CN211069965U - Feeding assembly and batching machine - Google Patents

Abstract

The utility model provides a feed subassembly and proportioning machine, wherein, the feed subassembly, include: the container is provided with an accommodating cavity and a discharge hole communicated with the accommodating cavity, the container comprises a matching part, and the discharge hole is arranged on the matching part; backstop structure, movably setting is on the container, and backstop structure has the open position of opening the discharge gate and the shutoff position of shutoff discharge gate, and wherein, can produce magnetic force between backstop structure and the cooperation portion to make backstop structure compress tightly on the cooperation portion under the effect of magnetic force, perhaps, the feed subassembly still includes: and the compressing structure is arranged between the container and the stopping structure so as to compress the stopping structure on the matching part. Use the technical scheme of the utility model can make the feed subassembly after long-term the use, backstop structure on it still can smoothly move.

Description

Feeding assembly and batching machine

Technical Field

The utility model relates to a food machinery particularly, relates to a feed subassembly and proportioning machine.

Background

Currently, the dispensing machines in the market generally include a base, a feeder disposed on the base, and a storage tank disposed above the feeder. The feeding machine comprises a feeding machine body and a baffle, wherein a discharge hole is formed in the feeding machine body, and the baffle is movably arranged at the discharge hole to open and close the discharge hole.

In above-mentioned structure, there is the gap between the plane at baffle and discharge gate place, and long-term back impurity powder of using is mingled with easily between the plane at door plant and discharge gate place, leads to the planar gap at baffle and discharge gate place to be bigger and bigger, leads to the baffle up-and-down motion not smooth and easy on the one hand, and on the other hand leads to the sealed effect of the airtight discharge gate of baffle not good, and ejection of compact precision is not well controlled.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a feed subassembly and proportioning machine to make the feed subassembly after long-term the use, backstop structure on it still can smoothly move.

In order to achieve the above object, according to an aspect of the present invention, there is provided a feeding assembly, comprising: the container is provided with an accommodating cavity and a discharge hole communicated with the accommodating cavity, the container comprises a matching part, and the discharge hole is arranged on the matching part; backstop structure, movably setting is on the container, and backstop structure has the open position of opening the discharge gate and the shutoff position of shutoff discharge gate, and wherein, can produce magnetic force between backstop structure and the cooperation portion to make backstop structure compress tightly on the cooperation portion under the effect of magnetic force, perhaps, the feed subassembly still includes: and the compressing structure is arranged between the container and the stopping structure so as to compress the stopping structure on the matching part.

Further, the stopping structure is made of a magnetic material, and/or the first magnetic block is arranged on the stopping structure.

Further, the matching part is made of a magnetic material, and/or a second magnetic block is arranged on the matching part, and/or a ferromagnetic structure is arranged on the matching part, or the matching part is made of a ferromagnetic material.

Furthermore, the container also comprises a mounting structure, the mounting structure is positioned on one side, away from the matching part, of the stop structure, a third magnetic block is arranged on the stop structure, a fourth magnetic block is arranged on the mounting structure, and the third magnetic block and the fourth magnetic block are opposite in homopolar.

Furthermore, the stop structure is provided with a plurality of first magnetic blocks.

Further, the compressing structure comprises an elastic structure, and the stop structure is attached to the matching part under the action of the elastic force.

Further, the feeding assembly further comprises: the driving structure comprises a gear and a rack which are matched with each other, the gear is arranged on the container, the rack is arranged on the stopping structure, or the driving structure comprises an ejector rod which can be telescopically arranged, and the ejector rod can be matched with the stopping structure.

Further, the stopping structure comprises a stopping block attached to the matching portion and a connecting block arranged on the stopping block and extending upwards, the first magnetic block is arranged on the stopping block, the driving structure comprises a gear and a rack which are matched with each other, and the rack is arranged on the connecting block.

Further, the container includes the vessel that has the chamber of holding, is located the installation shell in the vessel outside and sets up the cooperation board on the installation shell, and the installation shell includes the riser and is located first curb plate and the second curb plate of the relative both sides of riser, and the cooperation board sets up on the riser, and the cooperation board forms cooperation portion, and backstop structure is spacing between first curb plate and second curb plate.

