CN209651330U - Transfer structure for container-closure - Google Patents

Abstract

The utility model describes a kind of transfer structure for container-closure, it includes multiple guide rods, multiple guide rod is parallel to each other, is configured to be shaped to the vertex of the polygon orthogonal with feed path (A) for receiving and allowing closure member to slide along feed path (A) and arrange；Transfer structure further includes at least one frame element, it is configured to be used to support guide rod, it relative to the orthogonal extension of feed path (A) and limits with the through-hole of guide rod element crosses and comprising rectangular lower and rectangular upper portion, the width that rectangular upper portion has is greater than the width of lower part and is connected to lower part along the common side of rectangular lower and rectangular upper portion；Guide rod and frame element limit guiding channel, and guiding channel is suitable for different types of closure member of the transmission with the construction including comprising cylindrical, truncated cone shape and one end being cylindrical flange.

Description

Transfer structure for container-closure

Technical field

The utility model relates to a kind of transfer structure for being used for container-closure (receptacle closure), container is special It is not adapted for filling bottle, the container etc. of pourable products.

Background technique

Known different types of pourable products (such as food, such as soda, fruit juice, water, milk) filling container； The container can be the bottle or jar formed by a variety of materials (such as glass, plastics, aluminium).

Therefore simultaneously consumer safety, which is to pass, to be guaranteed for the preset durations of guarantee food to the sterilizing of the container Important.

In general, container is open with corresponding inlet/outlet, container is sterilized by inlet/outlet opening, is then existed Pourable products needed for filling in filling machine.

Once padding is completed, it will pass through application and the fixed corresponding closure member formed by plastics or metal material be (logical Often it is lid, nut, sport cap etc.) carry out sealed entry/exit opening.

Particularly, container lid carries out sterilization treatment also by chlorination equipment appropriate, is then fed to capping apparatus, seals Lid arrangement is generally integrated in filling machine.

Known chlorination equipment basically comprises transfer structure, which includes multiple guide rods, and multiple guide rod is worn It crosses process chamber and limits guiding channel, which is configured to receive from access station and covers and guide them into outlet station.Then Lid is fed to capping apparatus from the outlet station.

In general, guide rod is arranged to tilt relative to horizontal reference plane；In this way, sliding in guiding channel in guide rod During dynamic, lid is accelerated by gravity.

In general, chlorination equipment further includes injection-tube, which is placed in a part lower section of related transfer structure and fits In the disinfectant for heating and evaporating in relevant treatment erebro ventricular injection, such as hydrogen peroxide.In this way, at the place that lid slips over Manage indoor formation disinfectant cloud and mist.

In addition, chlorination equipment generally includes drying device, which is configured to guide hot-air near outlet station into Related transfer structure so that it flows through each lid in related guiding channel internal slide, and drying is any possible Sterilant residue.

Industrially need to seal the appearance with different types of inlet/outlet opening using various forms of lids Device.

Fig. 1 shows the container lid for being contained in related chlorination equipment (known per se and be not described in detail) (not Show) transfer structure 1 typical case.

Particularly, transfer structure 1 includes multiple guide rod components 3, is in this particular case three guide rod components 3, this is led Bar assembly 3 limits corresponding guiding channel 2, which is configured to for lid to be transmitted to outlet station 5 from access station 4, And capping apparatus 6 is fed them into, which is arranged in the downstream of outlet station 5 and is suitable for applying each lid simultaneously Fixed to cell therefor.

In more detail, guiding channel 2 is side by side and parallel to each other and be positioned to be inclined relative to horizontal, so that lid can To be slided due to acceleration of gravity with easier way.

In more detail, each guiding channel 2 is configured to for receiving and transmitting the lid with single form, and the form is not It is same as the form for the lid for being received and being transmitted by other two guiding channel 2 of transfer structure 1.

In this way it is possible to will have various forms of lids to be applied to enter with difference using single transfer structure 1 The container of mouth/exit opening, or anyway, being applied to those should apply to meet scheduled needs and have specific The container of the lid of shape.

