CN204433102U - For the device treating infusion containers is injected in product-filled metering - Google Patents

Abstract

The utility model relates to a kind of device (1) product-filled metering being injected container to be poured into, this device comprises piston dosing (2), the metering piston (22) that this piston dosing has movement in dosing cylinder (20) is used for the product-filled metering of the volume preset to inject container to be filled, this piston dosing also has the impact by controlling fluid and replaces controlled suction valve (3) and discharge-service valve (4), thus realize product-filled suction and discharge, emptier (5) is wherein set, suction valve (3) and discharge-service valve (4) can be opened by this emptier simultaneously.

Description

For the device treating infusion containers is injected in product-filled metering

Technical field

The utility model relates to a kind of device for product-filled metering being injected container to be poured into, particularly use piston dosing by thickness or pasty state product-filled, such as milk, cream, jam, tomato ketchup, mayonnaise and/or baby's rice are stuck with paste metering and are injected container to be poured into.

Background technology

Piston feed proportioning system is known, wherein arranges piston dosing, and this piston dosing has the metering piston of dosing cylinder and movement wherein.Pass through by-pass valve control, particularly suction valve and discharge-service valve by dosing cylinder by the variable volume of metering piston or be connected with the preposition container of product thus suck product-filled, or be connected with product offtake, by this discharge orifice, container to be poured into injected in product-filled metering.Inject in order to failure-free metering can be realized, first open suction valve to suck the product-filled of injection to be filled from the preposition container of product and close discharge-service valve, then metering piston movement like this, the negative pressure namely by producing is drawn into product-filled dosing cylinder from the preposition container of product.Then close suction valve, open discharge-service valve and metering piston moves round about, thus product-filled in dosing cylinder is discharged from product offtake.

Usual metering piston is forced manipulation, such as, by being particularly arranged on the cam control gear in the rotary driver of device.Multiple piston dosing is circumferentially set for this reason at the preposition container of product, and these piston dosing rotate together with the preposition container of the product of rotation.Product-filledly in rotation process to suck from the preposition container of product when suction valve opens and cuts out with discharge-service valve, be then discharged in container to be poured into when suction valve closure and discharge-service valve are opened.Wherein in the rotation process of the rotating piston irrigator formed by this way, also carry out removing of the container that the conveying of container to be poured into and perfusion complete.

Known by prior art, suction valve and discharge-service valve are formed as air pressure or hydraulic operated valve, corresponding to control these valves of fluid impact thus to carry out switch.Suction valve such as also can be formed as the cylinder of double action, thus by opening and failure-free closedown the failure-free that the respective impact of each chamber of the cylinder of double action can realize suction valve to control fluid.Discharge-service valve can be the pre-tensioned simple cylinder of spring or be the cylinder of double action equally.

The opening and closing replaced of suction valve and discharge-service valve of corresponding control realization to suction valve and discharge-service valve.This opening and closing replaced have value especially, because the discharge-service valve of closing and the suction valve opened ensure that reliably by product-filled suction dosing cylinder, and the suction valve of closing completely and the discharge-service valve opened ensure that and be discharged to container to be poured into by product-filled accurately.

In order to the residual product in the preposition container of emptying product when pouring into end cycle or the preposition container of emergent evacuation product, by prior art known manually or pneumatic bottom valve or shutoff valve or water-drainage tube part, these parts are placed in the nadir of the preposition container of product usually, and can realize being emptied completely of the preposition container of product by these parts.This valve for the preposition container of emptying product such as by US 5,417,260 is known.

But be difficult to when pitch circle diameter is less at the bottom of tank, introduce another valve, although neither be completely impossible.

Utility model content

Therefore the purpose of this utility model is, provides a kind of device product-filled metering being injected container to be poured into, and this device can carry out alternately emptying.

This object is realized by the device product-filled metering being injected container to be poured into the feature of claim 1.Favourable expansion scheme provides in the dependent claims.

A kind of device product-filled metering being injected container to be poured into correspondingly is provided, this device comprises piston dosing, this piston dosing has the metering piston of movement in dosing cylinder and is used for the product-filled metering of the volume preset to inject container to be filled, this piston dosing also has the impact by controlling fluid and replaces controlled suction valve and discharge-service valve, thus realizes product-filled suction and discharge.Emptier is set according to the utility model, suction valve and discharge-service valve can be opened by this emptier simultaneously.

