CN204769595U - Detecting device - Google Patents

Abstract

The utility model provides a detecting device can realize low manufacturing cost, the miniaturization of device, is selected by the rotor simultaneously and pushs forward and from this rotor exhaust container when can not be damaged when the route contacts after the discharge. This detecting device possesses: the messenger selects and pushs forward and arranged by a corpse or other object for laboratory examination and chemical testing (PS) from selecting star wheel (7) exhaust by selecting star wheel (7) etc. And by star wheel (7) exhaust is subsequent to be bulldozed by a corpse or other object for laboratory examination and chemical testing (PS) from selecting to the messenger should be followed route (51) that the upstream side inclined downriver and removes and push forward by a corpse or other object for laboratory examination and chemical testing (PS), and locate the entry part of route (51), it is pressed from both sides two between by a corpse or other object for laboratory examination and chemical testing (PS) and cushion this two by buffer unit (61) of the contact of a corpse or other object for laboratory examination and chemical testing (PS) when buffering portion (64) when selecting being contacted by a corpse or other object for laboratory examination and chemical testing (PS) of star wheel (7) exhaust going ahead of the rest on by a corpse or other object for laboratory examination and chemical testing (PS) and route (51).

Description

Testing fixture

Technical field

The utility model relates to testing fixture and container takes out of method.

Background technology

As the background technology of the art, there is Japanese Unexamined Patent Publication 2011-162301 publication (patent document 1).In this publication, describe " in the container supply device of testing fixture; utilize be arranged on supply conveyer, towards supply for receptacles direction, carrying width is restricted to narrower pair of right and left guiding parts, the supply for receptacles on supply conveyer is loaded to pocket-wheel.Between pocket-wheel and supply conveyer, the mode that the direction intersected with edge and the carrying direction of above-mentioned supply conveyer moves freely is provided with financial-supply-leading parts, these financial-supply-leading parts are provided with the path of navigation guided to pocket-wheel periphery by said vesse, and arrange the door part of opening and closing path of navigation at financial-supply-leading parts." (with reference to summary).

Prior art document

Patent document 1: Japanese Unexamined Patent Publication 2011-162301 publication

Non-patent literature 1: plant primary resin Industrial Co., Ltd, opportunity helix guide, [Heisei on April 30th, 26 retrieval], network, < http://www.ueharajushi.co.jp/ >

Utility model content

Utility model problem to be solved

In Fig. 1 of above-mentioned patent document 1, describe the path of container for discharging to discharge portion at selection pocket-wheel of existing defects.But, the container of having discharged from selection pocket-wheel arranges at path, is pushed, make this container move to side, downstream from upstream side and be taken out of thus by the follow-up container of having discharged from selection pocket-wheel, when arranging such path, there is following problem.

That is, at this path, the power of conveying container is not set, and is pushed by the follow-up container of having discharged from selection pocket-wheel, make container move successively to downstream from upstream side thus.Therefore, stop relative to the container at the most end on path, if contact from the container taking out of the container impetus that rotor discharged end most with this fiercely, then have the worry of container breakage.

Therefore, problem of the present utility model be to provide the low manufacturing cost of implement device, miniaturization and by pocket-wheel choose take out of and the container of having discharged from this pocket-wheel after the exit when damaged testing fixture and container taking out of method when path contacts.

For solving the scheme of problem

In order to solve above-mentioned problem, scheme 1 of the present utility model is a kind of testing fixture, it is characterized in that possessing:

To the inspection portion that the container being filled with liquid checks;

Carry out rotary actuation respectively and supply said vesse to above-mentioned inspection portion, and the said vesse checked out by above-mentioned inspection portion being chosen and the multiple pocket-wheels taken out of respectively;

Make to be chosen by above-mentioned pocket-wheel take out of and arrange from the said vesse that this pocket-wheel is discharged, and pushed by the follow-up said vesse of discharging from above-mentioned pocket-wheel, thus this container is moved and the path taken out of to side, downstream from upstream side; And

Be located at the intake section of above-mentioned path, and be sandwiched in when the said vesse of discharging from above-mentioned pocket-wheel contacts with the leading container on above-mentioned path the buffer unit cushioning the contact of this two container between two containers.

