CN111642589A - Material compression molding equipment - Google Patents

Abstract

The application belongs to the technical field of automatic covering film of packaging film, especially relates to a material compression moulding equipment. The material pressing device comprises a rotary table, a feeding mechanism, a discharging mechanism and a pressing assembly, wherein the pressing assembly comprises a plurality of pressing cavities which are in one-to-one correspondence, the pressing cavities extend into the pressing cavities from the upper sides of the pressing cavities, and the pressing cavities rotate along with the rotary table and rotate to the discharging mechanism from the feeding mechanism, and the pressing assembly gradually moves downwards to press and form materials in the corresponding pressing cavities. Through the removal mode of revolving stage formula for a plurality of presses into the die cavity and can simultaneous working, and utilize the pressing subassembly, will correspond the material that presses into the die cavity along with revolving stage pivoted in-process and press the shaping gradually, and cooperation pan feeding mechanism and discharge mechanism realize continuous automatic press working, whole journey need not artifical the participation, and a plurality of presses into the die cavity and processes respectively in addition, improve work efficiency greatly.

Description

Material compression molding equipment

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of automatic film covering of packaging films, and particularly relates to material compression molding equipment.

[ background of the invention ]

Some bulk materials are compressed before being packaged, for example, tea leaves, which are then packaged by pressing the tea leaves into a cake.

The existing bulk tea pressing generally adopts a tea pressing machine, the tea is placed in a cavity, the pressure head repeatedly presses the tea to the cavity so as to finally press and form the bulk tea, and then the press-formed tea is taken out and then the bulk tea is put into the cavity again to continue pressing and processing. The mode is not only low in efficiency, but also only can press one finished product at a time, and the finished product needs to be replaced manually, so that continuous processing cannot be realized.

[ summary of the invention ]

The invention provides material pressing forming equipment, which aims to solve the problem that a medium-pressure tea machine in the prior art is low in efficiency.

The invention is realized by the following technical scheme:

a material compression molding device comprises a frame and a pressing mechanism arranged on the frame;

the periphery of the rotary table is provided with a plurality of pressing cavities which are distributed circumferentially and have openings facing the peripheral surface;

the feeding mechanism is positioned on one side of the rotary table and used for feeding the material to be pressed into the pressing forming cavity opposite to the rotary table;

the discharging mechanism is positioned on one side of the rotary table and used for pushing out the materials which are subjected to compression molding in the compression molding cavity;

and the pressing assemblies comprise a plurality of pressing forming cavities which are in one-to-one correspondence, extend into the pressing forming cavities from the upper parts of the pressing forming cavities, and gradually move downwards to press and form the materials in the corresponding pressing forming cavities along with the rotation of the rotary table and the rotation of the pressing forming cavities from the feeding mechanism to the discharging mechanism.

The material compression molding equipment further comprises a guide piece arranged on the rack and used for enabling the pressing assembly to gradually move downwards to a compression molding position in the rotating process of the rotary table.

According to the material compression molding equipment, the compression assembly comprises a compression rod, a compression head which is arranged on the lower side of the compression rod and is matched with the width of a compression molding cavity, and a guide seat which is arranged on the compression rod and can drive the compression rod to move up and down.

According to the material compression molding equipment, the guide piece is provided with the inclined guide groove which gradually extends downwards from the feeding mechanism to the discharging mechanism, and the guide seat is provided with the guide piece which extends into the inclined guide groove.

According to the material compression molding equipment, the rotary table is further provided with the rotary frame which rotates along with the rotary table, the rotary frame is provided with the plurality of vertical frames along the periphery of the rotary frame, the guide seat is movably arranged on the vertical frames, and the rotary frame is provided with the through hole for the pressing rod to pass through.

According to the material compression molding equipment, the compression bar comprises the outer sleeve connected with the guide seat and the inner pipe arranged in the outer sleeve and capable of moving relative to the outer sleeve, and the pressure head is connected to the lower end of the inner pipe.

