CN218574297U - Material feeding and distributing equipment - Google Patents

Abstract

The utility model relates to an industrial automation technical field especially relates to a feed distribution equipment, including the vibration dish, the rigid coupling has the pan feeding slope on the vibration dish, and the rigid coupling has first feed mechanism on the pan feeding slope, and pan feeding slope bottom one side rigid coupling has second feed mechanism, and second feed mechanism includes that the nut collects the box, and the nut is collected box bottom rigid coupling and is had nut feed divider. The utility model discloses can reach the automatic nut with each specification and carry out categorised purpose.

Description

Material feeding and distributing equipment

Technical Field

The utility model relates to an industrial automation technical field especially relates to a feed divides material equipment.

Background

The gasket, the nut, the screw, pin and tensile wire nut belong to the metal accessories commonly used in the engineering, packing, commodity circulation or recovery back in the transportation process, often be unordered mixed state of putting, if classify the gasket, the nut, the screw, pin and tensile wire nut etc. metal accessories commonly used, still need the manual work to roughly sort, can consume a large amount of manpowers like this, and sorting efficiency is extremely low, the staff still appears the condition of being pricked by metal accessories sometimes, present metal part material loading feed divider can not classify mixed parts yet, and can't realize classifying according to different specifications to the nut of various specifications, still need artifical the participation. Therefore, a feeding and distributing device is needed to solve the problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feed divides material equipment to solve above-mentioned problem, reach the automatic nut with each specification and carry out categorised purpose.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides a feed distribution equipment, includes the vibration dish, the rigid coupling has the pan feeding slope on the vibration dish, the rigid coupling has first feed mechanism on the pan feeding slope, pan feeding slope bottom one side rigid coupling has second feed mechanism, second feed mechanism includes that the nut collects the box, the box bottom rigid coupling is collected to the nut has nut feed divider.

Preferably, nut feed divider includes the bottom plate, bottom plate top one side can be dismantled and be connected with the categorised box of collecting, be equipped with a plurality of baffles in the categorised box of collecting, bottom plate center rigid coupling has the stand, stand top rigid coupling has the center of buckle closure, the stand middle part rotates and is connected with the carousel, the buckle closure with the coaxial setting of carousel, the buckle closure is close to categorised box one end of collecting has seted up the echelonment fluting, carousel transmission is connected with first drive division, first drive division with bottom plate top rigid coupling, the bottom plate is kept away from categorised box one end rigid coupling has the spliced pole that the bisymmetry set up, two the rigid coupling has the pay-off subassembly on the spliced pole, the pay-off subassembly with box bottom rigid coupling is collected to the nut.

Preferably, the feeding assembly comprises a feeding box, the top of one end of the feeding box is fixedly connected with the bottom of the nut collecting box, the bottom surface of the inner part of the feeding box and the top surface of the rotary disc are arranged in a coplanar manner, and one end, far away from the rotary disc, of the feeding box is slidably connected with a material pushing part.

Preferably, the material pushing portion comprises an inclined plate, pin shafts penetrate through two ends of the inclined plate respectively, the inclined plate is rotatably connected with the pin shafts, two ends of the pin shafts are slidably connected with two inner side walls of the feeding box respectively, the bottom of the inclined plate is hinged with a movable end of an electric push rod, and a fixed end of the electric push rod is fixedly connected with the inner wall of the feeding box.

Preferably, the first driving part comprises a driven gear, the driven gear is fixedly connected with the bottom of the rotary table, the driven gear is coaxially arranged with the rotary table, the driven gear is connected with a driving gear in a meshed manner, a central shaft of the driving gear is connected with an output shaft of a driving motor, and the bottom of the driving motor is fixedly connected with the bottom plate.

Preferably, the first distributing mechanism comprises a first distributing portion, an annular mast and a third distributing portion, the first distributing portion, the annular mast and the third distributing portion are sequentially arranged along the discharging direction, one end of the first distributing portion is fixedly connected with one end of the annular mast, the third distributing portion is located at the other end of the annular mast, the annular mast is coaxially arranged with the feeding slope, the bottom of the third distributing portion is fixedly connected with the top of the feeding slope, and the third distributing portion is coaxially arranged with the feeding slope.