By providing emptier, in piston dosing, the path of flowing out the preposition container of product can be provided for product-filled, suction valve and discharge-service valve can be opened by this emptier simultaneously.Achieve especially by this way, product-filledly can be flowed out from the preposition container of product by the suction valve opened and the discharge-service valve opened, and extra discharge-service valve need not be set in the bottom of the preposition container of product.So itself provides extra air emptying function by piston dosing.

The emptying of device also can be carried out when not operating the metering piston of dosing cylinder, and does not correspondingly also rotate the preposition container of rotating product.Therefore also the emptying of the preposition container of product can be realized under the quiescence of device, such as, when actuator et out of order.Thus achieve the preposition container of emptying product more reliably, what this deposited in the preposition container of product is not product-filled but meaningful especially when the alkali of cleaning such as in cleaning or disinfecting process or acid.

In order to realize this emptying of piston dosing, preferably can by emptier simultaneously to control fluid impact suction valve and discharge-service valve.

Emptier preferably includes independent control fluid feed channel for control fluid is controllably transported to suction valve and discharge-service valve.Correspondingly can control emptier like this by independent control fluid feed channel, realize opening suction valve and discharge-service valve by the control fluid feed channel independent with the control fluid impact under pressure simultaneously.Operator can start emptying in a straightforward manner thus, and himself is not in hazardous location.In addition, when corresponding piston dosing is arranged on evacuate position given in advance, also emptying operation can automatically be run.

Emptier preferably includes change-over valve, or hydromechanical or door, or boiler check valve, and independent control fluid feed channel is set up fluid by these valve parts and the control channel opened of suction valve and the control channel opened of discharge-service valve and circulated.Correspondingly in blending process, control fluid and can alternately be transported to suction valve and discharge-service valve in a conventional manner, realize the opening and closing replaced of suction valve and discharge-service valve thus, thus product-filled metering is filled in container to be poured into.In addition, by providing change-over valve or boiler check valve to suction valve and discharge-service valve, suction valve and discharge-service valve can be opened with pipage control fluid while of the second operational mode thus simultaneously.The control fluid of the independent conveying of emptier can be prevented to be back in the control channel of suction valve and discharge-service valve by change-over valve and the state of the valve brought thus is uncertain.Carry out closing control passage by arranging change-over valve for this reason especially, thus the direct connection between independent control fluid feed channel and suction valve and discharge-service valve is provided.Thus by emptier realize between two kinds of serviceability " metering inject " and " emptying " effectively and fast speed change.

Provide special health thus and simply constructed device, that is, can by being arranged on control fluid passage in the main body of piston dosing to control fluid alternately impinge suction valve and/or discharge-service valve.Control the boring that fluid passage is particularly preferably formed as segmentation for this reason or the passage be formed in other forms in the main body of piston dosing.Extending in main body by controlling fluid passage, no longer needing complicated external pipe engineering or flexible pipe is provided, thus can the cleanablity of improving device further.

In another preferred embodiment of device, suction valve and discharge-service valve are controlled by the switch cam being arranged on the machinery in the main body of piston dosing, and this switch cam manipulates suction valve and discharge-service valve respectively.Under the state that piston dosing is assemblied on the preposition container of rotating product, by corresponding function unit mechanically master cock cam, this function unit is arranged on the fixed part of device.In other words, in the process that each piston dosing is rotated, suction valve and discharge-service valve switch is separately carried out by mechanically operating switch cam corresponding on relevant position.Achieve the simple structure of rotating piston irrigator by this way, and eliminate the complicated control setup at rotating part.So only the preposition container of rotating product need be arrived through the passage of each rotary distributor by the control fluid of the switch cam conveying of machinery.

Above-mentioned purpose is achieved further by rotating piston irrigator, this rotating piston irrigator comprises the piston dosing of at least one traditional approach structure and at least one is in the above described manner by the device that product-filled metering is injected, and wherein arranges emptier.Rotating piston irrigator particularly preferably only includes an above-mentioned piston dosing with emptier like this, and remaining piston dosing does not comprise this emptier.Rotating piston irrigator can be designed in a very effective manner thus, its by the failure-free that emptier is provided realizes the preposition container of product, with rotate irrelevant emptying, and remainder has typical, the solid structure of traditional rotating piston irrigator.

Correspondingly in normal dispensing operation, such as at the end of production interchange or batching, the a large amount of surplus products be present in the preposition container of product can be emptied in the catcher be for this reason suitable for, because a piston dosing or some piston dosing can be opened by emptier thus realize emptying.Thus by minimizing product losses, namely can again can utilize collecting the surplus products of returning or may be used for him and use by this way.

