CN115215002B

CN115215002B - Storage device is used in production of film master batch

Info

Publication number: CN115215002B
Application number: CN202211135189.6A
Authority: CN
Inventors: 徐国光; 王云梦; 孙正响; 芮珉翔
Original assignee: Changzhou Shujie Plastic Co ltd
Current assignee: Changzhou Shujie Plastic Co ltd
Priority date: 2022-09-19
Filing date: 2022-09-19
Publication date: 2023-02-17
Anticipated expiration: 2042-09-19
Also published as: CN115215002A

Abstract

The invention relates to a storage device for producing film master batches, which comprises: the device comprises a storage barrel, a feeding hole, a discharging hopper, a discharging part and a quantifying part, wherein the feeding hole is arranged at the top end of the outer wall of the storage barrel in a mirror image manner; a material passing plate is arranged at the bottom end inside the discharge hopper; wherein the quantitative part is pulled upwards and can be abutted against the bottom end of the outer wall of the material passing plate so that the raw materials can flow into the quantitative part; the quantitative part is stirred downwards and can be abutted against the bottom end in the discharging part, so that the raw materials can flow out of the quantitative part; when the storage cylinder is used, the raw materials can sequentially pass through the material passing plate, and then flow into between the discharging part and the quantifying part, so that the effect of discharging is achieved, and when the quantifying part is stirred upwards, the quantifying part can be supported on the outer wall of the material passing plate, so that the quantifying part can wrap the material passing hole, and the effect of taking the materials quantitatively is achieved.

Description

Storage device is used in production of film master batch

Technical Field

The invention relates to storage equipment, in particular to a storage device for producing film master batches.

Background

The master batch is a solid additive and is used for dyeing plastics or endowing the plastics with other characteristics such as texture and the like in the manufacturing process, wherein the master batch is called as a master batch, and the additive master batch is called as an additive master batch;

with the increasing requirements of food and the like on plastic film packaging, a multilayer co-extrusion composite film is further required to meet various use requirements, so that master batches are required to be used in the production process and the characteristics are achieved;

because the master batch need be deposited through strorage device when not using to prevent that the master batch from communicating with each other with the external world and appearing the risk of polluting, and when putting in the master batch at production film, often can't realize the ration and get the material, can't guarantee to put in quantity, consequently, need a neotype storage device for master batch production to replace.

Disclosure of Invention

The invention aims to provide a storage device for producing film master batches.

In order to solve the above technical problem, the present invention provides a storage device for producing a film master batch, comprising: the device comprises a storage barrel, a feeding hole, a discharging hopper, a discharging part and a quantifying part, wherein the feeding hole is arranged at the top end of the outer wall of the storage barrel in a mirror image manner; a material passing plate is arranged at the bottom end inside the discharge hopper; wherein the quantitative part is pulled upwards and can be abutted against the bottom end of the outer wall of the material passing plate, so that the raw material can flow into the quantitative part; the quantitative part is stirred downwards and can be abutted against the bottom end in the discharging part, so that the raw materials can flow out of the quantitative part.

Furthermore, the discharging part comprises a discharging barrel arranged at the bottom end of the discharging hopper and a detention barrel arranged at the bottom end of the discharging barrel, and the detention barrel is communicated with the discharging barrel; a detention opening is formed in the middle of the bottom end of the outer wall of the detention cylinder; a plurality of material through holes are annularly formed in the material through plate and are formed between the discharge barrel and the quantifying part; after the raw material passes through the plurality of through holes, the raw material can flow out of the retention opening.

Furthermore, the discharging part also comprises a cutting plate annularly arranged on the inner wall of the discharging barrel, and a torsion spring arranged between the outer wall of the cutting plate and the inner wall of the discharging barrel; wherein stir down the ration portion, ration portion can support the cutting board to make the cutting board radially expand the cutting raw materials.

Furthermore, the quantitative part comprises a quantitative cylinder arranged in the discharge cylinder, an external expanding ring arranged at the top end of the quantitative cylinder, and a deflector rod arranged on the outer wall of the quantitative cylinder, and the deflector rod can extend to the outside of the discharge cylinder; the deflector rod is pulled upwards, and the outer expanding ring can abut against the bottom end of the outer wall of the material passing plate, so that the outer expanding ring can wrap the material passing holes.