Preferably, first depiler includes first striker plate, first striker plate bottom with pan feeding slope top rigid coupling, first striker plate with the coaxial setting in pan feeding slope, first striker plate one end bottom is equipped with first trompil, first trompil one side is provided with the gasket and collects the box, the gasket collect the box with pan feeding slope bottom rigid coupling, first striker plate one end with the one end rigid coupling of annular mast.

Preferably, the third material distributing portion comprises a second slope, the second slope is fixedly connected with the top of the feeding slope, the second slope and the feeding slope are coaxially arranged, a second material blocking plate is fixedly connected to the top of the second slope and located on the inner side of the annular mast, a gap is formed between the second material blocking plate and the annular mast, and the second material blocking plate and the feeding slope are coaxially arranged.

The utility model discloses has following technological effect: during the use, to mix metal accessories (hereinafter referred to as the mixing part) such as gasket together, the nut, the screw, pin and pulling force silk nut and place in the vibration dish, under the vibration dish drive, the mixing part gets into the pan feeding slope, divide the material through first feed mechanism, the nut that divides after the material falls into the nut feed divider of nut collection box bottom, divide the material with the nut of each specification through nut feed divider, realized mixing part's branch material and made the nut of each specification distinguish according to different specifications, whole process need not artifical the participation, use manpower sparingly greatly, the efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 2 according to the present invention;

fig. 4 is a schematic structural view of the nut distributing device of the present invention;

fig. 5 is a top view of the structure of the nut distributing device of the present invention;

FIG. 6 isbase:Sub>A cross-sectional view of the structure of FIG. 5 taken along line A-A;

FIG. 7 is a cross-sectional view of the structure of FIG. 5 taken along line B-B in accordance with the present invention;

fig. 8 is a sectional view of the structure of the nut distributing device of the present invention;

wherein, 1, feeding a slope; 2. a first striker plate; 3. an annular mast; 4. a second material baffle plate; 5. a second slope; 6. a nut collection box; 7. a gasket collection box; 8. a nut distributing device; 9. a second opening; 10. a first opening; 801. a base plate; 802. a classified collection box; 803. a turntable; 804. covering; 805. a drive gear; 806. a drive motor; 807. feeding a material box; 808. an electric push rod; 809. a sloping plate; 810. a first chute; 811. a second chute; 812. a column; 813. a driven gear; 814. connecting columns.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description.

Referring to fig. 1-8, the utility model provides a feed distribution equipment, including the vibration dish, the rigid coupling has pan feeding slope 1 on the vibration dish, and the rigid coupling has first feed mechanism on pan feeding slope 1, and 1 bottom one side rigid coupling in pan feeding slope has second feed mechanism, and second feed mechanism includes that the nut collects box 6, and 6 bottom rigid couplings in nut collection box have nut feed divider 8.

During the use, to mix metal accessories (hereinafter referred to as mixing part) such as gasket together, the nut, the screw, pin and pulling force silk nut and place in vibration dish (not drawn in the picture), under the vibration dish drive, mixing part gets into pan feeding slope 1, divide the material through first feed mechanism, the nut feed divider 8 of nut collection box 6 bottom is fallen into to the nut after dividing the material, divide the material through the nut feed divider 8 with the nut of each specification, realized mixing part's branch material and made the nut of each specification distinguish according to different specifications, whole process need not artifical the participation, greatly use manpower sparingly, and the efficiency is improved.

The feeding slope 1 is obliquely arranged, and the inner ring of the feeding slope 1 is slightly higher than the outer ring, so that the mixed part is convenient to cling to the inner wall of the first distributing mechanism under the action of gravity.

The vibrating disk is preferably a CVT-P-1 type vibrating disk.

