P1,乳容器部2の内部に所定流量の空気(外気)Aを吸入可能又は乳容器部2内の乳Mを外部に取出可能にする第二切換位置P2,乳容器部2内を送乳ラインLmに設けた戻し口部32に対して接続可能にする第三切換位置P3にそれぞれ選択的に切換えることができる。なお、切換弁部7の機能及びこれに基づく作用は、後述する使用方法の中で説明する。   Thereby, the switching valve portion 7 can suck air (outside air) A at a predetermined flow rate into the first switching position P1 and the milk container portion 2 where the milking outlet portion 4 is closed by operating the knob portion 26h. Alternatively, the second switching position P2 that enables the milk M in the milk container portion 2 to be taken out to the outside, and the third switching position that enables the inside of the milk container portion 2 to be connected to the return port portion 32 provided in the feeding line Lm. Each can be selectively switched to P3. In addition, the function of the switching valve part 7 and the effect | action based on this are demonstrated in the usage method mentioned later.

次に、このような構成を有する本実施形態に係るミルクサンプリング装置1の接続方法(設置方法)について、図5及び図6を参照して説明する。   Next, a connection method (installation method) of the milk sampling apparatus 1 according to this embodiment having such a configuration will be described with reference to FIGS. 5 and 6.

ミルクサンプリング装置1を使用するに際しては、図5及び図6に示すように接続することができる。いずれの接続においても、基本接続形態は、ミルクサンプリング装置1の上部に設けた乳取込口部3(接続管部11s)を、送乳ラインLmを流通する乳Mの一部を採取可能な採取口部31に対して接続するとともに、ミルクサンプリング装置1の底部に設けた乳取出口部4(第二乳出口25)を、送乳ラインLmに設けた戻し口部32に対して接続する。   When the milk sampling device 1 is used, it can be connected as shown in FIGS. In any connection, the basic connection form can collect a part of the milk M flowing through the milk feeding line Lm through the milk intake port 3 (connecting pipe portion 11s) provided in the upper part of the milk sampling device 1. While connecting with the collection port part 31, the milking outlet part 4 (2nd milk outlet 25) provided in the bottom part of the milk sampling apparatus 1 is connected with the return port part 32 provided in the milk feeding line Lm. .

まず、図5は、送乳ラインLmを構成するミルクパイプLmpに接続する例を示す。即ち、採取口部31を、送乳ラインLmを構成するミルクパイプLmpに設けた場合の接続例である。なお、例示は、接続を容易にするため、接続管ユニットUpを用いた場合を示す。この接続管ユニットUpは、所定長さのミルクパイプLmpを有し、このミルクパイプLmpの一端側に採取口部31を設けるとともに、他端側に戻し口部32を設けて構成する。この場合、採取口部31は、接続管ユニットUpに流通する乳Mの一部が採取口部31に分流するように構成する。また、図5に示す一部抽出拡大図のように、戻し口部32が臨むミルクパイプLmpには、戻し口部32の上流側を覆うフード状のカバー部18を設ける。このようなカバー部18を設ければ、送乳ラインLm側の乳Mが戻し口部32に入り込む逆流現象を防止し、乳Mの合流を円滑かつ安定に行わせることができる利点がある。   First, FIG. 5 shows an example of connection to the milk pipe Lmp constituting the breast feeding line Lm. That is, it is a connection example in the case where the collection port part 31 is provided in the milk pipe Lmp constituting the breast feeding line Lm. The example shows a case where the connecting pipe unit Up is used to facilitate the connection. The connecting pipe unit Up has a milk pipe Lmp of a predetermined length, and is configured by providing a sampling port portion 31 on one end side of the milk pipe Lmp and a return port portion 32 on the other end side. In this case, the collection port unit 31 is configured such that a part of the milk M flowing through the connection pipe unit Up is diverted to the collection port unit 31. Further, as in the partially extracted enlarged view shown in FIG. 5, the milk pipe Lmp facing the return port portion 32 is provided with a hood-shaped cover portion 18 that covers the upstream side of the return port portion 32. Providing such a cover portion 18 has an advantage that the milk M on the milk feeding line Lm side can prevent a backflow phenomenon in which the milk M enters the return port portion 32, and the milk M can be merged smoothly and stably.

これにより、接続管ユニットUpにミルクサンプリング装置1を接続するに際しては、図5に示すように、ミルクパイプLmpの採取口部31とミルクサンプリング装置1の接続管部11sを、取込側のミルクチューブTsにより接続するとともに、ミルクパイプLmpの戻し口部32とミルクサンプリング装置1の第二乳出口25を、戻し側のミルクチューブTrにより接続する。   Thereby, when connecting the milk sampling apparatus 1 to the connection pipe unit Up, as shown in FIG. 5, the sampling port part 31 of the milk pipe Lmp and the connection pipe part 11s of the milk sampling apparatus 1 are connected to the milk on the intake side. While connecting with the tube Ts, the return port part 32 of the milk pipe Lmp and the 2nd milk outlet 25 of the milk sampling apparatus 1 are connected with the milk tube Tr of the return side.

したがって、ミルクサンプリング装置1を送乳ラインLmに接続する際には、接続管ユニットUpのミルクパイプLmpを接続すればよく、容易に接続することができる。即ち、まず、送乳ラインLmの任意の位置を切断して、上流側の送乳ラインLmuと下流側の送乳ラインLmdに分割する。なお、この場合、送乳ラインLmの位置は、接続されている乳量計(不図示)よりも下流側の位置が望ましい。そして、分割した上流側の送乳ラインLmuと下流側の送乳ラインLmd間に、接続管ユニットUpのミルクパイプLmpを介在させ、上流側の送乳ラインLmuにおける下流側端部とミルクパイプLmpの上流側端部を、継手部材Juにより接続(連結)するとともに、ミルクパイプLmpの下流側端部と下流側の送乳ラインLmdにおける上流側端部を、継手部材Jdにより接続(連結)する。この状態を図5に示す。   Therefore, when the milk sampling device 1 is connected to the milk feeding line Lm, the milk pipe Lmp of the connecting pipe unit Up may be connected and can be easily connected. That is, first, an arbitrary position of the feeding line Lm is cut and divided into an upstream feeding line Lmu and a downstream feeding line Lmd. In this case, the position of the breast feeding line Lm is preferably a position downstream of the connected milk meter (not shown). The milk pipe Lmp of the connecting pipe unit Up is interposed between the divided upstream milking line Lmu and the downstream milking line Lmd, and the downstream end of the upstream milking line Lmu and the milk pipe Lmp Are connected (coupled) by the joint member Ju, and the downstream end of the milk pipe Lmp and the upstream end of the downstream milk feeding line Lmd are connected (coupled) by the joint member Jd. . This state is shown in FIG.