Further, the feeding assembly further comprises: the magnetic structure is arranged on the first side plate and/or the stopping structure so that the stopping structure is attached to the first side plate under the action of magnetic force.

Further, the magnetic structure comprises a fifth magnetic block, wherein the fifth magnetic block is arranged on the first side plate, the stop structure is made of a ferromagnetic material or is provided with a ferromagnetic structure, or the fifth magnetic block is arranged on the stop structure, and the first side plate is made of a ferromagnetic material or is provided with a ferromagnetic structure; or the magnetic structure comprises a sixth magnetic block and a seventh magnetic block which are mutually attracted, the sixth magnetic block is arranged on the stop structure, and the seventh magnetic block is arranged on the first side plate; or the magnetic structure comprises an eighth magnetic block and a ninth magnetic block which are mutually exclusive, the eighth magnetic block is arranged on the stop structure, and the ninth magnetic block is arranged on the second side plate.

Further, the first side plate comprises a side plate body and an installation protrusion located on the outer side of the side plate body, a containing groove recessed towards the vertical plate is formed in the installation protrusion, the magnetic structure comprises a fifth magnetic block, the fifth magnetic block is arranged in the containing groove, the container further comprises a cover body arranged on the outer side of the installation shell, a protrusion corresponding to the containing groove is formed in the cover body, and at least part of the protrusion extends into the containing groove.

According to the utility model discloses an on the other hand provides a proportioning machine, include: the feeding assembly is the feeding assembly.

Use the technical scheme of the utility model, backstop structure is at the in-process that removes, because can produce magnetic force or because compact structure's setting between backstop structure 20 and the cooperation portion, backstop structure can be laminated with the cooperation portion of container all the time. The structure ensures that no gap exists between the stopping structure and the matching part, so that the phenomenon that impurity powder enters between the stopping structure and the matching part is avoided, and the smoothness of the movement of the stopping structure is ensured; on the other hand, the sealing effect of the airtight discharge hole of the stop structure is ensured, and the controllability of the discharge precision is improved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

Fig. 1 shows a schematic perspective view of a first embodiment of a feeding assembly according to the present invention;

FIG. 2 is a schematic perspective view showing a partial structure of the feeding assembly of FIG. 1;

FIG. 3 shows an enlarged schematic view of the feeding assembly of FIG. 2 at A;

FIG. 4 shows a schematic exploded view of the feed assembly of FIG. 2;

FIG. 5 shows a schematic partial cross-sectional view of the stop structure of the feeding assembly of FIG. 2 mated with a mating plate;

FIG. 6 shows a schematic front view of the stop structure of FIG. 5 mated with a mating plate and the stop structure in an open position; and

Fig. 7 shows a front view of the stop structure of fig. 5 mated with a mating plate and in the blocking position.

Wherein the figures include the following reference numerals:

1. An accommodating chamber; 10. a container; 11. a container body; 12. installing a shell; 121. a vertical plate; 122. a first side plate; 123. a second side plate; 124. a side plate body; 125. mounting a boss; 126. an accommodating recess; 13. a mating plate; 131. a discharge port; 14. a cover body; 141. a protrusion; 20. a stop structure; 21. a stopper; 22. connecting blocks; 30. a first magnetic block; 40. a drive structure; 41. a gear; 42. a rack; 50. a magnetic structure; 60. a feeding assembly.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 to 7, the feeding assembly of the first embodiment includes: a container 10 and a stop structure 20. Wherein, container 10 has and holds chamber 1 and with holding the discharge gate 131 that chamber 1 communicates, container 10 includes the cooperation portion, and discharge gate 131 sets up on the cooperation portion. The stop structure 20 is movably arranged on the container 10, the stop structure 20 having an open position for opening the spout 131 and a blocking position for blocking the spout 131. A magnetic force can be generated between the stop structure 20 and the mating portion, so that the stop structure 20 is pressed against the mating portion by the magnetic force.