The material compression molding equipment comprises a material feeding mechanism, a material discharging mechanism and a material pressing mechanism, wherein the material feeding mechanism comprises a pushing driver and a pushing head, the pushing driver is located above the pressing assembly, the pushing head is arranged at the lower end of the pushing driver and driven by the pushing driver to move up and down, a discharging opening communicated with the lower end of a compression molding cavity opposite to the material feeding mechanism is arranged on the machine frame, and the pushing head drives the inner pipe to move down so as to push out the material in the compression molding cavity at the material discharging mechanism.

According to the material compression molding equipment, the pushing head is of a disc shape, the upper end of the inner pipe is connected with the clamping seat, the clamping seat is provided with the clamping groove with the opening facing the front end, and when the pressing assembly rotates to the discharging mechanism, the part of the pushing head extends outwards and falls into the clamping groove.

According to the material compression molding equipment, the discharging mechanism further comprises a material receiving assembly located below the discharging opening.

According to the material compression molding equipment, the frame is provided with the feeding port communicated with the circumferential opening of the compression molding cavity opposite to the feeding mechanism, and the feeding mechanism comprises the storage tray, a first material pushing device arranged in the storage tray and used for pushing materials to one side of the feeding port and a second material pushing device opposite to the feeding port.

Compared with the prior art, the invention has the following advantages:

1. the invention provides material compression molding equipment, which enables a plurality of compression molding cavities to work simultaneously in a turntable type moving mode, utilizes a compression assembly to gradually compress and mold materials which correspond to the compression molding cavities in the process of rotating along with a turntable, and is matched with a feeding mechanism and a discharging mechanism to realize continuous automatic compression processing without manual participation in the whole process, and the plurality of compression molding cavities are processed respectively, thereby greatly improving the working efficiency.

2. According to the material compression molding equipment, the guide piece is arranged, the guide seat is matched to realize automatic compression of the compression assembly in the rotating process, the compression assembly is gradually pressed downwards, the simple structure improves the compression effect, and similarly, the compression assembly after compression can be automatically reset, and the compression assembly returns to the initial position again in the process of returning to the feeding mechanism from the discharging mechanism, so that repeated processing is realized.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a material press forming apparatus according to the present invention;

FIG. 2 is an exploded view of a material press-forming apparatus according to the present invention;

FIG. 3 is an exploded view of a material press-forming apparatus according to the present invention;

FIG. 4 is a cross-sectional view A-A of FIG. 1;

fig. 5 is an exploded view of the structure of the hold-down assembly.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention is realized by the following technical scheme:

as shown in fig. 1 to 5, a material press forming apparatus includes a frame 1 and a pressing roller disposed on the frame 1; the periphery of the rotary table 2 is provided with a plurality of pressing cavities 201 which are distributed circumferentially and have openings facing the peripheral surface; the feeding mechanism 3 is positioned on one side of the rotary table 2 and used for feeding the material to be pressed into the pressing cavity 201 opposite to the rotary table; the discharging mechanism 4 is positioned on one side of the rotary table 2 and used for pushing out the material which is pressed and molded in the cavity 201; the pressing assemblies 5 comprise a plurality of pressing cavities 201 which correspond to the pressing cavities one by one, the pressing assemblies extend into the pressing cavities 201 from the upper portions of the pressing cavities 201, and the pressing assemblies 5 gradually move downwards to press and form materials corresponding to the pressing cavities 201 in the process that the pressing cavities 201 rotate from the feeding mechanism 3 to the discharging mechanism 4 along with the rotation of the rotary table 2. The invention provides material compression molding equipment, which enables a plurality of compression molding cavities to work simultaneously in a turntable type moving mode, utilizes a compression assembly to gradually compress and mold materials which correspond to the compression molding cavities in the process of rotating along with a turntable, and is matched with a feeding mechanism and a discharging mechanism to realize continuous automatic compression processing without manual participation in the whole process, and the plurality of compression molding cavities are processed respectively, thereby greatly improving the working efficiency.