よって、図5の場合、図示を省略した搾乳機により搾乳された乳Mは、送乳ラインLmを矢印方向に送られ、ミルクパイプLmpを流れる。そして、ミルクパイプLmpを流れる乳Mは、その一部が採取口部31に分流し、ミルクサンプリング装置1によりサンプリング可能となる。したがって、このミルクパイプLmpは送乳ラインLmの一部となる。このように、採取口部31として、送乳ラインLmを構成するミルクパイプLmpに設けた採取口部31を適用すれば、ミルクサンプリング装置1は、ミルクパイプLmpの任意の位置を選定して接続できるため、設置性(融通性)及び汎用性に優れたミルクサンプリング装置1として提供できる利点がある。   Therefore, in the case of FIG. 5, the milk M milked by a milking machine (not shown) is sent through the milking line Lm in the direction of the arrow and flows through the milk pipe Lmp. A part of the milk M flowing through the milk pipe Lmp is diverted to the sampling port 31 and can be sampled by the milk sampling device 1. Therefore, this milk pipe Lmp becomes a part of the feeding line Lm. Thus, if the collection port part 31 provided in the milk pipe Lmp which comprises the milk feeding line Lm is applied as the collection port part 31, the milk sampling apparatus 1 will select and connect the arbitrary positions of the milk pipe Lmp. Therefore, there is an advantage that it can be provided as the milk sampling device 1 excellent in installation property (flexibility) and versatility.

他方、図6は、送乳ラインLmの中途に接続する乳量計51に付設する例を示す。即ち、採取口部31を、送乳ラインLmの中途に接続する乳量計51に設けた場合の接続例である。例示の乳量計51は、図6に示すように、基本構成として、流入口52から流入する乳Mを貯留可能な計量容器部53と、この計量容器部53の内部に貯留される乳Mの液面を検出する液面検出部54と、計量容器部53の流出口55を開閉可能な弁駆動部56により駆動される弁機構部57と、少なくとも液面検出部54が所定高さの液面を検出したなら弁機構部57を開閉制御する制御系58とを備えている。   On the other hand, FIG. 6 shows an example attached to the milk meter 51 connected in the middle of the breast feeding line Lm. That is, it is a connection example in the case where the collection port portion 31 is provided in the milk meter 51 connected in the middle of the breast feeding line Lm. As shown in FIG. 6, the exemplary milk meter 51 has a basic configuration in which a measuring container portion 53 capable of storing milk M flowing from an inlet 52 and milk M stored in the measuring container portion 53. A liquid level detection unit 54 that detects the liquid level of the liquid, a valve mechanism unit 57 that is driven by a valve drive unit 56 that can open and close the outlet 55 of the measuring container unit 53, and at least the liquid level detection unit 54 has a predetermined height. A control system 58 that controls the opening and closing of the valve mechanism 57 when the liquid level is detected is provided.

なお、より具体的な構成は次のようになる。乳量計51において、53は計量容器部であり、全体を円筒状に形成するとともに、周面部における縦方向中間部の所定位置に、上下二つの括れ部61u,61dを有する。これにより、括れ部61uよりも上側が気液分離室Rsとなり、括れ部61uと括れ部61d間が計量室Rmとなり、括れ部61dよりも下側が気液混合緩衝室Rdになるとともに、括れ部61uの内周面が気液分離室Rsと計量室Rm間を連通させる中間口62となり、括れ部61dの内周面が計量室Rmと気液混合緩衝室Rd間を連通させる流出口55となる。   A more specific configuration is as follows. In the milk meter 51, reference numeral 53 denotes a weighing container portion, which is formed in a cylindrical shape as a whole and has two upper and lower constricted portions 61u and 61d at predetermined positions in the middle portion in the vertical direction on the peripheral surface portion. Accordingly, the gas-liquid separation chamber Rs is located above the constricted portion 61u, the measuring chamber Rm is formed between the constricted portion 61u and the constricted portion 61d, and the gas-liquid mixing buffer chamber Rd is disposed below the constricted portion 61d. An inner peripheral surface of 61u serves as an intermediate port 62 that communicates between the gas-liquid separation chamber Rs and the measuring chamber Rm, and an inner peripheral surface of the constricted portion 61d communicates with the outlet 55 that communicates between the measuring chamber Rm and the gas-liquid mixing buffer chamber Rd. Become.

気液分離室Rsは、上端付近の周面部の外面から接線方向に突出し、上流側の送乳ラインLmuを接続する流入口52を有する。これにより、流入口52から気液分離室Rsの内部に流入した乳Mは、気液分離室Rsにおける周面部の内壁面に沿って螺旋状に流れる。また、計量室Rmは、上面部を周面部側が下になる傾斜面に形成するとともに、下面部を周面部側が上になる傾斜面に形成する。これにより、計量室Rmの内部は上下がテーパ面に囲まれる形状となる。したがって、この計量室Rmは、実際の使用環境(設置環境)において、乳量計51が傾斜する場合であっても傾斜により発生する測定誤差を排除でき、精度の高い乳量測定を行うことができる。一方、計量容器部61の内部には弁機構部57を配設する。この弁機構部57は、流出口55及び中間口62に挿通するとともに、上端口が気液分離室Rsの上端に臨み、かつ下端口が気液混合緩衝室Rdに臨むパイプシャフト65を備え、このパイプシャフト65により気液分離室Rsと気液混合緩衝室Rdが連通する。パイプシャフト65は弁駆動部56により昇降する。パイプシャフト65の外周面上側には第一弁部66を設けるとともに、外周面下側には第二弁部67を設け、第一弁部66と第二弁部67は計量室Rm内に位置させる。これにより、第一弁部66は計量室Rmと気液分離室Rs間の中間口62を開閉可能となり、第二弁部67は計量室Rmと気液混合緩衝室Rd間の流出口55を開閉可能となる。   The gas-liquid separation chamber Rs has an inflow port 52 that projects in a tangential direction from the outer surface of the peripheral surface portion near the upper end and connects the upstream feeding line Lmu. Thereby, the milk M flowing into the gas-liquid separation chamber Rs from the inlet 52 flows spirally along the inner wall surface of the peripheral surface portion in the gas-liquid separation chamber Rs. In addition, the weighing chamber Rm has an upper surface portion formed on an inclined surface with the peripheral surface portion side down, and a lower surface portion formed on an inclined surface with the peripheral surface portion side up. Thereby, the inside of the measurement chamber Rm has a shape in which the upper and lower sides are surrounded by the tapered surface. Therefore, this measuring room Rm can eliminate the measurement error caused by the inclination even when the milk meter 51 is inclined in the actual use environment (installation environment), and can perform the milk amount measurement with high accuracy. it can. On the other hand, a valve mechanism 57 is disposed inside the weighing container 61. The valve mechanism 57 includes a pipe shaft 65 that passes through the outlet 55 and the intermediate port 62, has an upper end facing the upper end of the gas-liquid separation chamber Rs, and a lower end facing the gas-liquid mixing buffer chamber Rd. This pipe shaft 65 allows the gas-liquid separation chamber Rs and the gas-liquid mixing buffer chamber Rd to communicate with each other. The pipe shaft 65 is moved up and down by the valve drive unit 56. A first valve portion 66 is provided above the outer peripheral surface of the pipe shaft 65, and a second valve portion 67 is provided below the outer peripheral surface. The first valve portion 66 and the second valve portion 67 are located in the measuring chamber Rm. Let Accordingly, the first valve portion 66 can open and close the intermediate port 62 between the measuring chamber Rm and the gas-liquid separation chamber Rs, and the second valve portion 67 opens the outlet 55 between the measuring chamber Rm and the gas-liquid mixing buffer chamber Rd. It can be opened and closed.