By applying the technical solution of the first embodiment, in the moving process of the stopping structure 20, since the magnetic force can be generated between the stopping structure 20 and the matching portion, the stopping structure 20 can always be attached to the matching portion of the container 10. Due to the structure, no gap exists between the stopping structure 20 and the matching part, so that the phenomenon that impurity powder enters between the stopping structure 20 and the matching part is avoided, and the smoothness of movement of the stopping structure 20 is ensured; on the other hand, the sealing effect of the stop structure 20 for sealing the discharge hole 131 is ensured, and the controllability of the discharging precision is improved.

As shown in fig. 2, 4 and 5, in the first embodiment, the first magnetic block 30 is disposed on the stop structure 20, the matching portion is made of a ferromagnetic material or a ferromagnetic structure is disposed on the matching portion. The first magnetic block can magnetize the matching part or magnetize the ferromagnetic structure on the matching part and generate magnetic force with the ferromagnetic structure, and the stop structure 20 can cling to the matching part under the action of the magnetic force, so that the aim of no gap between the stop structure 20 and the matching part is fulfilled. Of course, in other embodiments not shown in the figures, the mating part is made of a magnetic material and/or the second magnetic block is arranged on the mating part. Preferably, in the first embodiment, the surface of the fitting portion close to the stopper structure 20 is a plane, and the above structure makes the stopper structure 20 move smoothly.

As shown in fig. 5, in the first embodiment, there are a plurality of first magnetic blocks 30. The structure enables all parts of the stopping structure to be tightly attached to the matching part, so that no gap is formed between the stopping structure 20 and the matching part. Preferably, in the present embodiment, the first magnetic blocks 30 are arranged in 2 rows and 2 columns for a total of 4.

As shown in fig. 2 to 7, in the first embodiment, the feeding assembly further comprises: a drive structure 40. The driving structure 40 includes a gear 41 and a rack 42, which are engaged with each other, the gear 41 is disposed on the container 10, and the rack 42 is disposed on the stopping structure 20. When the gear 41 rotates, the gear 41 is attached to the rack 42 to drive the rack 42 to move up and down. The rack 42 moves the stopper 20 up and down to open or close the discharge hole 131. The structure is simple, easy to realize and high in reliability.

As shown in fig. 2 to 7, in the first embodiment, the stopping structure 20 includes a stopper 21 attached to the matching portion and a connecting block 22 disposed on the stopper 21 and extending upward, the first magnetic block 30 is disposed on the stopper 21, and the rack 42 is disposed on the connecting block 22. The above structure enables the gear to be arranged above the stop structure 20, thereby effectively reducing the space occupied by the feeding assembly and facilitating the miniaturization design.

it should be noted that, in this embodiment, the stopper 21 is hollow to accommodate a plurality of first magnetic blocks, the stopper 21 has an opening at an upper portion thereof, the first magnetic blocks can be inserted into the stopper 21 through the opening, the connecting block 22 includes a cover plate covering the opening of the stopper 21 and an extending block extending upward, the connecting block 22 is L-shaped as a whole, and the rack 42 is mounted on a side wall of the extending block.

As shown in fig. 2 and fig. 3, in the first embodiment, the container 10 includes a container body 11 having a receiving cavity 1, a mounting housing 12 located outside the container body 11, and a fitting plate 13 disposed on the mounting housing 12, the mounting housing 12 includes a vertical plate 121, and a first side plate 122 and a second side plate 123 located on two opposite sides of the vertical plate 121, the fitting plate 13 is disposed on the vertical plate 121, the fitting plate 13 forms a fitting portion, and the stop structure 20 is limited between the first side plate 122 and the second side plate 123. In the above structure, the first side plate 122 and the second side plate 123 can guide the stopper structure 20 so that the stopper structure 20 can move in the predetermined direction.

since the stopping structure 20 is in the non-rectangular shape of "L" in this embodiment, even if the first side plate 122 and the second side plate 123 limit the position of the stopping structure 20, the stopping structure 20 may be inclined in the movement, and to solve the above problem, as shown in fig. 2 and 3, in the first embodiment, the feeding assembly further includes the magnetic structure 50, the magnetic structure 50 is disposed on the first side plate 122, so that the stopping structure 20 is attached to the first side plate 122 under the action of the magnetic force, the above structure enables the stopping structure 20 to move only along the extending direction of the first side plate 122 (i.e., along the predetermined direction), so as to ensure the smooth matching between the gear 41 and the rack 42, and improve the smooth movement of the stopping structure 20.