Further, the device also comprises a guide piece 6 which is arranged on the frame 1 and is used for enabling the pressing component 5 to gradually move downwards to a pressing forming position in the rotating process of the rotary table 2. The guide piece 6 is utilized to enable the pressing component 5 to be pressed down or moved up according to a specified distance in the rotating process, so that the pressing component 5 is located at the highest initial position at the feeding mechanism, and is located at the lowest press forming position at the discharging mechanism 4, and in the process of the two positions, the pressing component is gradually and gradually pressed down along with the rotary table, and the effect of pressing material forming is improved. And in the same way, the automatic resetting of the pressed component can be realized, so that the pressed component returns to the initial position again in the process of returning to the feeding mechanism from the discharging mechanism, and the repeated processing is realized.

Specifically, the pressing assembly 5 includes a pressing rod 51, a pressing head 52 disposed at the lower side of the pressing rod 51 and matched with the width of the pressing cavity 201, and a guide seat 53 disposed on the pressing rod 51 and capable of driving the pressing rod 51 to move up and down. The size of the pressure head is matched with the width of the manufactured cavity 201, so that the loose tea can be completely pressed in the process of pressing the loose tea downwards, and the tea pressing machine is simple in structure and easy to realize.

In addition, an inclined guide groove 61 extending downwards from the feeding mechanism 3 to the discharging mechanism 4 is formed in the guide piece 6, and a guide piece extending into the inclined guide groove 61 is arranged on the guide seat 53. In order to accommodate the manner of rotary table transport, the guide member 6 in this embodiment also has a circumferential surface, and the oblique guide groove 61 is provided along the circumferential surface thereof. The guide part can be realized by rolling parts such as rollers and bearings which extend into the grooves, so that when the pressing component rotates along with the circular table, the guide part moves along the oblique guide groove 61, and the guide seat 53 drives the pressing rod 51 to move downwards for pressing or move upwards for resetting.

Still further, a rotating frame 21 rotating along with the rotating frame is further arranged on the rotating table 2, a plurality of vertical frames 22 are arranged on the rotating frame 21 along the periphery of the rotating frame, the guide seat 53 is movably arranged on the vertical frames 22, and a through hole for the compression bar 51 to pass through is arranged on the rotating frame 21. The structure is simple, and the pressing component is arranged on the vertical frame 22 of the rotating frame 21, so that the pressing component can be driven to synchronously rotate along with the rotating table 2.

Still further, the concrete structure of depression bar does: the pressing rod 51 includes an outer tube 511 connected to the guide base 53, and an inner tube 512 disposed in the outer tube 511 and movable relative to the outer tube 511, and the pressing head 52 is connected to a lower end of the inner tube 512. That is, the guide base 53 drives the outer sleeve 511 to move down, and simultaneously, the pressure head at the lower end of the outer sleeve 511 and the inner pipe move down together, and through the structure of the inner pipe, the inner pipe and the pressure head can move down relative to the outer sleeve independently, so that the downward movement of the pressure head can be realized through different parts. Thereby providing a choice for subsequent functions.

For example, when the compression molding needs the ejection of compact, just make the pressure head move down through only driving the inner tube, extrude the finished product out the compression molding chamber, its concrete structure is: the discharging mechanism 4 comprises a pushing driver 41 located above the pressing component 5 and a pushing head 42 arranged at the lower end of the pushing driver 41 and driven by the pushing driver 41 to move up and down, a discharging opening communicated with the lower end of the pressing forming cavity 201 located opposite to the discharging mechanism 4 is formed in the rack 1, and the pushing head 42 drives the inner tube 512 to move down so as to push out the material in the pressing forming cavity 201 located at the discharging mechanism 4. Thus, when the pressing component moves to the discharging mechanism, the pushing head 42 above the pressing component is matched with the inner pipe, the pushing head is driven to move downwards by the pushing driver 41, and the discharging effect can be realized, and at the moment, the guide seat and the outer sleeve do not need to move. In this embodiment, the pushing driver 41 can be implemented by a motor or an air cylinder.