この場合、弁駆動部56は、パイプシャフト65の上端を固定したダイヤフラムを内蔵するとともに、このダイヤフラムの上側に吸気室56rを有する。この吸気室56rは切換バルブ68を介して大気側又は真空ポンプ69側に選択的に接続でき、この切換バルブ68は制御系58を構成する制御部71により切換制御される。さらに、気液混合緩衝室Rdは、上面部を周面部側が下になる傾斜面に形成するとともに、底面部を周面部側が上になる傾斜面に形成し、基本的な形態は計量室Rmと同じになる。したがって、気液混合緩衝室Rdの内部は上下がテーパ面に囲まれる形状となり、気液混合緩衝室Rdから乳Mが送出される際には計量容器部53が傾斜した状態であっても乳Mが残留することがなくなる。72は気液混合緩衝室Rdに設けた乳送出口部であり、所定流量以下の流量により乳Mを流出させ、かつパイプシャフト65から流入した気液分離室Rsの空気Aに混合して送り出す送出口73を有する。液面検出部54は、三本の電極54p…を有しており、制御部71に接続することにより、液面の高さを検出することができる。   In this case, the valve drive unit 56 incorporates a diaphragm in which the upper end of the pipe shaft 65 is fixed, and has an intake chamber 56r on the upper side of the diaphragm. The intake chamber 56r can be selectively connected to the atmosphere side or the vacuum pump 69 side via a switching valve 68, and the switching valve 68 is switched and controlled by a control unit 71 constituting a control system 58. Furthermore, the gas-liquid mixing buffer chamber Rd has an upper surface portion formed on an inclined surface with the peripheral surface portion side down, and a bottom surface portion formed on an inclined surface with the peripheral surface portion side up. Be the same. Accordingly, the inside of the gas-liquid mixing buffer chamber Rd is shaped so that the upper and lower sides are surrounded by a tapered surface, and the milk M is sent out from the gas-liquid mixing buffer chamber Rd even when the measuring container 53 is inclined. M does not remain. Reference numeral 72 denotes a milk feeding outlet provided in the gas-liquid mixing buffer chamber Rd, which causes the milk M to flow out at a flow rate equal to or lower than a predetermined flow rate, and mixes and sends the air to the air A in the gas-liquid separation chamber Rs flowing in from the pipe shaft 65 A delivery port 73 is provided. The liquid level detection unit 54 has three electrodes 54p, and can detect the height of the liquid level by connecting to the control unit 71.

そして、流出口55を形成する内周縁部55sの下方には、流出口55から流出した乳Mの一部を採取する分取筒75を設ける。この分取筒75の上端が分取口75iとなり、この分取口75iは内周縁部55sの直下に位置させる。分取筒75は気液混合緩衝室Rdの底面部Rddから起立するとともに、下端口は外部に臨ませ、接続部75eとして機能させる。したがって、この分取筒75が、分取口75iから採取した乳Mを外部に導く採取口部31となる。なお、75aは分取筒75の上端に設けた空気取込口を示す。   A sorting cylinder 75 for collecting a part of the milk M flowing out from the outlet 55 is provided below the inner peripheral edge 55s that forms the outlet 55. The upper end of the sorting cylinder 75 serves as a sorting port 75i, and the sorting port 75i is positioned directly below the inner peripheral edge 55s. The sorting cylinder 75 rises from the bottom surface portion Rdd of the gas-liquid mixing buffer chamber Rd, and the lower end is exposed to the outside so as to function as the connection portion 75e. Therefore, this sorting cylinder 75 becomes the collection port portion 31 that guides the milk M collected from the collection port 75i to the outside. Reference numeral 75a denotes an air intake port provided at the upper end of the sorting cylinder 75.

この乳量計51は、図6に示すように、送乳ラインLmの中途に接続して使用する。この場合、流入口52に、送乳ラインLmにおける上流側の送乳ラインLmuを接続するとともに、乳送出口部72の外側端部に下流側の送乳ラインLmdを接続する。また、ミルクサンプリング装置1を乳量計51に接続するに際しては、図6に示すように、ミルクサンプリング装置1の接続管部11sと乳量計51の接続部75e(採取口部31)を、取込側のミルクチューブTsにより接続するとともに、ミルクサンプリング装置1の第二乳出口25と下流側の送乳ラインLmdに設けた戻し口部32を、戻し側のミルクチューブTrにより接続する。この場合、戻し口部32は、この戻し口部32を一体に設けた継手ユニットUjを接続して設ける。即ち、図6に示すように、下流側の送乳ラインLmdを、任意の位置で切断して、上送乳ラインLmduと下送乳ラインLmddに分割する。そして、分割した上送乳ラインLmduと下送乳ラインLmddを、再度、継手ユニットUjを介して接続(連結)すれば、送乳ラインLmの任意の位置に戻し口部32を設けることができる。   As shown in FIG. 6, this milk meter 51 is used by being connected to the middle of the milk feeding line Lm. In this case, the upstream feeding line Lmu in the feeding line Lm is connected to the inflow port 52, and the downstream feeding line Lmd is connected to the outer end portion of the feeding port 72. Further, when connecting the milk sampling device 1 to the milk meter 51, as shown in FIG. 6, the connecting pipe portion 11s of the milk sampling device 1 and the connecting portion 75e (collecting port portion 31) of the milk meter 51 are connected. While being connected by the milk tube Ts on the intake side, the second milk outlet 25 of the milk sampling device 1 and the return port portion 32 provided on the downstream feeding line Lmd are connected by the milk tube Tr on the return side. In this case, the return port portion 32 is provided by connecting a joint unit Uj provided integrally with the return port portion 32. That is, as shown in FIG. 6, the downstream feeding line Lmd is cut at an arbitrary position and divided into an upper feeding line Lmdu and a lower feeding line Lmdd. And if the divided | segmented upper breast feeding line Lmdu and the lower breast feeding line Lmdd are again connected (connected) via the coupling unit Uj, the return port portion 32 can be provided at an arbitrary position of the breast feeding line Lm. .