However, transfer structure is retouched as shown in figure 1 in the case where each guiding channel 2 is suitable for transmitting the lid of single form Transfer structures stating and including multiple guiding channels 2, show limited operating flexibility.In fact, whenever needing to pass When another form being sent to be different from the lid for the form having already envisaged for, it will need to assemble other restrictions in transfer structure corresponding Guiding channel guide rod component, which is correspondingly configured to transmit different types of corresponding lid, to make to transmit 1 volume of structure is big and at high cost.

Utility model content

The purpose of the utility model is to provide a kind of transfer structures for container-closure, relative to known type Transfer structure allows to overcome disadvantages mentioned above.

According to the utility model, which is realized by transfer structure as described in claim 1.

Detailed description of the invention

By way of non-limiting example and two preferred embodiments of the utility model will be described in reference to the drawings below, In:

- Fig. 1 is the perspective view of the transfer structure of the container-closure of implementation according to prior art, wherein to be clear For the sake of remove some components；

- Fig. 2 is the perspective view of the transfer structure of the container-closure of an embodiment according to the present utility model, wherein for Some components are removed for the sake of clear；

- Fig. 3, Fig. 4 and Fig. 5 are the sectional views of line III-III according to fig. 2, show its with three kinds it is different types of Container-closure operated during Fig. 2 transfer structure；

- Fig. 6 is the perspective view of the transfer structure of the container-closure of another embodiment according to the present utility model, wherein Some components are removed for clarity；And

- Fig. 7, Fig. 8 and Fig. 9 be according to the sectional view of the line VII-VII of Fig. 6, show its with three kinds it is different types of Container-closure operated during Fig. 6 transfer structure.

Specific embodiment

It is indicated generally and (is preferably covered for the different types of closure member of propelling container (not shown) with reference to Fig. 2,10 Son) transfer structure first embodiment, container be for example suitable for fill pourable products bottle etc..

Particularly, in the example shown, transfer structure 10 is suitable for promoting three kinds indicated with 11a, 11b, 11c respectively not The lid of same type.

As shown in Figures 2 and 3, lid 11a substantially has external cylindrical construction, and external cylindrical construction has flat Smooth closed end wall 13a and opposite open-ended 14a, the open-ended 14a are suitable for entering with cell therefor in use The cooperation of mouth/exit opening.In addition, cylindrical side of the lid 11a by range between end wall 13a and open-ended 14a 15a is defined in outside.

As shown in figure 4, lid 11b substantially has external cylindrical flanged structure.Particularly, lid 11b includes cylinder Shape side surface 15b and end flange 16, the end flange 16 is radially projecting relative to side surface 15b and is connected by coupling part 17 It is connected to side surface 15b.Lid 11b has flat closed end wall 13b also on the side of flange 16, and in opposite side It is upper that there is open-ended 14b, the open-ended 14b to be suitable for cooperating with the inlet/outlet of corresponding container in use.

With reference to Fig. 5, lid 11c has substantial lateral recessed frustoconical configuration.Particularly, lid 11c includes concave surface Curve and truncated cone shape side surface 15c outwardly.Lid 11c also has closed planar end wall 13c, and in opposite side On, there is open-ended 14c, the open-ended 14c to be suitable for cooperating with the inlet/outlet of corresponding container in use.

Preferably, transfer structure 10 be suitable for chlorination equipment (known per se and be not described in detail) together for lid 11a, 11b,11c.In more detail, transfer structure 10 passes through the processing that injection in its of chlorination equipment has disinfectant (such as hydrogen peroxide) Room (not shown).

Particularly, transfer structure 10 includes director element component 18, and the director element component 18 is parallel to each other and constructs At for receiving lid 11a, 11b and 11c from access station (not shown) in the space thus limited and along feed path (example Such as, linearly and be parallel to the feed direction A of induction element 18) transmit lid towards outlet station (not shown).

Preferably, induction element is limited by linear guide 18, the guide rod 18 be preferably metal and have rounded portions Point, and process chamber is passed through in the position being inclined relative to horizontal, allow lid 11a, 11b and 11c due to gravity Acceleration is slided with easier way.