At emergency situation, such as, time rotating piston irrigator runs and makes mistakes or pour into manufacturing line stopping, also can have nothing to do with position and rotate independently that large-tonnage product is emptying by piston dosing from the preposition container of product, piston dosing has emptier.This is advantageous particularly in the perfusion manufacturing line stopped, because when exceeding or going bad lower than meeting product-filled when special filling temperature.Product-filled to solidify due to cooling and then must very time-consumingly by preposition for product vessel empty can be avoided by emptying.In addition rest time and position also can be utilized thus irrelevant and rotate independently be emptied completely product-filled, the time of reruning can be saved thus, directly product-filledly can be filled into new in the preposition container of product this, and not need to empty old product-filled.

At emergency operation, such as, at cleaning stage, on purpose can pass through the emptying cleaning agent of piston dosing, this piston dosing has emptier, thus can by the danger of operator and the minimize damage to equipment, even machine runs et out of order.

Can save by providing the device product-filled metering being injected container to be poured into and the piston dosing particularly with emptier and use bottom valve at the preposition container of product.Realize compact design and the further complexity reducing device more thus.

Also at least one rotary distributor is particularly preferably set, control fluid can be delivered to the part of rotation from static part by this rotary distributor, wherein at least one distributes suction valve and the discharge-service valve that passage is used for control fluid to be transported to alternately opening and closing, and an independent distribution passage is set, for to control fluid impact emptier, preferably impact independent control fluid supplying passage.

Accompanying drawing explanation

Described by ensuing accompanying drawing and further illustrate other preferred implementation of the present utility model and other side.Wherein:

Fig. 1 shows the schematic diagram product-filled metering injection being treated the device of infusion containers in first embodiment;

Fig. 2 shows another carries out the device that product-filled metering is injected schematic diagram with the line arrangement different from Fig. 1;

Fig. 3 shows and the schematic perspective view treating the device of infusion containers is injected in product-filled metering;

Fig. 4 shows the schematic interconnecting wiring diagram of the device injected for product-filled metering.

Description of reference numerals

Product-filled metering is injected the device of container to be poured into by 1

10 main bodys

2 piston dosing

20 dosing cylinders

22 metering pistons

24 variable volumes

26 drive links

28 cam running rollers

3 suction valves

30 suction valve push rods

32 valve seats

The actuator of 34 suction valves

4 discharge-service valves

The actuator of 40 discharge-service valves

5 emptier

50 independent control fluid feed channel

52 change-over valves

54 change-over valves

56 boiler check valve

58 boiler check valve

60 switch cam

62 switch cam

7 rotary distributors

A1 controls fluid passage

B1 controls fluid passage

A2 controls fluid passage

Detailed description of the invention

Next each preferred embodiment is described with reference to the accompanying drawings.Wherein, parts that are identical in different accompanying drawing, similar or that have a same effect represent with identical Reference numeral, and part eliminates the repeated description to these parts in the following description, to avoid redundancy.

Fig. 1 shows the schematic diagram of the device 1 product-filled metering being injected container to be poured into, and is wherein provided with piston dosing 2, and this piston dosing has dosing cylinder 20, and this dosing cylinder is included in the metering piston 22 of wherein movement.Metering piston 22 is partitioned into variable volume 24 in dosing cylinder 20.

Suction valve 3 with do not illustrate in Fig. 1, be fluidly connected for the preposition shape of container of product-filled product holding injection to be batched.Suction valve 3 comprises suction valve push rod 30, and suction valve push rod is contained in the valve seat 32 schematically shown.Suction valve 3 also has actuator 34, and actuator is formed as the cylinder of dual-use function here.Can impacting actuator 34 to control fluid, herein show the first control fluid passage A1 for being opened by suction valve 3, control fluid being transported to actuator 34.Also illustrate the second control fluid channel B 1 control fluid being transported to actuator 34, enough initiatively suction valve 3 cuts out by this second control fluid passage capable of being.

When metering piston 22 is positioned at its underpart stop time, suction valve 3 is opened.Then metering piston 22 move up thus variable volume 24 is increased and correspondingly by suction valve 3 by product-filled suction dosing cylinder 20.