よって、図6の場合、図示を省略した搾乳機により搾乳された乳Mは、送乳ラインLmuを送られ、流入口52から乳量計51に流入する。計量初期では、弁駆動部56の吸気室56rは、切換バルブ68を介して大気に接続されるため、弁機構部57は下方へ変位している。したがって、中間口62は開き、流出口55は閉じているため、流入した乳Mは計量室Rmに貯留される。そして、乳Mの液面が、中間口62を越え、液面検出部54(電極54p…)により検出される高さに達すれば、制御部71は切換バルブ68を切換制御し、弁駆動部56の吸気室56rを真空ポンプ69に接続する。これにより、弁駆動部56に内蔵するダイヤフラムが上方変位して弁機構部57を上方へ変位させる。この結果、中間口62は閉じ、流出口55が開くため、計量室Rmの乳Mは気液混合緩衝室Rdに流入する。この際、一部の乳Mが分取口75iに流入し、ミルクサンプリング装置1によりサンプリング可能となる。また、弁機構部57が上方へ変位した後、設定した所定時間が経過すれば、制御部71は切換バルブ68を切換制御し、弁駆動部56の吸気室56rを大気側に接続する。これにより、弁機構部57は下方へ変位する。以上の動作が繰り返される。   Therefore, in the case of FIG. 6, milk M milked by a milking machine (not shown) is sent through the milk feeding line Lmu and flows into the milk meter 51 from the inlet 52. At the beginning of measurement, the intake chamber 56r of the valve drive unit 56 is connected to the atmosphere via the switching valve 68, so that the valve mechanism unit 57 is displaced downward. Accordingly, since the intermediate port 62 is open and the outlet 55 is closed, the milk M that has flowed in is stored in the measuring chamber Rm. When the liquid level of the milk M reaches the height detected by the liquid level detection unit 54 (electrode 54p...) Beyond the intermediate port 62, the control unit 71 controls the switching valve 68 to switch the valve driving unit. 56 intake chambers 56 r are connected to the vacuum pump 69. Thereby, the diaphragm built in the valve drive unit 56 is displaced upward to displace the valve mechanism 57 upward. As a result, the intermediate port 62 is closed and the outlet 55 is opened, so that the milk M in the measuring chamber Rm flows into the gas-liquid mixing buffer chamber Rd. At this time, a part of the milk M flows into the sorting port 75 i and can be sampled by the milk sampling device 1. Further, if the set predetermined time has elapsed after the valve mechanism 57 is displaced upward, the controller 71 controls the switching valve 68 to connect the intake chamber 56r of the valve driving unit 56 to the atmosphere side. As a result, the valve mechanism 57 is displaced downward. The above operation is repeated.

このように、採取口部31として、送乳ラインLmの中途に接続する乳量計51に設けた採取口部31を適用すれば、乳量計51とミルクサンプリング装置1は一体化が可能になるため、管理の容易化及びメンテナンス性の向上に寄与できるとともに、設備全体のシンプル化及び省スペース化にも寄与できる利点がある。特に、乳量計51として、流入口52から流入する乳Mを貯留可能な計量容器部53と、この計量容器部53の内部に貯留される乳Mの液面を検出する液面検出部54と、計量容器部53の流出口55を開閉可能な弁駆動部56により駆動される弁機構部57と、少なくとも液面検出部54が所定高さの液面を検出したなら弁機構部57を開閉制御する制御系58とを備えて構成するとともに、採取口部31を、当該乳量計51の流出口55から流出する乳Mの一部を採取可能に設ければ、一定量の乳Mを安定に採取でき、採取不足となるなどの不具合を回避できるとともに、バラツキの少ない正確で安定したサンプリング量を確保できる利点がある。   Thus, if the sampling port part 31 provided in the milk meter 51 connected in the middle of the milk feeding line Lm is applied as the sampling port part 31, the milk meter 51 and the milk sampling device 1 can be integrated. Therefore, there is an advantage that it can contribute to simplification of the entire equipment and space saving, as well as to facilitate management and improve maintainability. In particular, as a milk meter 51, a measuring container 53 that can store milk M flowing in from an inlet 52, and a liquid level detector 54 that detects the liquid level of milk M stored inside the measuring container 53. A valve mechanism unit 57 driven by a valve driving unit 56 capable of opening and closing the outlet 55 of the measuring container unit 53, and a valve mechanism unit 57 if at least the liquid level detection unit 54 detects a liquid level of a predetermined height. If the collection port 31 is provided so that a part of the milk M flowing out from the outlet 55 of the milk meter 51 can be collected, a certain amount of milk M is provided. Can be stably collected, and it is possible to avoid problems such as insufficient collection and to secure an accurate and stable sampling amount with little variation.

次に、本実施形態に係るミルクサンプリング装置1の使用方法及び機能について、図7〜図10を参照して説明する。なお、使用方法は、図5及び図6に示したいずれの接続方法にも適用できる。   Next, the usage method and function of the milk sampling apparatus 1 which concerns on this embodiment are demonstrated with reference to FIGS. The method of use can be applied to any of the connection methods shown in FIGS.