Lid 11a, 11b and 11c are then fed to capping apparatus (not shown) from outlet station, which is configured to For each lid 11a, 11b and 11c to be applied and are fixed to cell therefor.

Transfer structure 10 further includes the braced frame 20 for guide rod 18, which extends and wrap along direction A Multiple frame elements 21 are included, multiple frame element 21 is equally spaced from each other and in the respective planes relative to direction A quadrature arrangement Upper extension.

Frame 20 further includes being parallel to direction A and the extension of guide rod 18 and laterally a pair of posts of bearing frame element 21 22。

As shown in Fig. 3, Fig. 4 and Fig. 5, guide rod 18 arranges the vertex for being shaped to the polygon in the section about guide rod 18, from Access station orthogonally intercepts the section to outlet station, along any point of direction A.Particularly, guide rod 18 includes:

- two lower guide rod 18a limit two vertex of polygonal base in orthogonal cross-sections；

- two top guide bar 18b limit two vertex of the side opposite with base portion of polygon in orthogonal cross-sections； And

- two centre pilot 18c limit two vertex in orthogonal cross-sections, the two vertex are arranged on medium line, It is parallel to the side opposite with base portion of base portion and polygon, and is arranged between the base portion and the side.

In more detail, lower guide rod 18a, top guide bar 18b and centre pilot 18c arrangement are shaped to six sides about orthogonal cross-sections The vertex of shape.

In practice, lower guide rod 18a is arranged in two apexes of hexagonal base；Top guide bar 18b is arranged in hexagon Two apexes with the side of base portion pair；And centre pilot 18c is arranged in two remaining apexes of hexagon.

In non-limiting example shown in this article, hexagon is by central square and is arranged in the opposite of central square Two isosceles triangles of side are formed.

According to above-mentioned construction, in order to transmit different types of lid 11a, 11b and 11c, lower guide rod 18a is configured to do not having Lid is used to support in the case where external action (such as injection disinfectant or injection air are to remove possible sterilant residue) Sub- 11a, 11b and 11c.In addition, top guide bar 18b and centre pilot 18c are configured to limitation lid 11a, 11b and 11c from entrance Stand into the transmit process of outlet station accordingly vertically and laterally moving.

More precisely, top guide bar 18b be suitable for when its by said external act influence when, with corresponding lid 11a, End wall 13a, 13b and 13c of 11b and 11c cooperates；And centre pilot 18c is suitable in the case where corresponding lid 11a and 11c Cooperate with side surface 15a and 15c, and cooperates in the case where corresponding lid 11b with coupling part 17.

As shown in Fig. 3, Fig. 4 and Fig. 5, each frame element 21 of frame 20 defines corresponding through-hole 23, the through-hole 23 Intersect with guide rod 18 and guiding channel 19 defined by guide rod 18, the guiding channel 19 be configured to for by lid 11a, 11b and 11c is transmitted to outlet station from access station.

Therefore, each frame element 21 has substantially elongated C shaped profile, and wherein concave surface upward and further limits With the channel 24 of corresponding through-hole 23 connection.

Particularly, each through-hole 23 includes rectangular lower 25 and top 26, the top 26 be also rectangle and have Width is wider than the width of lower part 25；The top 26 of each through-hole 23 is connected to lower part along the common side of lower part 25 and top 26 25。

It is emphasized that term " width " herein refers to size orthogonal and horizontal-extending with direction A.

In detail, the lower part 25 of each through-hole 23 is centrally arranged relative to the common side of lower part 25 and top 26, lower part 25 There is the height being equal to each other with top 26.

It should be further, it is emphasized that term " height " herein refers to the size orthogonal with width and direction A.

It can be seen in the drawings that centre pilot 18c is along the lower part 25 of each through-hole 23 and the common side cloth on top 26 Set, lower guide rod 18a along opposite with the common side side arrangement and top guide bar 18b of lower part 25 be arranged in top 26 with On the opposite side of common side.

Therefore, each through-hole 23 is inscribed in by the hexagon that lower guide rod 18a, top guide bar 18b and centre pilot 18c are formed In.Therefore, in order to transmit lid 11a, 11b and 11c, the lower part 25 and top 26 of each through-hole 23 be configured to lid 11a, 11b and 11c intersects.