In order to again volume 24 variable for product-filled discharge be arranged discharge-service valve 4 after metering piston 22 reaches top stop, this discharge-service valve is closed in the process that suction is product-filled.Drive discharge-service valve 4 by actuator 40, this actuator shows the form for the pre-tensioned simple cylinder of spring here.Discharge-service valve 4 remains on the position of closedown by acting as of the pretension formed by spring.By controlling fluid passage A2, the input of control fluid can be opened discharge-service valve 4.By product-filled from the process that discharge-service valve 4 is discharged suction valve 3 close.

Correspondingly in the normal blending process of piston dosing 2, first suction valve 3 is opened then metering piston 22 and is moved up in dosing cylinder 20, thus be drawn into volume 24 by product-filled from the preposition container of unshowned product, wherein in order to realize best suction effect, discharge-service valve 4 is closed in this suction process.Then closed by suction valve 3, to be opened by discharge-service valve 4 and metering piston 22 moves down in dosing cylinder 20, volume 24 variable thus again reduces and correspondingly discharges product-filled from discharge-service valve 4.In the process of product-filled discharge, suction valve 3 cuts out, thus realize metering filling product accurately and being product-filledly back in the preposition container of product of avoiding being discharged by volume 24.

For to be arranged on controlling control fluid passage A1, B1, A2 that fluid is transported to the actuator 34,40 of suction valve 3 and discharge-service valve 4 in the main body 10 of device 1 and to be formed as boring in main body.Complicated pipeline engineering can be saved thus and flexible pipe is provided.Control fluid passage A1, B1, A2 thus by extending in main body 10 inside can realize solution desirable in health.

Device 1 also comprises for by emptier 5 emptying for piston dosing 2.Simultaneously to control fluid impact suction valve 3 and discharge-service valve 4, suction valve 3 and discharge-service valve 4 can be opened thus by emptier 5 simultaneously.

In normal perfusion operating process, suction valve 3 and discharge-service valve 4 open and close alternating with each otherly, therefore only have one to open all the time in two valves, thus realize precisely and successfully carry out product-filled metering and inject.

Suction valve 3 and discharge-service valve 4 can be opened by emptier 5 simultaneously, the emptying of the preposition container of product can be realized by the suction valve 3 opened and the discharge-service valve 4 opened thus.

Emptier 5 has independent control fluid feed channel 50, and control fluid is supplied the actuator 34 of suction valve 3 and the actuator 40 of discharge-service valve 4 by this control fluid feed channel simultaneously.

The independent control fluid feed channel 50 of emptier 5 is connected with the actuator 34 of suction valve 3 by change-over valve 52.Therefore in normal operating process, the control fluid carried by controlling fluid passage A1 acts on actuator 34, thus this actuator opens and closes suction valve 3 to pour into the cycle.

In the process of the independent control fluid feed channel 50 pipage control fluid by emptier 5, change-over valve 52 is correspondingly changed, and thus the control fluid carried by independent control fluid feed channel 50 is transported to the actuator 34 of suction valve 3.

Control fluid is transported to the actuator 40 of discharge-service valve 4 by independent control fluid feed channel 50 simultaneously by another change-over valve 54.Correspondingly, the control fluid carried by controlling fluid passage A2 can cause the opening and closing of discharge-service valve 4 by change-over valve 54, or opens discharge-service valve 4 in by independent control fluid feed channel 50 pipage control fluid.

Correspondingly can control fluid be made by the emptier 5 with independent control fluid feed channel 50 to impact suction valve 3 and discharge-service valve 4 simultaneously, thus two valves 3,4 are opened simultaneously.

Can make product-filledly successfully to be flowed out from the preposition container of unshowned product by suction valve 3 and discharge-service valve 4 by opening suction valve 3 and discharge-service valve 4 simultaneously when depositing control fluid under stress in independent control fluid feed channel 50.

Independent control fluid feed channel 50 can be the same with control fluid passage A1, B1, A2, is formed as the passage of the boring in the main body 10 of device 1, or is formed as independent pipeline or independent flexible pipe.

Actuator that is that the actuator 34,40 of suction valve 3 and discharge-service valve 4 is preferably formed to air pressure or hydraulic pressure.By control fluid, the impact of the independent control fluid feed channel 50 of emptier 5 by operator's Non-follow control, or can be automatically performed by control setup to reach certain running state determined.

The replacement scheme of device 1 has been shown in Fig. 2, wherein boiler check valve 56,58 instead of the change-over valve 52,54 in Fig. 1, and this boiler check valve can pass through independent control fluid feed channel 50 pairs of suction valves 3 of emptier 5 and actuator 34, the 40 pipage control fluid of discharge-service valve 4 equally.