As shown in fig. 2 and 3, in the first embodiment, the magnetic structure 50 includes a fifth magnetic block, the fifth magnetic block is disposed on the first side plate 122, the stop structure 20 is made of a ferromagnetic material, or a ferromagnetic structure is disposed on the stop structure 20. The fifth magnetic block can magnetize at least part of the stopping structure 20 or magnetize a ferromagnetic structure on the stopping structure 20 and generate a magnetic force with the ferromagnetic structure, and the stopping structure 20 can cling to the first side plate 122 under the action of the magnetic force, so that the stopping structure 20 can move along a predetermined direction.

As shown in fig. 2 to 4, in the first embodiment, the first side plate 122 includes a side plate body 124 and a mounting protrusion 125 located outside the side plate body 124, the mounting protrusion 125 is provided with a receiving groove 126 recessed toward the vertical plate 121, the magnetic structure 50 includes a fifth magnetic block, the fifth magnetic block is disposed in the receiving groove 126, the container 10 further includes a cover 14 covering outside the mounting housing 12, the cover 14 is provided with a protrusion 141 corresponding to the receiving groove 126, and at least a portion of the protrusion 141 extends into the receiving groove 126. Specifically, during installation, the fifth magnetic block is installed in the accommodating groove 126, the gear 41 is arranged on the vertical plate 121, the rack 42 is installed on the stopper structure 20, and an assembly formed by installing the rack 42 and the stopper structure 20 together is installed between the first side plate 122 and the second side plate 123 and the gear 41 is meshed with the rack 42. After the internal components are mounted, the cover 14 is placed on the mounting case 12. The protrusion 141 on the cover 14 can extend into the receiving groove 126, and the above structure can fix the fifth magnetic block, and in addition, the above structure can also play a role of positioning the cover 14 so as to make the cover 14 easier to assemble.

The feeding assembly of embodiment two differs from the feeding assembly of embodiment one in the material of the second stop structure 20. Specifically, in the second embodiment, the stopper structure 20 is made of a magnetic material. The structure is simple, the assembling steps are reduced, and the assembling efficiency is improved. Specifically, in the second embodiment, the fitting part is made of a ferromagnetic material, and/or a ferromagnetic structure is provided on the fitting part. The stopping structure 20 can magnetize at least part of the structure of the matching part or magnetize the ferromagnetic structure on the matching part and generate magnetic attraction force with the ferromagnetic structure, and the stopping structure 20 can cling to the matching part under the action of the magnetic attraction force so as to realize the purpose of no gap between the stopping structure 20 and the matching part. Of course, in other embodiments not shown in the figures, the matching part may also be made of a magnetic material and/or the second magnetic block is arranged on the matching part.

The feeding assembly of the third embodiment is different from the feeding assembly of the first embodiment in the arrangement position of the first magnetic block 30. Specifically, in the third embodiment, the container 10 further includes a mounting structure, the mounting structure is located on one side of the stopping structure 20, which is far away from the matching portion, a third magnetic block is arranged on the stopping structure 20, a fourth magnetic block is arranged on the mounting structure, and the third magnetic block and the fourth magnetic block are opposite in homopolar. Magnetic repulsion can be generated between the third magnetic block and the fourth magnetic block, and the stop structure 20 can be tightly attached to the matching part under the action of the magnetic repulsion, so that the aim of no gap between the stop structure 20 and the matching part is fulfilled.

The feeding assembly of example four differs from the feeding assembly of example one in that the feeding assembly comprises a compacting structure. Specifically, in the fourth embodiment, the pressing structure includes an elastic structure, and the stopper structure 20 is attached to the fitting portion by the elastic force. The structure is simple and the reliability is strong.