Further, a sealing cylinder is sleeved at the bottom end of the outer wall of the quantitative cylinder and communicated with the quantitative cylinder; the outer diameter of the sealing cylinder is larger than the inner diameter of the retention port; the deflector rod is pulled downwards, and the sealing cylinder can be abutted against the bottom end in the detention cylinder;

furthermore, a vertical groove is annularly formed in the middle of the inner wall of the quantitative cylinder; a wind instrument plate is arranged inside the vertical groove, and the cutting plate is suitable for penetrating through the wind instrument plate; wherein after the raw materials flow into the quantitative cylinder, the wind instrument plate can prevent the raw materials from flowing out.

Furthermore, the quantifying part also comprises a retaining ring arranged at the bottom end of the quantifying barrel; a pressing arc plate is arranged inside the sealing barrel, and a pressure spring is annularly arranged between the bottom end surface of the pressing arc plate and the inner wall of the sealing barrel; a telescopic ring groove is annularly formed in the bottom end of the outer wall of the quantitative cylinder, a telescopic spring is arranged inside the telescopic ring groove, and the sealing cylinder can extend into the telescopic ring groove and is fixedly connected with the telescopic spring; and the shifting rod is continuously shifted downwards, and the pressing arc plate can be unfolded, so that the raw materials can flow out from the retention port.

Further, an outward expanding ring spring is annularly arranged at the bottom end of the outer wall of the material passing plate, a plurality of arc-shaped plates are annularly arranged on the outer wall of the inner ring of the outward expanding ring spring, and the plurality of arc-shaped plates radially slide on the outer wall of the material passing plate; and a support frame is arranged on one side of the arc-shaped plate, one side of the support frame is fixedly connected with the outer expanding ring, the shifting lever is shifted upwards, and the outer expanding ring can be unfolded to expand the outer expanding ring spring.

Further, the length of the support frame is larger than the diameter of the material through hole.

The invention has the advantages that when the storage barrel is required to be used, corresponding raw materials can be added into the storage barrel from the feeding hole, then the material passing plate is opened, the raw materials can sequentially pass through the material passing plate and then flow into the space between the discharging part and the quantifying part to play a discharging effect,

and when stirring ration portion upwards, ration portion can support on the outer wall that leads to the flitch for ration portion can be with the hole parcel that leads to the material, and the raw materials of this moment can all flow in the ration portion, behind stirring ration portion downwards, the raw materials in its ration portion can all flow out, realizes the effect that the ration was got the material.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a perspective view of a preferred embodiment of a storage device for producing a film master batch according to the present invention;

FIG. 2 is a perspective partial cross-sectional view of a preferred embodiment of a storage device for producing a film master batch according to the present invention;

FIG. 3 is a front sectional view of a preferred embodiment of the dosing section of the present invention;

FIG. 4 is a front sectional view of a preferred embodiment of the first state of the dosing section of the present invention;

FIG. 5 is a front sectional view of a preferred embodiment of the second state of the quantitative section of the present invention.

In the figure:

a material storage barrel 1 and a feeding hole 11;

a discharge hopper 2;

the discharging part 3, the retention cylinder 31, the retention opening 311, the discharging cylinder 32, the cutting plate 33, the torsion spring 331, and the organ plate 332;

the quantitative part 4, the sealing cylinder 41, the pressing arc plate 411, the pressure spring 412, the quantitative cylinder 42, the pressing ring 421, the expansion ring groove 422, the expansion spring 423, the vertical groove 424, the outward expansion ring 425, the outward expansion ring spring 43, the arc plate 431, the support frame 432 and the deflector rod 44;

a material passing plate 5 and a material passing hole 51.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Referring to fig. 1-5, a storage device for producing a film master batch includes: storage cylinder 1, feed inlet 11, go out hopper 2, ejection of compact portion 3, ration portion 4, wherein, the inside bottom of going out hopper 2 is provided with logical flitch 5, therefore, storage cylinder 1 can add corresponding raw materials into storage cylinder 1 from feed inlet 11 when needs use, then open logical flitch 5, the raw materials can pass logical flitch 5 in proper order, flow into between ejection of compact portion 3 and the ration portion 4 immediately, play the effect of the ejection of compact, and when stirring up ration portion 4, ration portion 4 can support on the outer wall of logical flitch 5, make ration portion 4 can wrap up through material hole 51, raw materials at this moment can all flow into in the ration portion 4, behind stirring down the ration portion 4, the raw materials in its ration portion 4 can all flow out, realize the effect that the ration was got the material, to above-mentioned each part, the following carries out detailed description one by one.