The testing fixture of scheme 2 according to scheme 1, is characterized in that,

Above-mentioned buffer unit possesses:

Circumferentially formed continuously and multiple carriers of undertaking said vesse;

Extend radially between above-mentioned each carrier and arrange and cushion the buffer part of the contact of above-mentioned two containers; And

Make the rotating shaft circumferentially rotated by the above-mentioned buffer unit that said vesse pushes.

The testing fixture of scheme 3 according to scheme 2, is characterized in that,

Above-mentioned buffer part is rubber system.

The testing fixture of scheme 4 according to scheme 2 or 3, is characterized in that,

Above-mentioned buffer part is formed with otch, to improve elasticity.

The testing fixture of scheme 5 according to scheme 2 or 3, is characterized in that,

Above-mentioned buffer unit to be configured at the shape as upper/lower positions, this position is: to rotate and after having cushioned leading said vesse by above-mentioned buffer part at above-mentioned buffer unit, does not hinder container continuous thereafter and can be cushioned the position of this follow-up container by the above-mentioned buffer part of the next one.

The testing fixture of scheme 6 according to scheme 2 or 3, is characterized in that,

Above-mentioned buffer unit makes the translational speed of the follow-up container caused by above-mentioned pocket-wheel be minimum when contacting with above-mentioned two containers.

The testing fixture of scheme 7 according to scheme 5, is characterized in that,

Possesses ratchet mechanism, the position of rotation of this ratchet mechanism to above-mentioned buffer unit positions, can be configured at: above-mentioned buffer unit rotates and after having cushioned leading said vesse by above-mentioned buffer part, do not hinder container continuous thereafter and the position of this follow-up container can be cushioned by the above-mentioned buffer part of the next one.

The testing fixture of scheme 8 according to scheme 7, is characterized in that,

Possess and coaxially arrange and the abutting part position of rotation of above-mentioned buffer unit positioned for abutting with above-mentioned ratchet mechanism with above-mentioned buffer part.

The effect of utility model is as follows.

According to the utility model, can provide the low manufacturing cost of implement device, miniaturization and by pocket-wheel choose take out of and the container of having discharged from this pocket-wheel after the exit when damaged testing fixture and container taking out of method when path contacts.

By the explanation of following embodiment, problem than that described above, structure and effect can become clear.

Accompanying drawing explanation

Fig. 1 is the structural representation of the testing fixture from a upper observation embodiment of the present utility model.

Fig. 2 (a) is top view Fig. 2 (b) of buffer unit in the testing fixture of an embodiment of the present utility model is its front view.

Fig. 3 is the top view of the buffer unit in the testing fixture of an embodiment of the present utility model.

Fig. 4 is the top view of other example of buffer unit in the testing fixture of an embodiment of the present utility model.

Fig. 5 (a) ~ Fig. 5 (f) is temporally through the key diagram of the handing-over of the subject carried out from pocket-wheel to path in the testing fixture of an embodiment of the present utility model is described with the order of Fig. 5 (a) ~ Fig. 5 (f).

Fig. 6 (a) ~ figure (d) is temporally through the key diagram of the problem of the testing fixture of an embodiment of the present utility model is described with the order of Fig. 6 (a) ~ Fig. 6 (d).

In figure:

4-inspection portion, 5,7-selection pocket-wheel, 13-supply pocket-wheel, 14-carrying pocket-wheel, 51-path, 61-buffer unit, 62-rotating shaft, 63-carrier, 64-buffer part, 65-otch, 70-ratchet mechanism, 76-abutting part, PS-subject (container), S-testing fixture.

Detailed description of the invention

Below, accompanying drawing is used to be described embodiment of the present utility model.

Fig. 1 is the structural representation of the testing fixture S of present embodiment from upper observation.In Fig. 1, testing fixture S utilizes the appearance contents of the inspection portion 4 of the video camera with inspection etc. to the subject PS being equipped on the periphery checking pocket-wheel 2 to check, and send certified products by choosing pocket-wheel 5 to selection portion 6 according to check result, or discharge defective subject PS by selection pocket-wheel 7 to discharge portion (discharge tray) 8.

Herein, the check object of the testing fixture S of present embodiment that is subject PS are such as the containers being filled with the light transmission of the liquor of light transmission of ampoule, tubular medicine bottle, prefilled syringe and so on.

On the other hand, for a large amount of subject PS that the supply conveyer 9 tilted lentamente downwards to the direction of the supply towards subject PS with erectility supplies, towards this direction of the supply, carrying width being restricted to narrower guiding parts 10 leads, and supplies to supply pocket-wheel 13 via financial-supply-leading parts 11.Symbol 12 is guide member drive divisions of financial-supply-leading parts 11.Subject PS then supplies to inspection pocket-wheel 2 via carrying pocket-wheel 14, and is equipped on this inspection pocket-wheel 2.