Further optimization scheme, nut feed divider 8 includes bottom plate 801, bottom plate 801 top one side can be dismantled and be connected with categorised collection box 802, be equipped with a plurality of baffles in the categorised collection box 802, bottom plate 801 center rigid coupling has stand 812, stand 812 top rigid coupling has the center of buckle closure 804, stand 812 middle part rotates and is connected with carousel 803, buckle closure 804 and carousel 803 coaxial arrangement, buckle closure 804 is close to categorised collection box 802 one end and has seted up the echelonment fluting, carousel 803 transmission is connected with first drive division, first drive division and bottom plate 801 top rigid coupling, bottom plate 801 keeps away from categorised collection box 802 one end rigid coupling has spliced pole 814 that the bisymmetry set up, the rigid coupling has the pay-off subassembly on two spliced poles 814, the pay-off subassembly collects box 6 bottom rigid coupling with the nut.

The feeding assembly is arranged on one side of the top of the bottom plate 801 fixedly connected, and the mixed nuts enter the feeding assembly through the bottom of the nut collecting box 6 and then enter the rotary table 803 for classification.

One side of the top of the bottom plate 801 is detachably connected with the classification collection box 802 through a sliding groove, so that the classification collection box 802 can be separated from the bottom plate 801 after the nuts of various specifications are collected, the transfer of the nuts of various specifications is facilitated, a plurality of partition plates are arranged in the classification collection box 802, the number of the partition plates can be set according to the specification types of the nuts, the center of the bottom plate 801 is fixedly connected with a stand column 812, the top of the stand column 812 is fixedly connected with the center of a buckle cover 804, one end, close to the classification collection box 802, of the buckle cover 804 is provided with a step-shaped groove, the heights of the grooves of various specifications are sequentially increased, the nuts of various specifications have different heights, the nuts with larger sizes have higher heights, when the mixed nuts fall into a rotary table 803, the rotary table 803 is driven to rotate by a first driving part, the mixed nuts move towards the side wall of the buckle cover 804 under the action of centrifugal force, the step-shaped grooves are sequentially formed on one side, the nuts close to the classification collection box 802 through the buckle cover 804, the nuts are sequentially thrown out to the classification collection box 802 through the lower grooves according to different heights, and the number of the partition plates of the classification collection box 802 is 1 step-shaped grooves.

According to the further optimized scheme, the feeding assembly comprises a feeding box 807, the top of one end of the feeding box 807 is fixedly connected with the bottom of the nut collecting box 6, the bottom surface of the inner part of the feeding box 807 and the top surface of the rotary disc 803 are arranged in a coplanar manner, and one end, far away from the rotary disc 803, of the feeding box 807 is slidably connected with a material pushing part.

Further optimize the scheme, material pushing portion includes swash plate 809, and the round pin axle has been run through respectively at the both ends of swash plate 809, and swash plate 809 rotates with the round pin axle to be connected, and the both ends of round pin axle respectively with the inside both sides wall sliding connection of pan feeding box 807, the bottom of swash plate 809 articulates there is the expansion end of electric putter 808, the stiff end and the pan feeding box 807 inner wall rigid coupling of electric putter 808.

A first sliding groove 810 and a second sliding groove 811 are arranged on two side walls inside the feeding box 807, the first sliding groove 810 and the second sliding groove 811 are vertically arranged in space, an inclined plate 809 is rotatably connected with a pin shaft, the pin shaft at one end of the inclined plate 809 is slidably connected with the first sliding groove 810, the pin shaft at the other end of the inclined plate 809 is slidably connected with the second sliding groove 811, the bottom of the inclined plate 809 is hinged with the movable end of an electric push rod 808, when the electric push rod 808 pushes the inclined plate 808 to horizontally move, the pin shaft at one end of the inclined plate 809 moves along the second sliding groove 811, the other end of the inclined plate 809 moves along the first sliding groove 810, at the moment, an included angle between the inclined plate 809 and the top surface of the feeding box 807 changes, when the inclined plate 809 inclines, a mixing nut conveniently slides into the rotating disc 803 along the inclined plate 809, and when the inclined plate 809 is gradually horizontal, the inclined plate 809 pushes a nut which does not enter the rotating disc 803 to enter the rotating disc 803.