In normal blending process, suction valve 3 and discharge-service valve 4 open and close alternating with each otherly, and in this process, boiler check valve 56 is the same with boiler check valve 58 keeps closed condition, because the control fluid feed channel 50 that the control fluid impact under not having pressure is independent.Thus achieve fast and failure-free switch, because the elasticity of N/R conduit region need not be considered.

Only when the independent control fluid feed channel 50 by emptier 5 applies the control fluid impact under pressure, boiler check valve 56,58 is just opened, thus can in actuator 34 and actuator 40 mineralization pressure, to open suction valve 3 and discharge-service valve 4 completely.Can also the structure of further simplification device 1 by the variant with boiler check valve 56,58.

Fig. 3 shows the schematic diagram that another kind comprises the device 1 of the piston dosing 2 shown in schematic perspective view.Metering piston 22 is moved by driving in dosing cylinder 20, is driven in the embodiment illustrated herein by corresponding drive link 26 and cam running roller 28, and this cam running roller runs in control cam.Arrange piston dosing 2 like this, that is, this piston dosing is connected with suction valve 3 on the preposition container of product, thus product-filledly can be drawn in dosing cylinder 20 by suction valve 3.

In a preferred embodiment, the preposition container of product of rotating piston irrigator circumferentially has multiple piston dosing 2 at it, and these piston dosing are respectively used to, from the preposition container of product, container to be poured into is injected in product-filled metering.The preposition container of product rotates together with piston dosing 2 disposed thereon and manipulates piston dosing 2 like this in pouring process, that is, in the rotation process of a week, carry out the metering injection process to each container to be poured into.

Realize a this simple especially make with the rotating piston irrigator of different piston dosing 2 like this, namely, the control to suction valve 3 and discharge-service valve 4 is realized, the extension in the radial direction of the S. A. in the main body 10 that this switch cam is arranged on piston dosing 2 and at rotating piston irrigator by the switch cam 60,62 of machinery.

The switch cam 60,62 of machinery acts on the corresponding valve in piston dosing 2, the corresponding control chart 1 of these valves and control fluid passage A1, B1, the A2 shown in Fig. 2.Each control fluid passage A1, B1, A2 are laid in pond with unshowned control fluid under stress and are connected by the valve of such switch, or again interrupt this connection.Control the form that fluid deposit pond is preferably formed to pressure air deposit pond, in the torus section that this Stress control deposit pond is such as formed in the bottom section of the preposition container of product and can by by switch cam 60,62 switch valve with control fluid passage A1, B1, A2 and be connected.Pressure air or control fluid do not carry out switch to the transfer passage controlling fluid deposit pond, but control fluid deposit pond only provides q.s and the control fluid under the pressure preset.

The actual switch of the control fluid on the actuator 34,40 of suction valve 3 and discharge-service valve 4 is realized by the switch cam 60,62 of Mechanical course.Therefore the transfer passage at the complicated control mechanical device of the rotating element of rotating piston filling machine and the switch of control fluid can be saved.So just fluid deposit pond can be controlled to corresponding by pipage control fluid only by simple rotary distributor.For reality dispensing operation do not need the conveying of other control pipeline.

In the rotation process of rotating piston irrigator, by corresponding, that the control tool be arranged on outside rotating element carries out the switch cam 60,62 of each machinery operation, its each turned position in rotating piston irrigator corresponding controls suction valve 3 and discharge-service valve 4 thus.

Thus achieve the simple structure of rotating piston irrigator, wherein carry out the stroke of forced maneuver metering piston 22 in dosing cylinder 20 by cam production, and the control of each suction valve 3 and discharge-service valve 4 is equally mechanically realized by the control of the switch cam on the stationary part of rotating piston irrigator.

In order to the independent control fluid feed channel 50 of emptier 5 is connected to rotating piston irrigator, another passage of rotary distributor is preferably set.

Multiple piston dosing 2 is preferably set in rotating piston irrigator, wherein preferably only has a subgroup of a piston dosing 2 in other words to have emptier 5.Correspondingly, opened by emptier 5 by the suction valve 3 of piston dosing 2 and discharge-service valve 4, the emptying of the preposition container of product independently can be carried out at preposition or with rotation and angle simultaneously.