Storage cylinder 1

Storage cylinder 1 itself is large-scale cylinder design, and inside is hollow, when needs deposit the raw materials, can directly open feed inlet 11, deposits the raw materials to storage cylinder 1 in, can play dampproofing, waterproof effect, makes it longer in the time of keeping.

Discharge hopper 2

The discharging hopper 2 is arranged in the storage barrel 1, the discharging hopper 2 and the storage barrel 1 are communicated in the same way, and the discharging hopper 2 is designed in a reversed hopper shape, so that the discharging process can be smoother;

through the internally mounted material passing plate 5 at hopper 2, because the equidistant annular of inside of material passing plate 5 has seted up through material hole 51, and then when the needs ejection of compact, can open through material hole 51 in material passing plate 5, and at the in-process of not ejection of compact, can block up through material hole 51, and then play the effect of control, and, the cross section of through material hole 51 is the design of radius frustum shape, therefore, the raw materials is at the in-process of circulation, be from the big head inflow tip of through material hole 51, its pressure is constantly increasing, make the speed of outflow faster.

Discharge part 3

The discharging part 3 is arranged below the discharging hopper 2, the discharging part 3 is communicated with the discharging hopper 2, so that when the raw material needs to be discharged, the raw material can flow out from the discharging part 3 and the quantifying part 4, and the discharging part 3 is designed to be thin in the upper part and wide in the lower part, so that the anti-blocking effect can be further achieved;

the structure of the discharging part 3 will be described in detail below, and the discharging part 3 includes: the discharging barrel 32 is arranged at the bottom end of the discharging hopper 2, the detention barrel 31 is arranged at the bottom end of the discharging barrel 32, and the detention barrel 31 is communicated with the discharging barrel 32; a detention opening 311 is formed in the middle of the bottom end of the outer wall of the detention cylinder 31; the material passing plate 5 is internally and annularly provided with a plurality of material passing holes 51, the material passing holes 51 are arranged between the discharge barrel 32 and the quantitative part 4, the discharge barrel 32 is communicated with the bottom end of the discharge hopper 2, the detention barrel 31 is communicated with the bottom end of the discharge barrel 32, and the discharge barrel 32 is thinner than the detention barrel 31, so that the raw material can flow out of the detention opening 311 after reaching the detention barrel 31 through the discharge barrel 32, and the anti-blocking effect is achieved to a certain extent;

wherein, ejection of compact portion 3 still includes the annular cutting board 33 that sets up on ejection of compact section of thick bamboo 32 inner wall, sets up the torsional spring 331 between the outer wall of cutting board 33 and ejection of compact section of thick bamboo 32 inner wall, because cutting board 33 itself is installed on ejection of compact section of thick bamboo 32 inner wall, and cutting board 33 can stretch into quantitative portion 4, consequently, at the in-process of ejection of compact, cutting board 33 can play the effect of cutting the raw materials, has prevented that the phenomenon of caking from appearing in the raw materials.

Quantitative section 4

The quantitative part 4 is arranged inside the discharge barrel 32 and used for quantitatively taking materials, and the quantitative part 4 can slide upwards inside the discharge barrel 32 by shifting the quantitative part 4 so as to be abutted against the outer wall of the material passing plate 5, so that raw materials can directly flow into the quantitative part 4 in the discharging process, and the quantitative material taking effect can be achieved;