まず、図7は、サンプリング中(搾乳中)の状態を示す。この場合、切換弁部7は、ツマミ部26hを回し操作し、乳取出口部4を閉塞する第一切換位置P1に切換える。第一切換位置P1では、図7に示すように、乳入口23iは弁本体26mにより遮断される。したがって、乳取出口部4は閉塞された状態となる。一方、乳取込口部3は送乳ラインLm側に接続されているため、乳容器部2の内部は同圧の真空状態(吸引状態)となり、弁体部12は落下して逆止弁部5は開状態となる。この結果、搾乳された乳Mは送乳ラインLmを送られるとともに、乳Mの一部は採取口部31から取込まれ、ミルクチューブTrを通り、乳取込口部3(乳流路部11)から乳容器部2に進入して貯留される。   First, FIG. 7 shows a state during sampling (during milking). In this case, the switching valve portion 7 is operated by turning the knob portion 26h to switch to the first switching position P1 where the milking outlet portion 4 is closed. In the first switching position P1, as shown in FIG. 7, the milk inlet 23i is blocked by the valve body 26m. Therefore, the milking outlet 4 is closed. On the other hand, since the milk intake port 3 is connected to the breast feeding line Lm side, the inside of the milk container 2 is in a vacuum state (suction state) with the same pressure, and the valve body 12 is dropped to check valve. Part 5 is in the open state. As a result, the milk M that has been milked is fed through the milking line Lm, and a part of the milk M is taken in from the collection port 31 and passes through the milk tube Tr to the milk intake port 3 (milk flow channel unit). 11) enters the milk container 2 and is stored.

そして、図8に示すように、乳容器部2の内部に乳Mが貯留されれば、検査のための乳Mを必要量だけ取出すことができる。この場合、切換弁部7のツマミ部26hを回し操作し、乳容器部2の内部に所定流量の空気(外気)Aを吸入可能にする第二切換位置P2に切換える。第二切換位置P2では、図8に示すように、第一乳路28の他端28sが乳入口23iに連通接続される。この際、乳容器部2の内部は第一乳路28を通して大気に連通するが、乳容器部2の内部は吸引状態のため、球体34は吸引されることにより、弁座機能を有するテーパ面28stに当接する。これにより、気泡発生部35が機能し、乳容器部2の内部には、通気路17を通して空気(外気)Aが吸入され、生成される気泡Aoが乳容器部2の内部を浮揚する。通気路17の大きさ(開口面積,数量)は、任意に選定できるため、撹拌効果が大きくなるように、予め実験等により最適化することができる。このように、切換弁部7を第二切換位置P2に切換えれば、乳取出口部4側から気泡Aoを生成し、貯留された乳Mに対する撹拌を行うことができる。   And if milk M is stored in the inside of the milk container part 2 as shown in FIG. 8, only the required quantity of milk M for a test | inspection can be taken out. In this case, the knob portion 26 h of the switching valve portion 7 is operated to be switched to the second switching position P <b> 2 that allows a predetermined flow rate of air (outside air) A to be sucked into the milk container portion 2. At the second switching position P2, as shown in FIG. 8, the other end 28s of the first milk passage 28 is connected to the milk inlet 23i. At this time, the inside of the milk container portion 2 communicates with the atmosphere through the first milk passage 28. However, since the inside of the milk container portion 2 is in a suction state, the spherical body 34 is sucked, thereby having a tapered surface having a valve seat function. It abuts on 28st. As a result, the bubble generating unit 35 functions, air (outside air) A is sucked into the milk container unit 2 through the air passage 17, and the generated bubbles Ao float inside the milk container unit 2. Since the size (opening area, quantity) of the air passage 17 can be arbitrarily selected, it can be optimized in advance by experiments or the like so that the stirring effect is increased. Thus, if the switching valve part 7 is switched to the 2nd switching position P2, the bubble Ao will be produced | generated from the milking outlet part 4 side, and the stirring with respect to the stored milk M can be performed.

この後、図9に示すように、撹拌された乳Mから検査に必要な量だけ取り出すことができる。即ち、切換弁部7を第二切換位置P2に切換え、所定時間継続させることにより、十分な撹拌が行われたなら、切換弁部7を第二切換位置P2の状態に維持しつつ、図9に示すように、開閉弁部6vを手で持ち上げることにより通気口部6hを開状態にする。これにより、通気口部6hから乳容器部2の内部に空気(外気)Aが大量に進入するため、乳容器部2の内部は大気状態になる。この結果、逆止弁部5の弁体部12は送乳ラインLm側(上方)に吸引され、逆止弁部5は閉状態となる。したがって、乳容器部2の内部の乳Mは、第一乳路28を通して外部に取出可能となる。この際、球体34はテーパ面28stから離れ、落下防止部33に係止することにより、第一乳路28は大気に開放される。このように、ユーザーは開閉弁部6vを手でマニュアル操作することにより任意の乳量を取り出すことができるため、試料容器を、第一乳出口27の下方に位置させ、開閉弁部6vを手で開操作することにより、検査に必要な乳Mの量だけ試料容器に取出すことができる。   Thereafter, as shown in FIG. 9, only the amount necessary for the inspection can be taken out from the stirred milk M. That is, the switching valve unit 7 is switched to the second switching position P2 and continued for a predetermined period of time, and if sufficient agitation is performed, the switching valve unit 7 is maintained at the second switching position P2 while FIG. As shown in FIG. 6, the vent hole 6h is opened by lifting the on-off valve 6v by hand. As a result, a large amount of air (outside air) A enters the inside of the milk container part 2 from the vent hole part 6h, so that the inside of the milk container part 2 is in an atmospheric state. As a result, the valve body portion 12 of the check valve portion 5 is sucked toward the breast feeding line Lm (upward), and the check valve portion 5 is closed. Therefore, the milk M inside the milk container 2 can be taken out through the first milk passage 28. At this time, the sphere 34 is separated from the tapered surface 28st and is locked to the fall prevention portion 33, so that the first milk passage 28 is opened to the atmosphere. In this way, the user can manually take out the on-off valve portion 6v to manually take out an arbitrary amount of milk. Therefore, the sample container is positioned below the first milk outlet 27 and the on-off valve portion 6v is manually operated. As a result of the opening operation, the amount of milk M necessary for the inspection can be taken out into the sample container.