In subject PS, defective subject PS discharges from selection pocket-wheel 7, is handled upside down and discharges to discharge portion 8 via path 51.

Next, the connecting portion a between selection pocket-wheel 7 and path 51 is described.

Fig. 6 (a) ~ Fig. 6 (d) is temporally through the figure of the problem of the situation of the handing-over of the subject PS carried out to path 51 from selection pocket-wheel 7 in connecting portion a is described with the order of Fig. 6 (a) ~ Fig. 6 (d).As mentioned above, selection pocket-wheel 7 is rotated to arrow 55 direction by driving and carries subject PS.Then, choose pocket-wheel 7 and join subject PS to path 51.

In path 51, arrow 56 direction is set to downstream, the subject PS be chosen out as defective work by each pocket-wheel is arranged by taking out of from selection pocket-wheel 7, mobile as Suo Shi the order of Fig. 6 (a), Fig. 6 (b) by the follow-up subject PS after taking out of from selection pocket-wheel 7.Thus, as shown in the order of Fig. 6 (c), Fig. 6 (d), take out of by from selection pocket-wheel 7 the subject PS come, the subject PS arranged at path 51 is pushed.Therefore, at path 51, leading subject PS is subject to the pushing of follow-up subject PS and moves along arrow 56 direction from upstream side to downstream and taken out of (Fig. 6 (d)) towards discharge portion 8.Like this, at path 51, do not arrange the power of carrying subject PS, each subject PS is taken out of the follow-up subject PS come and pushes and move successively along arrow 56 direction from selection pocket-wheel 7 side.

Thus, static when not supplying subject PS from selection pocket-wheel 7 at each subject PS that path 51 arranges, and take out of the follow-up subject PS that comes to contact (Fig. 6 (c)) with the subject PS of fixing speed corresponding to the rotary speed of selection pocket-wheel 7 with the most end this path 51 from selection pocket-wheel 7.

Therefore, after the follow-up subject PS from selection pocket-wheel 7 side contacts with the subject PS at the most end on path 51, the worry of subject PS breakage is had.

On the other hand, disclose following technology in above-mentioned non-patent literature 1: utilize synchronous screw rod carry on guide rail from automatic machine out after container, by little by little reducing the spacing of synchronous screw rod, thus along with the container near the most rank rear arranged on guide rail, the speed of the container of carrying is reduced, and container breakage can not be made.

But the apparatus structure of the device of non-patent literature 1 is large-scale, thus there is the problem that the manufacturing cost of device increases, maximizes.

Therefore, in the testing fixture S of present embodiment, the buffer unit 60 shown in Fig. 2 is set, prevents problem as described above.Below, the detailed construction of buffer unit 60 is described.Fig. 2 (a) is the top view of buffer unit 60, and Fig. 2 (b) is the front view of buffer unit 60.

Buffer unit 60, joining in the region of subject PS from selection pocket-wheel 7 to path 51, is configured at position near path 51 in the mode opposed with the sidepiece of selection pocket-wheel 7 across path 51.Buffer unit 60 possesses buffer unit 61.Buffer unit 61 is sandwiched in when the subject PS discharged from selection pocket-wheel 7 contacts with the leading subject PS on path 51 parts cushioning the contact of this two subject PS between two subject PS.

In the both sides of path 51, be provided with the side guide piece 58,59 as the guiding parts for the formation of path 51.Further, buffer unit 61 is rotatably arranged on side guide piece 58 by rotating shaft 62.

Buffer unit 61 is parts of impeller shape, possesses the multiple carriers 63 being formed continuously in the circumferential and accept subject PS and arranges and the buffering subject PS buffer part 64 contacted each other along extending radially out of buffer unit 61 with between each carrier 63.Buffer unit 61 is pushed by the subject PS accepted by carrier 63, and rotates in a circumferential direction along it for pivot with rotating shaft 62.

Fig. 3 is the top view of buffer unit 61.As the formation material of buffer unit 61, especially its buffer part 64, various material can be used, if but rubber, then can improve elasticity, thus preferably.