In Fig. 6-Fig. 9,30 are indicated generally another embodiment of transfer structure according to the present utility model.

In view of transfer structure 30 is using and be functionally similar to transfer structure 10, description below is limited between the two Architectural difference；Some components of transfer structure 30 similar or corresponding to the component about transfer structure 10 having been described, These components will be by using making to be denoted by the same reference numerals in the conceived case.

Particularly, transfer structure 30 includes two other guide rod 18b', which is arranged in through-hole 23 Top 26 side on, the side and the lower part 25 of through-hole 23 and top 26 it is shared side it is opposite.

In more detail, guide rod 18b' in addition is disposed relative to the outermost locations of top guide bar 18b.

In addition, other guide rod 18b' is disposed relative to the direction of acceleration of gravity, it is more slightly lower than the position of top guide bar 18b Position in.

As can be seen that lower guide rod 18a, top guide bar 18b, centre pilot 18c and other guide rod from Fig. 7, Fig. 8 and Fig. 9 18b' is arranged for being formed the section about lower guide rod 18a, top guide bar 18b, centre pilot 18c and other guide rod 18b' The vertex of polygon orthogonally intercepts the section along any point of direction A from access station to outlet station.

Particularly, lower guide rod 18a, top guide bar 18b, centre pilot 18c and other guide rod 18b' arrangement be shaped to about The octagonal vertex of orthogonal cross-sections.

As can be seen from Figure 8, guide rod 18b' in addition is configured to further limit lid 11b (i.e. with circular cylindrical projection The lid 11b of edge construction) vertical shift in the transmit process from access station to outlet station.In more detail, guide rod in addition 18b' is designed to that the upper wall 13b in use with corresponding lid 11b cooperates, to limit their vertical shift.

Transfer structure 30 further includes being parallel to direction A and guide rod 18 extends across two pillar 22' of frame element 21.

In addition, transfer structure 30 includes two upper supporting columns 31 for being parallel to direction A, guide rod 18 and pillar 22'.

By consulting according to the characteristic of transfer structure 10,30 of the utility model, the advantages of they can be realized, is Obviously.

Particularly, the construction in the channel 19 limited by guide rod 18 and through-hole 23 allow to transmit different types of lid 11a, 11b and 11c to allow to increase the flexibility of transfer structure 10, while reducing volume and cost.

It obviously, can be to described and illustrated herein in the case where not departing from the protection scope being defined by the claims Transfer structure 10 improves and changes.

Particularly, transfer structure 10 may include multiple guide rod components 18, multiple guide rod component 18 it is parallel to each other and with Associated through-holes 23 limit corresponding guiding channel 19 together, and each guiding channel is configured to other different types of for transmitting Lid.

In this way, the flexibility of transfer structure 10 is further increased.

Claims (50)

1. the transfer structure (10 that one kind is used for container-closure (11a, 11b, 11c)；30), the transfer structure (10；30) include Multiple guide rod (18,18a, 18b, 18c；18b'), multiple guide rod (18,18a, 18b, 18c；It is 18b') parallel to each other and construct At for receiving and realizing the closure member (11a, 11b, 11c) along feed path (A) from entering in the space thus limited Mouth station slides into outlet station；

Guide rod (18,18a, 18b, the 18c；18b') arrangement is shaped to about the guide rod (18,18a, 18b, 18c；18b') The vertex of the polygon in section, the section by orthogonally being intercepted along the feed path (A), the guide rod (18,18a, 18b, 18c；18b') include:

- two lower guide rods (18a) limit two vertex of the base portion of the polygon on the section；

- two top guide bars (18b), limit two of the side opposite with the base portion of the polygon on the section Vertex；And

- two centre pilots (18c) limit two vertex on the section, the two vertex are arranged on medium line, put down Row is arranged between the base portion and the side in the side opposite with the base portion of the base portion and the polygon；

The lower guide rod (18a), top guide bar (18b) and centre pilot (18c) arrangement are shaped to the hexagon about the section Vertex；