Specifically, the pusher 42 is a circular disk, the upper end of the inner tube 512 is connected with a clamping seat 512a, the clamping seat 512a is provided with a clamping groove 512b with an opening facing the front end, and when the pressing assembly 5 rotates to the discharging mechanism 4, part of the outer extension of the pusher 42 falls into the clamping groove 512 b. Through the cooperation of draw-in groove and pressure head epitaxy, not only can make the inner tube drive the relative outer tube of pressure head and remove, thereby still can realize pushing away the head and drive the inner tube rebound and realize the restoration of pressure head, prepare for follow-up continuous processing.

Of course, in order to prevent the pressure head from separating from the outer sleeve when the pressure head rotates along with the turntable, the pressure head can have certain force limited on the outer sleeve in a magnetic suction mode, and the pressure head can only be free from the constraint force when the inner pipe is driven to move downwards.

In addition, the material that is discharged the back and is carried away or collect through the collecting box by the conveying area by the press forming, and for tealeaves, generally still need pack, so this scheme discharge mechanism 4 still include be located the discharge opening below connect the material subassembly 401. Utilize tealeaves packagine machine to connect material and this scheme to be connected, realize tealeaves from in bulk to the suppression, to the full automated production process of packing to improve production efficiency greatly.

Still further, a feeding port communicated with a circumferential opening of the press forming cavity 201 opposite to the feeding mechanism 3 is arranged on the frame 1, and the feeding mechanism 3 includes a storage tray 31, a first material pushing device 32 arranged in the storage tray 31 and used for pushing the material to one side of the feeding port, and a second material pushing device 33 opposite to the feeding port. Specifically, the first material pushing device 32 comprises a driver and a push plate 321 which is matched with the width of the inner cavity of the material storage disc 31, a gap which is consistent with the width of the pressing molding cavity 201 is reserved between the maximum pushing position of the push plate and the side plate 311 of the material storage disc 31, so that the bulk tea leaves in the material storage disc 31 are all pushed out to the gap after being pushed out once, the second material pushing device 33 comprises a second driver and a push block 331, the width of the push block is consistent with the width of the gap, the height of the push block is consistent with the height of the material inlet or the pressing molding cavity 201, and the tea leaves in the gap are all pushed into the pressing molding cavity 201 from the material inlet through the push block 331.

The working principle is as follows:

in the scheme, the turntable 2 can be controlled to rotate step by adopting a stepping motor, after the first material pushing device 32 pushes out all the bulk tea leaves in the material storage disc 31 into the gap opposite to the material inlet, the second material pushing device 33 pushes all the tea leaves in the gap into the pressing cavity 201 from the material inlet, at the moment, the turntable 2 rotates once, namely the pressing cavity 201 which is just fed rotates one station, the other pressing cavity 201 rotates to be opposite to the material inlet, and the steps are repeated to feed the tea leaves; and the rotated pressing cavity 201 is pressed once due to the downward movement of the pressing head of the pressing component, and similarly, the pressing component descends a distance again after the turntable rotates once again, so that the material is pressed again until finally rotating to the discharging mechanism, and the pressing is completed and pushed out by the discharging mechanism.

The invention provides material compression molding equipment, which enables a plurality of compression molding cavities to work simultaneously in a turntable type moving mode, utilizes a compression assembly to gradually compress and mold materials which correspond to the compression molding cavities in the process of rotating along with a turntable, and is matched with a feeding mechanism and a discharging mechanism to realize continuous automatic compression processing without manual participation in the whole process, and the plurality of compression molding cavities are processed respectively, thereby greatly improving the working efficiency.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the practice of the invention to the particular forms disclosed. Similar or identical methods, structures and the like, or several technical deductions or substitutions on the premise of the conception of the invention, are considered to be the protection scope of the invention.