Fig. 4 is the top view of other example of buffer unit 61.That is, as shown in the example of fig. 4, also at the length direction central portion of buffer part 64, otch 65 can be formed with in the flexible mode improving buffer part 64.

Return Fig. 2, buffer unit 60 possesses ratchet mechanism 70.The leaf spring 72 that ratchet mechanism 70 possesses the supporting station 71 be fixed on side guide piece 58, supporting station 71 is fixed in one end and be fixed on the turning rolls 73 of the other end of leaf spring 72.In the leading section of turning rolls 73, be provided with roller 75 in the mode rotated freely in the horizontal direction by rotating shaft 74.

On the top of the buffer unit 61 of rotating shaft 62, be provided with abutting part (lobe plate) 76.At the circumferential section of this abutting part 76, be formed with the recess 77 that multiple concave shape contrasts with the periphery of roller 75 continuously.Roller 75 is flexibly connected to abutting part 76 by the elastic force of leaf spring 72.

Like this, the roller 75 of ratchet mechanism 70 abuts with abutting part 76, and the position of rotation to the coaxial buffer unit 61 arranged positions with abutting part 76 and rotating shaft 62.And, position with the position of rotation of mode to buffer unit 61 be configured at as upper/lower positions, this position is: after buffer unit 61 to be rotated by this ratchet mechanism 70 and cushioned leading subject PS by buffer part 64, does not hinder subject PS continuous thereafter and can be cushioned the position (aftermentioned detailed construction) of this follow-up subject PS by next buffer part 64.

That is, when not pushing buffer part 64 by the subject PS taken out of from selection pocket-wheel 7, roller 75 engages with a recess 77 of abutting part 76 because of the elastic force of leaf spring 72, thus determines the stop position of buffer unit 61.Then, the buffer part 64 of stretching out to path 51 side is positioned at path 51, and pushes by taking out of from selection pocket-wheel 7 the subject PS come.Thus, buffer unit 61 overcomes the elastic force of leaf spring 72 and rotates, and roller 75 engages with the next recess 77 of abutting part 76, thus determines the next stop position of buffer unit 61.

Next, the detailed action of the buffer unit 61 caused by ratchet mechanism 70 is described.Fig. 5 (a) ~ Fig. 5 (f) is temporally through the key diagram of the action of buffer unit 61 is described with the order of Fig. 5 (a) ~ Fig. 5 (f).In Fig. 5 (a) ~ Fig. 5 (f), arrow 81 represents the direction of rotation of selection pocket-wheel 7, and arrow 82 represents the direction of rotation of buffer unit 61.

First, when not pushing buffer part 64 by the subject PS taken out of from selection pocket-wheel 7, as shown in Fig. 5 (a), because of ratchet mechanism 70, subject PS at the most end of path 51 of buffer part 64 and from choose pocket-wheel 7 take out of the subject PS that comes between exist in the mode obtaining distance with these subjects PS.

Next, as shown in Fig. 5 (b), if take out of subject PS from selection pocket-wheel 7, then this subject PS enters carrier 63, pushes above-mentioned buffer part 64 by this subject PS, and buffer unit 61 starts to rotate.Thus, the distance between the subject PS at the most end of the path 51 and subject PS of selection pocket-wheel 7 side reduces.

Next, as shown in Fig. 5 (c), because the subject PS choosing pocket-wheel 7 side pushes above-mentioned buffer part 64, so buffer unit 61 further rotates further because choosing the rotation of pocket-wheel 7.Thus, buffer unit 61 pushes the subject PS at the most end of path 51, and moves to arrow 83 direction at each subject PS that path 51 arranges.

Next, as shown in Fig. 5 (d), because the subject PS choosing pocket-wheel 7 side pushes above-mentioned buffer part 64, so buffer unit 61 further rotates compared with the state of Fig. 5 (c) further because choosing the rotation of pocket-wheel 7.Thus, buffer unit 61 pushes the subject PS at the most end of path 51, and the state of each subject PS and Fig. 5 (c) arranged at path 51 is compared and moved to arrow 83 direction further.Then, rotation advance compared with the state of Fig. 5 (c) of buffer unit 61, thus the buffer part 64 between the subject PS being sandwiched in the most end of the selection subject PS of pocket-wheel 7 side and path 51 starts to leave between this two subject PS.Thus, the distance between this two subject PS reduces.