Preferably, in the fourth embodiment, a sliding groove is formed in the matching portion, a mounting hole is formed in the stopping structure, the protruding column penetrates through the sliding groove and the mounting hole, a stopping head is arranged at one end of the protruding column, a fastening piece is arranged at the other end of the protruding column, the head of the fastening piece is located on one side, away from the stopping structure, of the matching portion, the stopping head is located on one side, away from the matching portion, of the stopping structure, the elastic structure is a spring sleeved on the protruding column, one end of the spring abuts against the stopping head, and the other end of the spring abuts against the stopping structure. The structure is simple and easy to realize. Of course, in other embodiments not shown in the drawings, the pressing structure may also include a driving rod, and the driving rod always provides an external force to the stopping structure, so that the stopping structure is attached to the matching portion under the action of the external force.

The feeding assembly of the fifth embodiment is different from the feeding assembly of the first embodiment in the specific structure of the driving structure 40. Specifically, in the fifth embodiment, the driving structure 40 includes a retractable push rod (not shown in the figure), and the push rod can be matched with the stopping structure 20. When the discharge hole 131 needs to be opened, the ejector rod can be driven to upwards abut against the stop structure 20, so that the stop structure 20 is avoided from the discharge hole 131. When the discharge hole 131 needs to be closed, the ejector rod can be driven to be recovered, and the stop structure 20 returns to the initial position under the action of the self gravity of the stop structure. The structure is simple and easy to realize.

The feeding assembly of the sixth embodiment is different from the feeding assembly of the first embodiment in the position where the fifth magnetic block is disposed. Specifically, in the sixth embodiment, a fifth magnetic block (not shown in the figure) is disposed on the stop structure 20, the first side plate 122 is made of a ferromagnetic material or a ferromagnetic structure is disposed on the first side plate 122. The fifth magnetic block can magnetize at least a part of the structure of the first side plate 122 or magnetize a ferromagnetic structure on the first side plate 122 and generate a magnetic attraction force with the ferromagnetic structure, and the stopping structure 20 can be tightly attached to the first side plate 122 under the action of the magnetic attraction force, so that the stopping structure 20 can move along a predetermined direction.

The feeding assembly of example seven differs from the feeding assembly of example one in the specific structure of the magnetic structure 50. Specifically, in the seventh embodiment, the magnetic structure 50 (not shown in the figure) includes a sixth magnetic block and a seventh magnetic block, which are mutually attracted, the sixth magnetic block is disposed on the stop structure 20, and the seventh magnetic block is disposed on the first side plate 122. Magnetic attraction can be generated between the sixth magnetic block and the seventh magnetic block, and the stopping structure 20 can be tightly attached to the first side plate 122 under the action of the magnetic attraction, so that the purpose that the stopping structure 20 can move along the preset direction is achieved.

The feeding assembly of example eight is different from the feeding assembly of example seven in the arrangement position of the magnetic structure 50. Specifically, in the eighth embodiment, the magnetic structure 50 (not shown in the figure) includes an eighth magnetic block and a ninth magnetic block which are mutually exclusive, the eighth magnetic block is disposed on the stop structure 20, and the ninth magnetic block is disposed on the second side plate 123. Magnetic repulsion can be generated between the eighth magnetic block and the ninth magnetic block, and the stopping structure 20 can be tightly attached to the first side plate 122 under the action of the magnetic repulsion, so that the purpose that the stopping structure 20 can move along the preset direction is achieved.

The present application further provides a dispensing machine, an embodiment of a dispensing machine (not shown in the figures) according to the present application includes: a feeding assembly 60, wherein the feeding assembly 60 is the feeding assembly described above. Because above-mentioned feed subassembly has the advantage that opening and closing backstop structure is smooth and easy, and the controllability of ejection of compact precision is high, consequently the proportioning machine that has it also has above-mentioned advantage.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. A feeding assembly, comprising:

The container (10) is provided with an accommodating cavity (1) and a discharge hole (131) communicated with the accommodating cavity (1), the container (10) comprises a matching part, and the discharge hole (131) is arranged on the matching part;

A stop structure (20) movably arranged on the container (10), the stop structure (20) having an open position opening the discharge opening (131) and a blocking position blocking the discharge opening (131), wherein,

Magnetic force can be generated between the stop structure (20) and the matching part, so that the stop structure (20) is pressed on the matching part under the action of the magnetic force, or the feeding assembly further comprises:

The pressing structure is arranged between the container (10) and the stopping structure (20) so that the stopping structure (20) is pressed on the matching part.