一方、図10に示すように、乳容器部2の内部に残った乳Mは、送乳ラインLmに戻すことができる。この場合、切換弁部7のツマミ部26hを回し操作し、乳容器部2の内部を送乳ラインLmに設けた戻し口部32に対して接続可能にする第三切換位置P3に切換える。第三切換位置P3では、図10に示すように、第二乳路29の他端29tが乳入口23iに接続され、乳入口23iは第二乳路29を介して第二乳出口25に連通するとともに、さらに、戻し側のミルクチューブTrを介して送乳ラインLmに連通する。したがって、ユーザーが開閉弁部6vを操作し、通気口部6hを開状態にすれば、通気口部6hから乳容器部2の内部に空気(外気)Aが大量に進入し、乳容器部2の内部は大気状態になる。この結果、逆止弁部5の弁体部12が送乳ラインLm側に吸引され、逆止弁部5は閉状態になるとともに、第二乳出口25に対して、ミルクチューブTr側から吸引されるため、乳容器部2の内部に残留した乳Mは、第二乳路29及びミルクチューブTrを通して送乳ラインLmに戻される。   On the other hand, as shown in FIG. 10, the milk M remaining inside the milk container portion 2 can be returned to the milk feeding line Lm. In this case, the knob part 26h of the switching valve part 7 is turned and operated to switch to the third switching position P3 enabling the inside of the milk container part 2 to be connected to the return port part 32 provided in the breast feeding line Lm. At the third switching position P3, as shown in FIG. 10, the other end 29t of the second milk passage 29 is connected to the milk inlet 23i, and the milk inlet 23i communicates with the second milk outlet 25 through the second milk passage 29. At the same time, it communicates with the milk feeding line Lm via the milk tube Tr on the return side. Therefore, if the user operates the on-off valve portion 6v to open the vent portion 6h, a large amount of air (outside air) A enters the inside of the milk container portion 2 from the vent portion 6h, and the milk container portion 2 The inside of becomes atmospheric condition. As a result, the valve body portion 12 of the check valve portion 5 is sucked toward the milk feeding line Lm, the check valve portion 5 is closed, and the second milk outlet 25 is sucked from the milk tube Tr side. Therefore, the milk M remaining in the milk container portion 2 is returned to the milk feeding line Lm through the second milk passage 29 and the milk tube Tr.

このように、本実施形態に係るミルクサンプリング装置1によれば、切換弁部7を第二切換位置P2に切換えることにより、乳容器部2の内部に所定流量の空気(外気)Aを吸入し、気泡を発生させることにより乳容器部2に収容された乳Mを撹拌できるとともに、この後、開閉機構部6を操作することにより、乳容器部2の内部の乳Mを検査に必要な量だけ外部の試料容器に取出すことができる。このように、乳Mのサンプリングを行った後、小さな試料容器に採取するまでの作業が単純化され、能率的で迅速な作業を行うことができる。また、切換弁部7を第三切換位置P3に切換えることにより、乳容器部2の内部を送乳ラインLmに設けた戻し口部32に対して接続できるため、乳容器部2の内部に残留した乳Mをそのまま送乳ラインLmに戻すことができる。したがって、従来のような残留した乳Mを廃棄したり或いは子牛に与える等の後処理が不要になり、乳Mの無駄を招いたり、品質の低下した乳Mを子牛に与えてしまうなどの不具合を解消でき、適切な後処理を実現できる。   As described above, according to the milk sampling device 1 according to the present embodiment, by switching the switching valve unit 7 to the second switching position P2, the predetermined amount of air (outside air) A is sucked into the milk container unit 2. The milk M contained in the milk container part 2 can be stirred by generating bubbles, and the amount of milk M in the milk container part 2 required for the inspection is then operated by operating the opening / closing mechanism part 6. Can only be taken out to the external sample container. In this way, after sampling the milk M, the operation until it is collected in a small sample container is simplified, and an efficient and quick operation can be performed. Moreover, since the inside of the milk container part 2 can be connected with the return port part 32 provided in the feeding line Lm by switching the switching valve part 7 to the 3rd switching position P3, it remains in the inside of the milk container part 2. The milk M thus obtained can be returned to the feeding line Lm as it is. Therefore, the post-treatment such as discarding the remaining milk M or giving it to the calf becomes unnecessary, and the milk M is wasted, or the milk M having a reduced quality is given to the calf. Can be solved, and appropriate post-processing can be realized.

次に、本実施形態に係るミルクサンプリング装置1における各部の変更例について、図11及び図12を参照して説明する。   Next, a modified example of each part in the milk sampling device 1 according to the present embodiment will be described with reference to FIGS. 11 and 12.

図11(a),(b)は、乳取込口部3に備える弁体係止部14の係止部材14sの変更例を示す。図11(a)は、図2に示した係止部材14sに対して、ターン数の少ないコイルスプリング14sceとして形成した点が異なるとともに、コイルスプリング14sceの両端に設ける一対のピン部Wp,Wqの向きを反対、即ち、図2のピン部Wp,Wqは、一対の保持孔14p,14qに対して内側から挿入可能に形成したが、図11(a)のピン部Wp,Wqは、一対の保持孔14p,14qに対して外側から挿入可能に形成した点が異なる。なお、図11(a)の形態はサイズが大きくなるも着脱操作しやすい利点がある。   FIGS. 11A and 11B show a modification of the locking member 14 s of the valve body locking portion 14 provided in the milk intake port portion 3. FIG. 11A differs from the locking member 14s shown in FIG. 2 in that it is formed as a coil spring 14sce with a small number of turns, and a pair of pin portions Wp and Wq provided at both ends of the coil spring 14sce. The direction is opposite, that is, the pin portions Wp and Wq in FIG. 2 are formed to be insertable from the inside into the pair of holding holes 14p and 14q, but the pin portions Wp and Wq in FIG. The difference is that the holding holes 14p and 14q are formed to be insertable from the outside. In addition, although the form of Fig.11 (a) becomes large, there exists an advantage which is easy to attach or detach.

また、図11(b)は、図11(a)の係止部材14sに対して、コイルスプリング14sceの代わりに、弁体部12を係止可能なジグザグ形状部14smeに形成した点が異なる。このように、係止部材14sの形状は、弁体部12を係止可能であれば、様々な形状により形成することができる。   Further, FIG. 11B is different from the locking member 14s of FIG. 11A in that a zigzag-shaped portion 14sme capable of locking the valve body portion 12 is formed instead of the coil spring 14sce. Thus, the shape of the locking member 14s can be formed in various shapes as long as the valve body 12 can be locked.