Next, as shown in Fig. 5 (e), because the subject PS choosing pocket-wheel 7 side pushes above-mentioned buffer part 64, so buffer unit 61 further rotates compared with the state of Fig. 5 (d) further because choosing the rotation of pocket-wheel 7.Then, buffer unit 61 pushes the subject PS at the most end of path 51, and the state of each subject PS and Fig. 5 (d) arranged at path 51 is compared and moved to arrow 83 direction further.Then, rotation advance compared with the state of Fig. 5 (d) of buffer unit 61, thus the buffer part 64 between the subject PS being sandwiched in the most end of subject PS and the path 51 of selection pocket-wheel 7 side is left further compared with the state of Fig. 5 (d) between this two subject PS.Thus, the distance between this two subject PS reduces further compared with the state of Fig. 5 (d).

Next, as shown in Fig. 5 (f), because the subject PS choosing pocket-wheel 7 side pushes above-mentioned buffer part 64, so buffer unit 61 further rotates compared with the state of Fig. 5 (e) further because choosing the rotation of pocket-wheel 7.Now, the subject PS choosing pocket-wheel 7 side almost departs from from selection pocket-wheel 7.Then, the buffer part 64 between the subject PS being sandwiched in the most end of the selection subject PS of pocket-wheel 7 side and path 51 is almost complete to be left between this two subject PS.Thus, the subject PS at the most end of subject PS and the path 51 of selection pocket-wheel 7 side contacts, but because buffer part 64 is present between above-mentioned two subject PS, thus the subject PS of selection pocket-wheel 7 side contacts with the subject PS at the most end of the state of fully having slowed down compared with the transporting velocity of selection pocket-wheel 7 and path 51.

As mentioned above, buffer unit 61 is parts of impeller shape, possesses the multiple carriers 63 circumferentially being formed continuously and accept subject PS and arranges and the buffering subject PS buffer part 64 contacted each other along extending radially out of buffer unit 61 with between each carrier 63.Further, the interval etc. of each carrier 63, each buffer part 64 is as in Fig. 3 (or Fig. 4), citing represents.Thus, buffer unit 61 becomes and is configured at following shape: this position is, after buffer unit 61 rotates and cushioned leading subject PS (the subject PS at the most end of path 51) by buffer part 64, do not hinder the subject PS of selection pocket-wheel 7 side continuous thereafter and next buffer part 64 can be utilized to cushion the position of this follow-up subject PS.Do not hinder the subject PS of follow-up selection pocket-wheel 7 side in this situation and buffer part 64 be configured at the state that the state that can cushion the position of this follow-up subject PS by next buffer part 64 is above-mentioned Fig. 5 (a).

Further, when the subject PS at the most end of buffer unit 61 and path 51 contacts with the subject PS choosing pocket-wheel 7 side, can the translational speed of the utilization of the subject PS of follow-up selection pocket-wheel 7 side selection pocket-wheel 7 be set to minimum.

By the action of such Fig. 5 (a) ~ Fig. 5 (f), achieve following container and take out of method: utilize the buffer unit 61 being located at the intake section of path 51, when the leading subject PS of subject PS on path 51 of selection pocket-wheel 7 discharge contacts, be sandwiched in the contact of buffering and this two subject PS between two subject PS.

According to testing fixture S described above, clip the buffer part 64 of buffer unit 61 between the subject PS of the subject PS at the most end of path 51 and selection pocket-wheel 7 side, and cushion the contact of two subject PS.Thereby, it is possible to provide the miniaturization realizing low manufacturing cost, device, and subject PS can not the testing fixture S of breakage and container take out of method because of the subject PS at the most end of path 51 and the contact of subject PS of selection pocket-wheel 7 side.

Further, buffer unit 61 possess circumferentially formed continuously and accept subject PS multiple carriers 63, between each carrier 63, extend radially setting and the buffer part 64 cushioning the contact of above-mentioned two subject PS and the rotating shaft 62 that the buffer unit 61 pushed by subject PS is circumferentially rotated.Thus, utilize the buffer unit 60 centered by the buffer unit 61 of more easy structure, low manufacturing cost can be realized, breakage that the miniaturization of device realizes preventing subject PS simultaneously.

Further, when buffer unit 61 shown in Fig. 3, Fig. 4 is for rubber, can flexibly keep subject PS, prevent subject PS damaged in preferred.

In addition, as shown in Figure 4, if form the otch 65 of its length direction in buffer part 64, then can improve the elasticity of buffer part 64, certainly, prevent subject PS damaged in preferred.