Schematically show interconnecting wiring diagram in Fig. 4, wherein by rotary distributor 7, each is controlled fluid and be transported to piston dosing 2, the distribution passage 6 to 8 of rotary distributor just schematically shows.In the embodiment illustrated, by rotary distributor 7 through independent control channel, namely distribute passage 7 and 8 and control the actuator 34 of fluid impact suction valve 3 and the actuator 40 of discharge-service valve 4 with each.Here control that also can realize the outside of suction valve 3 and discharge-service valve 4, that replace.

Also illustrate emptier 5, wherein provide separately control fluid by the distribution passage 6 of rotary distributor 7 by independent control fluid feed channel 50.Can be reached when the distribution passage 6 impacting rotary distributor 7 by change-over valve 52,54, to control the independent control fluid feed channel 50 of fluid impact, and open suction valve 3 and discharge-service valve 4 thus.

In order at the end of pouring into or conversion kind time product on purpose in the preposition container of emptying unshowned product in the catcher arranged for this reason, run the piston dosing 2 being provided with emptier 5 preferably by the catcher arranged for this reason.Correspondingly can reach bottom product and flow out in catcher by opening of suction valve 3 and discharge-service valve 4.

The autotelic emergent evacuation of the preposition container of product also can realize thus on each position, that is, suction valve 3 and discharge-service valve 4 are opened by emptier 5.The emptying of the preposition container of product can be carried out thus in each position.

In the application, can be combined with each other and/or replace all single feature described in each embodiment, and scope of the present utility model can not be exceeded.

Claims (12)

1. the device (1) of container to be poured into is injected in product-filled metering by one kind, described device comprises piston dosing (2), the metering piston (22) that described piston dosing has movement in dosing cylinder (20) is used for the product-filled metering of the volume preset to inject described container to be filled, described piston dosing also has the impact by controlling fluid and replaces controlled suction valve (3) and discharge-service valve (4), thus realize product-filled suction and discharge, it is characterized in that, emptier (5) is set, described suction valve (3) and described discharge-service valve (4) can be opened by described emptier simultaneously.

2. device according to claim 1 (1), is characterized in that, can simultaneously to control suction valve (3) described in fluid impact and described discharge-service valve (4) by described emptier (5).

3. device according to claim 1 (1), it is characterized in that, described emptier (5) has independent control fluid feed channel (50), for pipage control fluid while of controllably to described suction valve (3) and described discharge-service valve (4).

4. device according to claim 3 (1), it is characterized in that, described emptier (5) is connected with described suction valve (3) liquid by change-over valve (52) and/or is connected with described discharge-service valve (4) liquid by change-over valve (54).

5. device according to claim 4 (1), it is characterized in that, described control fluid feed channel (50) is separately connected with described suction valve (3) liquid by change-over valve (52) and/or is connected with described discharge-service valve (4) liquid by change-over valve (54).

6. device according to claim 3 (1), it is characterized in that, described emptier (5) is connected with described suction valve (3) liquid by boiler check valve (56) and/or is connected with described discharge-service valve (4) liquid by boiler check valve (58).

7. device according to claim 6 (1), it is characterized in that, described control fluid feed channel (50) is separately connected with described suction valve (3) liquid by boiler check valve (56) and/or is connected with described discharge-service valve (4) liquid by boiler check valve (58).

8. device according to claim 1 (1), it is characterized in that, can by being arranged on control fluid passage (A1, B1, A2) in the main body (10) of described piston dosing (2) with suction valve (3) and/or described discharge-service valve (4) described in described control fluid alternately impinge.

9. want the device (1) described in 8 according to right, it is characterized in that, described suction valve (3) and/or described discharge-service valve (4) can be laid in pond by the switch cam (60,62) being arranged on the machinery in the main body (10) of described piston dosing (2) with control fluid and be connected.

10. product-filled metering is injected the rotating piston irrigator of container to be poured into, described rotating piston irrigator comprises at least one piston dosing and the device (1) according to any one of aforementioned claim.

11. rotating piston irrigators according to claim 10, is characterized in that, arrange at least one rotary distributor (7), control fluid can be delivered to rotating element from stationary part by described rotary distributor; And at least one is set and distributes passage, for being transported to controlling fluid the suction valve (3) and discharge-service valve (4) that alternately open and close; And an independent distribution passage is set, for control fluid impact emptier (5).

12. rotating piston irrigators according to claim 11, is characterized in that, described distribution passage is separately used for control the independent control fluid feed channel (50) of fluid impact.