一方、図12は、切換弁部7の変更例を示す。図12に示す切換弁部7は、図4に示した切換弁部7に対して、球体34の代わりに円柱体34eを用い、乳入口23iの直下に配した点が異なるとともに、円柱体34eの向きを垂直方向とし、上部の外周面をテーパ面34etに形成した点が異なる。したがって、円柱体34eのテーパ面34etが当接する弁座機能を有するテーパ面28stに対しては面接触する。なお、円柱体34eは昇降変位を許容するように、第一乳路28の径を大きくし、内壁面から複数のガイド条81…を突出形成した。これにより、円柱体34eはガイド条81…によりガイドされて昇降変位するとともに、下降した際には乳Mの通過が許容される。また、テーパ面34etには一又は二以上の通気溝17s…形成して通気路17(気泡発生部35e)を構成した。この際、通気溝17s…は、軸心方向に対して角度を持たせ、乳容器部2側に流入する空気Aの向きFiを設定した。例示の場合、気泡発生部35eが機能する際は、乳容器部2の内部に所定流量の空気(外気)Aの流入が許容されるとともに、空気Aの流入する向きFiを傾斜されたため、乳入口23i(乳容器部2)の内部において、螺旋状の気泡Aoを発生させることができる。このように、空気Aの流入する向きFiを設定した通気路17を設ければ、気泡の発生方向を多様化できるため、気泡を垂直方向に浮揚させるのみならず、例示のように、螺旋方向に発生させるなど、撹拌効果をより高めることができる。なお、図11及び図12において、図1〜図4と同一部分には同一符号を付してその構成を明確にするとともに、その詳細な説明は省略する。   On the other hand, FIG. 12 shows a modified example of the switching valve unit 7. The switching valve unit 7 shown in FIG. 12 differs from the switching valve unit 7 shown in FIG. 4 in that a cylindrical body 34e is used instead of the spherical body 34, and that the cylindrical body 34e is arranged directly below the milk inlet 23i. The difference is that the direction of is the vertical direction and the upper outer peripheral surface is formed on the tapered surface 34et. Therefore, the tapered surface 28st having a valve seat function with which the tapered surface 34et of the cylindrical body 34e abuts is in surface contact. In addition, the cylindrical body 34e was formed so that the diameter of the first milk passage 28 was increased and a plurality of guide strips 81 were projected from the inner wall surface so as to allow the vertical displacement. As a result, the cylindrical body 34e is guided by the guide strips 81 to be displaced up and down, and the milk M is allowed to pass when it is lowered. In addition, one or two or more ventilation grooves 17s are formed on the tapered surface 34et to configure the ventilation path 17 (bubble generation part 35e). At this time, the ventilation grooves 17 s... Have an angle with respect to the axial direction, and set the direction Fi of the air A flowing into the milk container part 2 side. In the case of the example, when the bubble generating part 35e functions, inflow of a predetermined flow rate of air (outside air) A into the milk container part 2 is allowed and the direction Fi in which the air A flows is inclined, so that the milk Inside the inlet 23i (milk container part 2), a spiral bubble Ao can be generated. In this way, if the air flow path 17 in which the direction Fi into which the air A flows is set is provided, the generation direction of the bubbles can be diversified, so that not only the bubbles are floated in the vertical direction but also the spiral direction as illustrated. The stirring effect can be further enhanced. 11 and 12, the same parts as those in FIGS. 1 to 4 are denoted by the same reference numerals to clarify the configuration, and detailed description thereof is omitted.

以上、好適実施形態について詳細に説明したが、本発明は、このような実施形態に限定されるものではなく、細部の構成,形状,素材,数量,手法等において、本発明の要旨を逸脱しない範囲で、任意に変更,追加,削除することができる。例えば、採取口部31は、送乳ラインLmを構成するミルクパイプLmpに設けた場合を示したが、このミルクパイプLmpにはミルクチューブも含まれる。また、乳量計51の形態は例示であり、各種形態の乳量計を適用できる。さらに、開閉機構部6の形態も任意であり、例えば、レバー操作等により開閉する形態であってもよい。一方、切換弁部7も同様の機能を有するものであれば、例えば、押ボタンを操作することにより電動で切換わる形態など、各種形態の切換弁部7を利用できる。   Although the preferred embodiment has been described in detail above, the present invention is not limited to such an embodiment, and the detailed configuration, shape, material, quantity, technique, and the like do not depart from the gist of the present invention. It can be changed, added, or deleted arbitrarily. For example, although the collection port part 31 showed the case where it provided in the milk pipe Lmp which comprises the milk feeding line Lm, this milk pipe Lmp contains a milk tube. Moreover, the form of the milk meter 51 is an example, and various types of milk meters can be applied. Furthermore, the form of the opening / closing mechanism 6 is also arbitrary, and may be a form that opens and closes by lever operation or the like, for example. On the other hand, as long as the switching valve unit 7 has a similar function, various types of switching valve units 7 can be used, such as a mode in which the switching is performed electrically by operating a push button.

本発明に係るミルクサンプリング装置は、搾乳機に接続された送乳ラインを有する各種搾乳システムに利用できる。   The milk sampling device according to the present invention can be used in various milking systems having a milking line connected to a milking machine.

1:ミルクサンプリング装置,2:乳容器部,3:乳取込口部,4:乳取出口部,5:逆止弁部,6:開閉機構部,6h:通気口部,6v:開閉弁部,6vs:閉塞体部,7:切換弁部,11:乳流路部,12:弁体部,13:弁座部,14:弁体係止部,14s:係止部材,15:通気孔部,16s:開閉弁部の一端,16t:開閉弁部の他端,17:通気路,18:カバー部,31:採取口部,32:戻し口部,51:乳量計,52:流入口,53:計量容器部,54:液面検出部,55:流出口,56:弁駆動部,57:弁機構部,58:制御系,Fi:空気の流入する向き,M:乳,Lm:送乳ライン,Lmp:ミルクパイプ(又はミルクチューブ),P1:第一切換位置,P2:第二切換位置,A:空気(外気),P3:第三切換位置,W:弾性線材,Wp:ピン部,Wq:ピン部   DESCRIPTION OF SYMBOLS 1: Milk sampling apparatus, 2: Milk container part, 3: Milk intake part, 4: Milking outlet part, 5: Check valve part, 6: Opening / closing mechanism part, 6h: Vent part, 6v: Opening / closing valve Part, 6vs: closed body part, 7: switching valve part, 11: milk flow path part, 12: valve body part, 13: valve seat part, 14: valve body locking part, 14s: locking member, 15: communication Porous part, 16s: one end of the on-off valve part, 16t: the other end of the on-off valve part, 17: vent, 18: cover part, 31: sampling part, 32: return part, 51: milk meter, 52: Inlet, 53: Metering container, 54: Liquid level detector, 55: Outlet, 56: Valve drive, 57: Valve mechanism, 58: Control system, Fi: Direction of air flow, M: Milk, Lm: Feeding line, Lmp: Milk pipe (or milk tube), P1: First switching position, P2: Second switching position, A: Air (outside air), P3: Third switching Location, W: elastic wire, Wp: pin, Wq: pin

Claims (9)