And, as mentioned above, buffer unit 61 be configured at rotate at buffer unit 61 and after cushioned leading subject PS by buffer part 64, do not hinder subject PS continuous thereafter and the shape (Fig. 5 (a), Fig. 3, Fig. 4) of the position of this follow-up subject PS can be cushioned by next buffer part 64.Thus, buffer part 64 can not hinder subject PS entering from selection pocket-wheel 7 side, thus can prevent the breakage of subject PS.

In addition, the translational speed of the subject PS of follow-up selection pocket-wheel 7 side caused by the driving of selection pocket-wheel 7, when contacting with above-mentioned two subject PS, is set to minimum by buffer unit 61.Thereby, it is possible to make the translational speed of the subject PS taken out of from selection pocket-wheel 7 lateral approach 51 fully reduce, and the breakage of subject PS can be prevented.

And, due to the abutting part 76 possessing ratchet mechanism 70 and abut with the roller 75 of this ratchet mechanism 70, so can suitably position the position of rotation of buffer unit 61 as follows, namely, be configured at rotate at buffer unit 61 and after cushioned leading subject PS by buffer part 64, do not hinder subject PS continuous thereafter and the position of this follow-up subject PS can be cushioned by next buffer part 64.

In addition, the utility model is not limited to the above embodiments, comprises various variation.Such as, the above embodiments are the embodiments be illustrated in detail in order to easy understand the utility model, are not limited to and must possess illustrated entire infrastructure.Further, a part for the structure of certain embodiment can be replaced into the structure of other embodiment, and, the structure of other embodiment also can be increased in the structure of certain embodiment.Further, also can a part for the structure of each embodiment be carried out the adding of other structure, eliminates, be replaced.

Claims (8)

1. a testing fixture, is characterized in that, possesses:

To the inspection portion that the container being filled with liquid checks;

Carry out rotary actuation respectively and supply said vesse to above-mentioned inspection portion, and the said vesse checked out by above-mentioned inspection portion being chosen and the multiple pocket-wheels taken out of respectively;

Make to be chosen by above-mentioned pocket-wheel take out of and arrange from the said vesse that this pocket-wheel is discharged, and pushed by the follow-up said vesse of discharging from above-mentioned pocket-wheel, thus this container is moved and the path taken out of to side, downstream from upstream side; And

Be located at the intake section of above-mentioned path, and be sandwiched in when the said vesse of discharging from above-mentioned pocket-wheel contacts with the leading container on above-mentioned path the buffer unit cushioning the contact of this two container between two containers.

2. testing fixture according to claim 1, is characterized in that,

Above-mentioned buffer unit possesses:

Circumferentially formed continuously and multiple carriers of undertaking said vesse;

Extend radially between above-mentioned each carrier and arrange and cushion the buffer part of the contact of above-mentioned two containers; And

Make the rotating shaft circumferentially rotated by the above-mentioned buffer unit that said vesse pushes.

3. testing fixture according to claim 2, is characterized in that,

Above-mentioned buffer part is rubber system.

4. the testing fixture according to Claims 2 or 3, is characterized in that,

Above-mentioned buffer part is formed with otch, to improve elasticity.

5. the testing fixture according to Claims 2 or 3, is characterized in that,

Above-mentioned buffer unit to be configured at the shape as upper/lower positions, this position is: to rotate and after having cushioned leading said vesse by above-mentioned buffer part at above-mentioned buffer unit, does not hinder container continuous thereafter and can be cushioned the position of this follow-up container by the above-mentioned buffer part of the next one.

6. the testing fixture according to Claims 2 or 3, is characterized in that,

Above-mentioned buffer unit makes the translational speed of the follow-up container caused by above-mentioned pocket-wheel be minimum when contacting with above-mentioned two containers.

7. testing fixture according to claim 5, is characterized in that,

Possesses ratchet mechanism, the position of rotation of this ratchet mechanism to above-mentioned buffer unit positions, can be configured at: above-mentioned buffer unit rotates and after having cushioned leading said vesse by above-mentioned buffer part, do not hinder container continuous thereafter and the position of this follow-up container can be cushioned by the above-mentioned buffer part of the next one.

8. testing fixture according to claim 7, is characterized in that,

Possess and coaxially arrange and the abutting part position of rotation of above-mentioned buffer unit positioned for abutting with above-mentioned ratchet mechanism with above-mentioned buffer part.