Claims (10)

1. The material compression molding equipment is characterized by comprising a rack (1) and a pressing device arranged on the rack (1);

the periphery of the rotary table (2) is provided with a plurality of pressing cavities (201) which are distributed circumferentially and have openings facing the circumferential surface;

the feeding mechanism (3) is positioned on one side of the rotary table (2) and is used for feeding the material to be pressed into the pressing forming cavity (201) opposite to the rotary table;

the discharging mechanism (4) is positioned on one side of the rotary table (2) and used for pushing out the materials which are pressed and molded in the pressing and molding cavity (201);

pressing assembly (5), including a plurality of and with press forming cavity (201) one-to-one, follow press forming cavity (201) top stretches into in press forming cavity (201), and follows revolving stage (2) rotate, press forming cavity (201) rotate to discharge mechanism (4) in-process from pan feeding mechanism (3), pressing assembly (5) move down gradually will correspond the material press forming in the press forming cavity (201).

2. A material press forming apparatus according to claim 1, further comprising a guide (6) provided on the frame (1) for gradually moving the press assembly (5) down to the press forming position during rotation of the turntable (2).

3. The material compression molding equipment according to claim 2, wherein the pressing assembly (5) comprises a pressing rod (51), a pressing head (52) which is arranged at the lower side of the pressing rod (51) and is matched with the width of the pressing cavity (201), and a guide seat (53) which is arranged on the pressing rod (51) and can drive the pressing rod (51) to move up and down.

4. A material press forming apparatus according to claim 3, wherein the guide member (6) is provided with an inclined guide groove (61) extending gradually downward from the material inlet mechanism (3) to the material outlet mechanism (4), and the guide seat (53) is provided with a guide member extending into the inclined guide groove (61).

5. A material press forming apparatus according to claim 3, wherein the rotary table (2) is further provided with a rotary frame (21) rotating together with the rotary table, the rotary frame (21) is provided with a plurality of vertical frames (22) along the periphery thereof, the guide seat (53) is movably arranged on the vertical frames (22), and the rotary frame (21) is provided with a through hole for the compression rod (51) to pass through.

6. A material press forming apparatus according to claim 3, wherein the pressing rod (51) comprises an outer sleeve (511) connected to the guide base (53), an inner tube (512) disposed inside the outer sleeve (511) and movable relative to the outer sleeve (511), and the pressing head (52) is connected to a lower end of the inner tube (512).

7. The material compression molding device according to claim 6, wherein the discharging mechanism (4) comprises a pushing driver (41) located above the pressing assembly (5) and a pushing head (42) arranged at the lower end of the pushing driver (41) and driven by the pushing driver (41) to move up and down, a discharging opening communicated with the lower end of the compression molding cavity (201) located opposite to the discharging mechanism (4) is arranged on the machine frame (1), and the pushing head (42) drives the inner tube (512) to move down so as to push out the material in the compression molding cavity (201) located at the discharging mechanism (4).

8. The material compression molding equipment according to claim 7, wherein the pushing head (42) is of a disc shape, a clamping seat (512a) is connected to the upper end of the inner pipe (512), a clamping groove (512b) with an opening facing to the front end is formed in the clamping seat (512a), and when the pressing assembly (5) rotates to the discharging mechanism (4), part of the pushing head (42) extends outwards and falls into the clamping groove (512 b).

9. A material briquetting apparatus according to claim 7, characterized in that the discharge mechanism (4) further comprises a receiving assembly (401) located below the discharge opening.

10. The material press forming device according to claim 1, wherein the machine frame (1) is provided with a feeding port communicated with a circumferential opening of the press forming cavity (201) opposite to the feeding mechanism (3), and the feeding mechanism (3) comprises a storage tray (31), a first material pushing device (32) arranged in the storage tray (31) and used for pushing the material to one side of the feeding port, and a second material pushing device (33) opposite to the feeding port.

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