2. Feeding assembly according to claim 1, characterized in that the stop structure (20) is made of a magnetic material and/or that a first magnetic block (30) is provided on the stop structure (20).

3. Feeding assembly according to claim 2, characterized in that the mating part is made of a magnetic material and/or that a second magnet is arranged on the mating part and/or that a ferromagnetic structure is arranged on the mating part or that the mating part is made of a ferromagnetic material.

4. Feeding assembly according to claim 1, wherein the container (10) further comprises a mounting structure, the mounting structure is located at a side of the stop structure (20) away from the mating portion, a third magnetic block is arranged on the stop structure (20), a fourth magnetic block is arranged on the mounting structure, and the third magnetic block and the fourth magnetic block are in homopolar opposition.

5. Feeding assembly according to claim 2, characterized in that a first magnetic block (30) is arranged on the stop structure (20), and the number of the first magnetic blocks (30) is multiple.

6. Feeding assembly according to claim 1, wherein the pressing structure comprises an elastic structure, and the stop structure (20) abuts against the mating portion under the effect of the elastic force.

7. A feeding assembly according to claim 2, characterized in that it further comprises:

A drive structure (40), wherein the drive structure (40) comprises a gear (41) and a rack (42) which are mutually matched, the gear (41) is arranged on the container (10), the rack (42) is arranged on the stop structure (20), or,

The driving structure (40) comprises a mandril in telescopic arrangement, and the mandril can be matched with the stop structure (20).

8. Feeding assembly according to claim 7, wherein the stopping structure (20) comprises a stopper (21) attached to the fitting portion and a connecting block (22) disposed on the stopper (21) and extending upward, the first magnetic block (30) is disposed on the stopper (21), the driving structure (40) comprises the gear (41) and the rack (42), and the rack (42) is disposed on the connecting block (22).

9. Feeding assembly according to claim 1, characterized in that the container (10) comprises a container body (11) having the receiving cavity (1), a mounting housing (12) located outside the container body (11), and a fitting plate (13) arranged on the mounting housing (12), the mounting housing (12) comprises a vertical plate (121) and a first side plate (122) and a second side plate (123) located on opposite sides of the vertical plate (121), the fitting plate (13) is arranged on the vertical plate (121), the fitting plate (13) forms the fitting portion, and the stop structure (20) is limited between the first side plate (122) and the second side plate (123).

10. A feeding assembly according to claim 9, characterized in that it further comprises:

The magnetic structure (50) is arranged on the first side plate (122) and/or the stopping structure (20) so that the stopping structure (20) is attached to the first side plate (122) under the action of magnetic force.

11. Feeding assembly according to claim 10, characterized in that the magnetic structure (50) comprises a fifth magnet, wherein the fifth magnet is provided on the first side plate (122), the stop structure (20) is made of a ferromagnetic material or a ferromagnetic structure is provided on the stop structure (20), or the fifth magnet is provided on the stop structure (20), the first side plate (122) is made of a ferromagnetic material or a ferromagnetic structure is provided on the first side plate (122); or,

The magnetic structure (50) comprises a sixth magnetic block and a seventh magnetic block which are mutually attracted, the sixth magnetic block is arranged on the stop structure (20), and the seventh magnetic block is arranged on the first side plate (122); or,

The magnetic structure (50) comprises an eighth magnetic block and a ninth magnetic block which are mutually exclusive, the eighth magnetic block is arranged on the stop structure (20), and the ninth magnetic block is arranged on the second side plate (123).

12. The feeding assembly of claim 11, wherein the first side plate (122) comprises a side plate body (124) and a mounting protrusion (125) located outside the side plate body (124), the mounting protrusion (125) is provided with a receiving groove (126) recessed toward the vertical plate (121), the magnetic structure (50) comprises the fifth magnetic block, the fifth magnetic block is disposed in the receiving groove (126), the container (10) further comprises a cover body (14) disposed outside the mounting housing (12), the cover body (14) is provided with a protrusion (141) corresponding to the receiving groove (126), and at least a portion of the protrusion (141) extends into the receiving groove (126).

13. A dispensing machine comprising: feeding assembly (60), characterized in that the feeding assembly (60) is a feeding assembly according to any of claims 1 to 12.

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