According to a further optimized scheme, the first driving portion comprises a driven gear 813, the driven gear 813 is fixedly connected with the bottom of the rotary table 803, the driven gear 813 is coaxially arranged with the rotary table 803, the driven gear 813 is connected with a driving gear 805 in a meshed mode, the central shaft of the driving gear 805 is connected with an output shaft of a driving motor 806, and the bottom of the driving motor 806 is fixedly connected with the bottom plate 801.

Further optimize the scheme, first feed mechanism includes first branch material portion, annular mast 3 and third branch material portion, first branch material portion, annular mast 3 and third branch material portion set gradually along ejection of compact direction, the one end of first branch material portion and the one end rigid coupling of annular mast 3, third branch material portion is located the other end of annular mast 3, annular mast 3 sets up with pan feeding slope 1 is coaxial, the bottom and the pan feeding slope 1 top rigid coupling of third branch material portion, third branch material portion and pan feeding slope 1 are coaxial.

After the mixed parts enter the first material distributing mechanism, the mixed parts are firstly classified according to the types of different parts, the gasket is separated from other parts through the first material distributing part, the screw and the nut are separated from other parts after passing through the annular mast 3, and the tension wire nut is separated from other parts through the third material distributing part.

Further optimization scheme, first minute material portion includes first striker plate 2, and 2 bottoms of first striker plate and 1 top rigid couplings in pan feeding slope, first striker plate 2 and 1 coaxial settings in pan feeding slope, and 2 one end bottoms of first striker plate are equipped with first trompil 10, and first trompil 10 one side is provided with gasket collection box 7, and box 7 and 1 bottom rigid couplings in pan feeding slope are collected to the gasket, and 2 one end rigid couplings in first striker plate and the one end rigid coupling of annular mast 3.

Mixed part gets into first branch material portion through the vibration dish, because high outer low in pan feeding slope 1, mixed part hugs closely 2 lateral walls of first striker plate and removes, 2 one end bottoms of first striker plate are equipped with first trompil 10, first trompil 10 highly is less than the nut, part height such as screw, avoid the nut, parts such as screw pass through, and first trompil 10 highly is a little higher than the gasket height, make mixed part when removing along 2 lateral walls of first striker plate, the gasket passes through first trompil 10 and other parts separation.

The side wall of the nut collecting box 6 is also provided with a second open hole 9, and a gasket entering the nut collecting box 6 during material distribution can be separated from a nut in the nut collecting box 6 through the second open hole 9.

When nut and screw pass through annular mast 3, the height when annular mast 3 and pan feeding slope 1 top surface distance is a little higher than the nut horizontal state is nevertheless less than the nut height of screw, because the screw still has the long handle, make nut one end of screw often present vertical state, set up like this and make the nut can pass through the gap between annular mast 3 and pan feeding slope 1, and the screw can block between annular mast 3 and pan feeding slope 1, make the screw can continue to remove along annular mast 3, and then realize the separation of screw and nut.

According to the further optimization scheme, the third material distribution part comprises a second slope 5, the second slope 5 is fixedly connected with the top of the feeding slope 1, the second slope 5 is coaxially arranged with the feeding slope 1, a second material blocking plate 4 is fixedly connected with the top of the second slope 5, the second material blocking plate 4 is located on the inner side of the annular mast 3, a gap is formed between the second material blocking plate 4 and the annular mast 3, and the second material blocking plate 4 is coaxially arranged with the feeding slope 1.

Second fender board 4 is located annular mast 3 inboard, and the screw can be followed the clearance between second fender board 4 and the annular mast 3 and shifted out, and the tension wire nut size is great, and it moves on second slope 5 along 4 inner walls of second fender board, and the width on second slope 5 can only hold a tension wire nut process at every turn, after the tension wire nut passes through second slope 5, has accomplished the classification of hybrid component promptly.