採取した乳を収容する乳容器部と、この乳容器部の上部に配し、かつ送乳ラインを流通する乳の一部を採取可能な採取口部に対して接続可能な乳取込口部とを、少なくとも備えてなるミルクサンプリング装置であって、前記乳取込口部及び底部に有する乳取出口部を除いて密閉構造に形成した乳容器部と、乳流路部内に少なくとも進退自在に配した弁体部,この弁体部の上流側における前記乳流路部に設けることにより、前記弁体部が当接可能な弁座部,及び弾性線材を折曲及び/又は湾曲させて形成し、両端に前記乳流路部側に係止可能な一対のピン部を有するとともに、当該一対のピン部の相対位置が弾性変位可能な係止部材を有し、前記弁体部の下流側における前記乳流路部に配することにより、前記弁体部を係止しつつ乳の流通を許容可能な弁体係止部を備える前記乳取込口部に設けた逆止弁部と、前記乳容器部の上部に設けた外部と内部を連通する通気口部及びこの通気口部を選択的に開閉可能な開閉弁部を有する開閉機構部と、前記乳取出口部に設け、この乳取出口部を閉塞する第一切換位置,前記乳容器部の内部に所定流量の空気(外気)を吸入可能又は前記乳容器部の内部の乳を外部に取出可能にする第二切換位置,前記乳容器部の内部を前記送乳ラインに設けた戻し口部に対して接続可能にする第三切換位置にそれぞれ選択的に切換可能な切換弁部とを具備してなることを特徴とするミルクサンプリング装置。   A milk container part for storing the collected milk, and a milk intake part arranged on the upper part of the milk container part and connectable to a collection mouth part capable of collecting a part of milk flowing through the feeding line A milk sampling device comprising at least a milk container portion formed in a sealed structure excluding the milk intake port portion and the milk extraction outlet portion at the bottom portion, and at least freely movable in and out of the milk flow path portion. Formed by bending and / or curving the valve body part arranged, the valve seat part with which the valve body part can contact, and the elastic wire rod by being provided in the milk flow path part on the upstream side of the valve body part And having a pair of pin portions that can be locked to the milk flow channel portion side at both ends, and a locking member whose relative position of the pair of pin portions is elastically displaceable, downstream of the valve body portion In the milk flow path section in the milk, allowing the milk to flow while locking the valve body section. A check valve portion provided in the milk intake port portion having a possible valve body locking portion, a vent port portion provided on the upper portion of the milk container portion and communicating with the inside and the vent port portion selectively. An opening / closing mechanism having an openable / closable valve portion, a first switching position provided at the milking outlet portion, and closing the milking outlet portion, and a predetermined flow rate of air (outside air) inside the milk container portion. A second switching position that allows inhalation or allows the milk inside the milk container part to be taken out to the outside, and a third switching that enables the inside of the milk container part to be connected to a return port provided in the feeding line. A milk sampling apparatus comprising a switching valve portion that can be selectively switched to each position. 前記採取口部は、前記送乳ラインを構成するミルクパイプ又はミルクチューブに設けることを特徴とする請求項1記載のミルクサンプリング装置。   The milk sampling apparatus according to claim 1, wherein the sampling port is provided in a milk pipe or a milk tube constituting the feeding line. 前記採取口部は、前記送乳ラインの中途に接続する乳量計に設けることを特徴とする請求項1記載のミルクサンプリング装置。   The milk sampling apparatus according to claim 1, wherein the sampling port is provided in a milk meter connected to the middle of the feeding line. 前記乳量計は、流入口から流入する乳を貯留可能な計量容器部と、この計量容器部の内部に貯留される乳の液面を検出する液面検出部と、前記計量容器部の流出口を開閉可能な弁駆動部により駆動されるバルブ機構部と、少なくとも前記液面検出部が所定高さの液面を検出したなら前記バルブ機構部を開閉制御する制御系とを備え、前記採取口部は、前記流出口から流出する乳の一部を採取可能に臨ませてなることを特徴とする請求項3記載のミルクサンプリング装置。   The milk meter includes a measuring container part capable of storing milk flowing in from an inlet, a liquid level detecting part for detecting a liquid level of milk stored in the measuring container part, and a flow of the measuring container part. A sampling mechanism comprising: a valve mechanism driven by a valve driving unit capable of opening and closing an outlet; and a control system for controlling opening and closing of the valve mechanism when at least the liquid level detection unit detects a liquid level of a predetermined height. 4. The milk sampling apparatus according to claim 3, wherein the mouth part faces a part of milk flowing out from the outflow port so as to be collected. 前記弁座部と前記弁体部間には、当該弁座部と当該弁体部の当接により形成され、所定流量の通気を許容する通気孔部を備えることを特徴とする請求項1記載のミルクサンプリング装置。   2. A vent hole portion formed between the valve seat portion and the valve body portion by contact between the valve seat portion and the valve body portion and allowing ventilation at a predetermined flow rate. Milk sampling device. 前記開閉機構部は、弾性素材により形成し、一端側が前記通気口部に外部から当接するとともに、他端側を固定し、一端側をマニュアル操作可能に構成した開閉弁部を備えることを特徴とする請求項1〜5のいずれかに記載のミルクサンプリング装置。   The opening / closing mechanism portion is formed of an elastic material, and includes an opening / closing valve portion configured such that one end side comes into contact with the vent portion from the outside, the other end side is fixed, and the one end side is configured to be manually operable. The milk sampling device according to any one of claims 1 to 5. 前記開閉弁部は、前記通気口部を閉塞可能な吸盤状の閉塞体部を一体に有することを特徴とする請求項6記載のミルクサンプリング装置。   The milk sampling apparatus according to claim 6, wherein the opening / closing valve portion integrally includes a sucker-like closing body portion that can close the vent portion. 前記切換弁部は、前記第二切換位置に切換えた際に形成され、かつ前記乳容器部の内部に所定流量の空気(外気)の流入を許容するとともに、当該空気の流入する向きを設定した通気路を備えることを特徴とする請求項1〜7のいずれかに記載のミルクサンプリング装置。   The switching valve portion is formed when switching to the second switching position, and allows inflow of a predetermined flow rate of air (outside air) into the milk container portion, and sets the direction in which the air flows. The milk sampling device according to claim 1, further comprising an air passage. 前記切換弁部を第三切換位置に切換えた際に接続される前記送乳ラインであって、前記乳取出口部に接続される戻し口部が臨む当該送乳ラインには、前記戻し口部の上流側を覆うカバー部を備えることを特徴とする請求項1〜8のいずれかに記載のミルクサンプリング装置。   The feeding port that is connected when the switching valve unit is switched to the third switching position, the feeding port facing the feeding port connected to the milking outlet unit, the return port unit The milk sampling device according to any one of claims 1 to 8, further comprising a cover portion that covers the upstream side.
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