The closure member (11a, 11b, 11c) is supported by the lower guide rod (18a) slide in use；

The transfer structure (10) further includes at least one frame element (21), which is being orthogonal to the feeding Extend in the plane in path (A), is configured to support guide rod (18,18a, 18b, the 18c；18b'), and restriction is led by described Bar (18,18a, 18b, 18c；The through-hole (23) 18b') passed through；

The through-hole (23) includes rectangular lower (25) and rectangular upper portion (26), and the width which has is wider than institute It states the width of lower part (25) and is connected to the lower part (25) along the common side of the lower part (25) and the top (26)；

The centre pilot (18c) arranges along the common side, the lower guide rod (18a) be arranged in the lower part (25) with institute It states on the opposite side of common side, and the top guide bar (18b) is arranged in the opposite with the common side of the top (26) Side on；

Guide rod (18,18a, 18b, the 18c；18b') and the frame element (21) limit guiding channel (19), and the guidance is logical Road (19) is suitable for transmitting the structure having be comprising cylindrical (11a), truncated cone shape (11c) and one end including cylindrical flange (11b) The different types of closure member (11a, 11b, 11c) made.

2. transfer structure according to claim 1, wherein the lower part (25) are relative to the lower part (25) and top (26) the common side is centrally arranged.

3. transfer structure according to claim 1, wherein the hexagon is by central square and is arranged in the pros Two isosceles triangles of the opposite side of shape are formed.

4. transfer structure according to claim 2, wherein the hexagon is by central square and is arranged in the pros Two isosceles triangles of the opposite side of shape are formed.

5. transfer structure according to any one of the preceding claims, wherein the height that the top (26) have is equal to institute State the height of lower part (25).

6. the transfer structure according to any one of preceding claims 1 to 4, wherein the frame element (21) has substantially Upper elongated C shaped profile, wherein concave surface upward and limits the channel (24) being connected to the through-hole (23).

7. transfer structure according to claim 5, wherein the frame element (21) has substantially elongated C-shaped wheel Exterior feature, wherein concave surface upward and limits the channel (24) that is connected to the through-hole (23).

8. the transfer structure according to any one of preceding claims 1 to 4, wherein in order to transmit the different types of envelope Closing member (11a, 11b, 11c), the lower guide rod (18a) are configured to be used to support the closing in the case where no external action Part (11a, 11b, 11c) and the centre pilot (18c) and top guide bar (18b) are configured to for limiting the closure member (11a, 11b, 11c) is laterally and vertically moved accordingly in the guiding channel (19)；The guiding channel (19) relative to Horizontal plane inclination, to be easier the sliding of the closure member (11a, 11b, 11c) due to acceleration of gravity.

9. according to transfer structure described in preceding claims 5, wherein in order to transmit the different types of closure member (11a, 11b, 11c), the lower guide rod (18a) be configured to be used to support in the case where no external action the closure member (11a, 11b, 11c) and the centre pilot (18c) and top guide bar (18b) be configured to for limit the closure member (11a, 11b, 11c) laterally and vertically moved accordingly in the guiding channel (19)；The guiding channel (19) is with respect to the horizontal plane inclined Tiltedly, to be easier the sliding of the closure member (11a, 11b, 11c) due to acceleration of gravity.

10. according to transfer structure described in preceding claims 6, wherein in order to transmit the different types of closure member (11a, 11b, 11c), the lower guide rod (18a) be configured to be used to support in the case where no external action the closure member (11a, 11b, 11c) and the centre pilot (18c) and top guide bar (18b) be configured to for limit the closure member (11a, 11b, 11c) laterally and vertically moved accordingly in the guiding channel (19)；The guiding channel (19) is with respect to the horizontal plane inclined Tiltedly, to be easier the sliding of the closure member (11a, 11b, 11c) due to acceleration of gravity.