The utility model discloses a working process as follows: during the use, the gasket that will mix together, the nut, the screw, metal accessories (hereinafter referred to as mixing element) such as pin and lag wire nut are placed in vibration dish (not drawn), under the drive of vibration dish, mixing element gets into pan feeding slope 1, because pan feeding slope 1 interior height is outer low, mixing element hugs closely 2 lateral walls of first striker plate and moves, 2 one end bottoms of first striker plate are equipped with first trompil 10, first trompil 10 highly is less than the nut, part height such as screw, avoid the nut, parts such as screw pass through, and first trompil 10 is highly a little higher than the gasket height, make mixing element when moving along 2 lateral walls of first striker plate, the gasket separates with other parts through first trompil 10.

The side wall of the nut collecting box 6 is also provided with a second open hole 9, and a gasket entering the nut collecting box 6 can be separated from the nut in the nut collecting box 6 through the second open hole 9 during material distribution.

When nut and screw pass through annular mast 3, the height when annular mast 3 and pan feeding slope 1 top surface distance is a little higher than the nut horizontal state is nevertheless less than the nut height of screw, because the screw still has the long handle, make nut one end of screw often present vertical state, set up like this and make the nut can pass through the gap between annular mast 3 and pan feeding slope 1, and the screw can block between annular mast 3 and pan feeding slope 1, make the screw can continue to remove along annular mast 3, and then realize the separation of screw and nut.

The nuts after being distributed fall into a feeding box 807 at the bottom of a nut collecting box 6, two side walls inside the feeding box 807 are respectively provided with a first sliding groove 810 and a second sliding groove 811, the first sliding groove 810 and the second sliding groove 811 are arranged in a vertical space, two ends of an inclined plate 809 penetrate through pin shafts respectively, the inclined plate 809 is rotatably connected with the pin shafts, two ends of the pin shaft at one end of the inclined plate 809 are respectively in sliding connection with the two first sliding grooves 810, two ends of the pin shaft at the other end of the inclined plate 809 are respectively in sliding connection with the two second sliding grooves 811, the bottom of the inclined plate 809 is hinged with the movable end of an electric push rod 808, when the electric push rod 808 pushes the inclined plate 809 to move horizontally, the pin shaft at one end of the inclined plate 809 moves along the second sliding grooves 811, the other end of the inclined plate 809 moves along the first sliding grooves 810, at the moment, an included angle between the inclined plate 809 and the top surface of the feeding box 807 changes, when the inclined plate 809 inclines, the nut which is convenient to slide into a rotary disc 803 along the inclined plate 809, and when the inclined plate 809 gradually levels, one end of the inclined plate 809 pushes the nut which does not enter the rotary disc 803 to enter into the rotary disc 803 to enter the rotary disc 803.

The driving motor 806 drives the gear 805 to rotate, so that the driven gear 813 meshed with the driving gear 805 drives the turntable 803 to rotate, the mixing nut moves towards the side wall of the buckle cover 804 under the action of centrifugal force, stepped slots are formed in one side, close to the classified collection box 802, of the buckle cover 804 in sequence, the nut is thrown out of the classified collection box 802 from the lower slots in sequence according to different heights of the nut, the material distribution of the mixing parts is achieved, and the nuts of various specifications are distinguished according to different specifications.

Second fender board 4 is located annular mast 3 inboard, and the screw can be followed the clearance between second fender board 4 and the annular mast 3 and shifted out, and the tension wire nut size is great, and it moves on second slope 5 along 4 inner walls of second fender board, and the width on second slope 5 can only hold a tension wire nut process at every turn, after the tension wire nut passes through second slope 5, has accomplished the classification of hybrid component promptly.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (8)

1. The utility model provides a feed divides material equipment, includes vibration dish, its characterized in that: the vibration tray is fixedly connected with a feeding slope (1), the feeding slope (1) is fixedly connected with a first distributing mechanism, one side of the bottom of the feeding slope (1) is fixedly connected with a second distributing mechanism, the second distributing mechanism comprises a nut collecting box (6), and the bottom of the nut collecting box (6) is fixedly connected with a nut distributing device (8).