11. according to transfer structure described in preceding claims 7, wherein in order to transmit the different types of closure member (11a, 11b, 11c), the lower guide rod (18a) be configured to be used to support in the case where no external action the closure member (11a, 11b, 11c) and the centre pilot (18c) and top guide bar (18b) be configured to for limit the closure member (11a, 11b, 11c) laterally and vertically moved accordingly in the guiding channel (19)；The guiding channel (19) is with respect to the horizontal plane inclined Tiltedly, to be easier the sliding of the closure member (11a, 11b, 11c) due to acceleration of gravity.

12. the transfer structure according to any one of preceding claims 1 to 4, wherein the multiple guide rod (18,18a, 18b, 18c；It 18b') include two other guide rods (18b'), the other guide rod (18b') is along the top (26) and institute State the opposite side arrangement of the common side of lower part (25) and the top (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and other guide rod (18b') arrangement are shaped to the octagonal vertex about the section.

13. transfer structure according to claim 5, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

14. transfer structure according to claim 6, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

15. transfer structure according to claim 7, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

16. transfer structure according to claim 8, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

17. transfer structure according to claim 9, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

18. transfer structure according to claim 10, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

19. transfer structure according to claim 11, wherein the multiple guide rod (18,18a, 18b, 18c；18b') include Two other guide rods (18b'), the other guide rod (18b') along the top (26) and the lower part (25) and it is described on The opposite side arrangement of the common side in portion (26)；The lower guide rod (18a), top guide bar (18b), centre pilot (18c) and Other guide rod (18b') arrangement is shaped to the octagonal vertex about the section.

20. transfer structure according to claim 12, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

21. transfer structure according to claim 13, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

22. transfer structure according to claim 14, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

23. transfer structure according to claim 15, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

24. transfer structure according to claim 16, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

25. transfer structure according to claim 17, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

26. transfer structure according to claim 18, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

27. transfer structure according to claim 19, wherein the other guide rod (18b') be disposed relative to it is described The outermost locations of top guide bar (18b).

28. transfer structure according to claim 12, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

29. transfer structure according to claim 13, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

30. transfer structure according to claim 14, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

31. transfer structure according to claim 15, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

32. transfer structure according to claim 16, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

33. transfer structure according to claim 17, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

34. transfer structure according to claim 20, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

35. transfer structure according to claim 27, wherein the other guide rod (18b') be disposed relative to it is described The position of the position lower part of top guide bar (18b)；The other guide rod (18b') is configured to further limit one end to be cylinder The vertical shift of the closure member of shape flange (11b).

36. the transfer structure according to any one of preceding claims 1 to 4, wherein the lower part of the through-hole (23) (25) and top (26) are configured to be passed through by the closure member (11a, 11b, 11c) when in use.

37. transfer structure according to claim 5, wherein the lower part (25) of the through-hole (23) and top (26) structure It causes to be passed through by the closure member (11a, 11b, 11c) when in use.

38. transfer structure according to claim 6, wherein the lower part (25) of the through-hole (23) and top (26) structure It causes to be passed through by the closure member (11a, 11b, 11c) when in use.

39. transfer structure according to claim 8, wherein the lower part (25) of the through-hole (23) and top (26) structure It causes to be passed through by the closure member (11a, 11b, 11c) when in use.

40. transfer structure according to claim 12, wherein the lower part (25) and top (26) of the through-hole (23) It is configured to be passed through by the closure member (11a, 11b, 11c) when in use.

41. transfer structure according to claim 20, wherein the lower part (25) and top (26) of the through-hole (23) It is configured to be passed through by the closure member (11a, 11b, 11c) when in use.

42. transfer structure according to claim 28, wherein the lower part (25) and top (26) of the through-hole (23) It is configured to be passed through by the closure member (11a, 11b, 11c) when in use.

43. the transfer structure according to any one of preceding claims 1 to 4 comprising along the feed direction (A) that This equidistant multiple frame element (21).

44. transfer structure according to claim 5 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

45. transfer structure according to claim 6 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

46. transfer structure according to claim 8 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

47. transfer structure according to claim 12 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

48. transfer structure according to claim 20 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

49. transfer structure according to claim 28 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).

50. transfer structure according to claim 36 comprising along the feed direction (A) multiple institutes equally spaced from each other State frame element (21).