2. The feed distribution equipment of claim 1, characterized in that: nut feed divider (8) include bottom plate (801), bottom plate (801) top one side can be dismantled and be connected with categorised collection box (802), be equipped with a plurality of baffles in categorised collection box (802), bottom plate (801) center rigid coupling has stand (812), stand (812) top rigid coupling has the center of buckle closure (804), stand (812) middle part is rotated and is connected with carousel (803), buckle closure (804) with carousel (803) coaxial setting, buckle closure (804) are close to categorised collection box (802) one end has been seted up the echelonment fluting, carousel (803) transmission is connected with first drive division, first drive division with bottom plate (801) top rigid coupling, bottom plate (801) are kept away from categorised collection box (802) one end rigid coupling has spliced pole (814) that the bisymmetry set up, two the rigid coupling has the pay-off subassembly on spliced pole (814), the pay-off subassembly with box (6) bottom rigid coupling is collected to the nut.

3. The feed distribution equipment of claim 2, characterized in that: the feeding assembly comprises a feeding box (807), the top of one end of the feeding box (807) is fixedly connected with the bottom of the nut collecting box (6), the bottom surface of the inner part of the feeding box (807) is coplanar with the top surface of the rotary disc (803), and one end of the feeding box (807) far away from the rotary disc (803) is slidably connected with a material pushing part.

4. The feed distribution equipment of claim 3, wherein: the material pushing part comprises an inclined plate (809), pin shafts penetrate through two ends of the inclined plate (809) respectively, the inclined plate (809) is rotatably connected with the pin shafts, two ends of the pin shafts are slidably connected with two side walls inside the material feeding box (807) respectively, the bottom of the inclined plate (809) is hinged with a movable end of an electric push rod (808), and a fixed end of the electric push rod (808) is fixedly connected with the inner wall of the material feeding box (807).

5. The feed distribution equipment of claim 2, characterized in that: the first driving part comprises a driven gear (813), the driven gear (813) is fixedly connected with the bottom of the rotary table (803), the driven gear (813) is coaxially arranged with the rotary table (803), the driven gear (813) is in meshed connection with a driving gear (805), the central axis of the driving gear (805) is connected with an output shaft of a driving motor (806), and the bottom of the driving motor (806) is fixedly connected with the bottom plate (801).

6. The feed distribution equipment of claim 1, characterized in that: the first material distributing mechanism comprises a first material distributing portion, an annular mast (3) and a third material distributing portion, the first material distributing portion, the annular mast (3) and the third material distributing portion are sequentially arranged along the discharging direction, one end of the first material distributing portion is fixedly connected with one end of the annular mast (3), the third material distributing portion is located at the other end of the annular mast (3), the annular mast (3) is coaxially arranged with the feeding slope (1), the bottom of the third material distributing portion is fixedly connected with the top of the feeding slope (1), and the third material distributing portion is coaxially arranged with the feeding slope (1).

7. The feed distribution equipment of claim 6, wherein: first minute material portion includes first striker plate (2), first striker plate (2) bottom with pan feeding slope (1) top rigid coupling, first striker plate (2) with pan feeding slope (1) coaxial setting, first striker plate (2) one end bottom is equipped with first trompil (10), first trompil (10) one side is provided with gasket collection box (7), gasket collection box (7) with pan feeding slope (1) bottom rigid coupling, first striker plate (2) one end with the one end rigid coupling of annular mast (3).

8. The feed distribution equipment of claim 6, wherein: the third material dividing part comprises a second slope (5), the second slope (5) is fixedly connected with the top of the feeding slope (1), the second slope (5) is coaxially arranged with the feeding slope (1), a second material blocking plate (4) is fixedly connected with the top of the second slope (5), the second material blocking plate (4) is located on the inner side of the annular mast (3), a gap is formed between the second material blocking plate (4) and the annular mast (3), and the second material blocking plate (4) is coaxially arranged with the feeding slope (1).

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