the structure of the quantitative section 4 will be described in detail below, and the quantitative section 4 includes: the quantitative cylinder 42 is arranged in the discharge cylinder 32, the outward expanding ring 425 is arranged at the top end of the quantitative cylinder 42, the deflector rod 44 is arranged on the outer wall of the quantitative cylinder 42, the deflector rod 44 can extend to the outside of the discharge cylinder 32 by installing the deflector rod 44 on the outer wall of the quantitative cylinder 42, then the deflector rod 44 can drive the quantitative cylinder 42 to slide up and down by stirring the deflector rod 44 by hand, when the quantitative cylinder 42 slides up, the quantitative cylinder 42 can also slide up along with the upward sliding at the moment, in the sliding process, the outward expanding ring 425 can abut against the outer wall of the feed through plate 5, the outward expanding ring 425 can realize the outward expanding effect, and after the outward expanding to wrap the feed through hole 51, the material under the feed through hole 51 can directly flow into the quantitative cylinder 42 and cannot flow out from the space between the quantitative cylinder 42 and the discharge cylinder 32;

the bottom end of the outer wall of the quantifying cylinder 42 is sleeved with a sealing cylinder 41, and the sealing cylinder 41 is communicated with the quantifying cylinder 42; the outer diameter of the sealing cylinder 41 is larger than the inner diameter of the retention opening 311, when the raw material in the metering cylinder 42 is fully stored, the shift lever 44 is directly shifted downwards, so that the metering cylinder 42 can slide downwards, when the sealing cylinder 41 slides to be attached to the inner wall of the retention cylinder 31, the outer expanding ring 425 is restored to the original state, but the raw material cannot flow out of the discharge cylinder 32 and the metering cylinder 42, because the sealing cylinder 41 can play a role in sealing;

wherein, the middle part of the inner wall of the quantitative cylinder 42 is annularly provided with a vertical groove 424; the vertical groove 424 is internally provided with the accordion plate 332, the cutting plate 33 is suitable for penetrating through the accordion plate 332, and by the design, when the cutting plate 33 swings back and forth in the vertical groove 424, the accordion plate 332 can be compressed or stretched up and down along with the cutting plate, and the design can effectively prevent the raw materials in the quantitative cylinder 42 from flowing out;

it should be noted that: the quantitative part 4 also comprises a retaining ring 421 arranged at the bottom end of the quantitative cylinder 42; a pressing arc plate 411 is arranged inside the sealing barrel 41, and a pressure spring 412 is annularly arranged between the bottom end face of the pressing arc plate 411 and the inner wall of the sealing barrel 41; the bottom end of the outer wall of the quantifying cylinder 42 is annularly provided with a telescopic ring groove 422, a telescopic spring 423 is arranged inside the telescopic ring groove 422, the sealing cylinder 41 can extend into the telescopic ring groove 422 to be fixedly connected with the telescopic spring 423, in the process of continuously pressing down the shifting lever 44, the sealing cylinder 41 can slide on the outer wall of the quantifying cylinder 42, namely slide inside the telescopic ring groove 422, the abutting ring 421 can abut against the abutting arc plate 411 at the moment, the abutting arc plate 411 is abutted to form a channel, the effect of flowing out raw materials in the quantifying cylinder 42 is realized, quantitative material taking is realized in such a way, the discharge port does not need to be closed after material taking and releasing is finished, and the shifting lever 44 is only required to be pressed all the time;

an outward expanding ring spring 43 is annularly arranged at the bottom end of the outer wall of the material passing plate 5, a plurality of arc-shaped plates 431 are annularly arranged on the outer wall of the inner ring of the outward expanding ring spring 43, and the plurality of arc-shaped plates 431 radially slide on the outer wall of the material passing plate 5; one side of arc 431 is provided with support frame 432, and one side of support frame 432 and outer ring 425 fixed connection, because outer ring 425 that expands above dosing cylinder 42 needs to expand outward and take place deformation at the in-process of ration material getting, and then, outer ring 425 is made for elastic material, and after outer ring 425 live time overlength, outer ring 425 that elastic material made can take place the strain to a certain extent, in order to prevent that outer ring 425 can't resume the original state after taking place deformation, can install outer ring spring 43 in outer lane of outer ring 425, and then, outer ring 425 is when taking place deformation, arc 431 can support outer ring spring 43, make outer ring spring 43 open, and when needs resume the original state, outer ring spring's 425 resilience can guarantee that outer ring 425 resumes the original state.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a storage device is used in production of film master batch which characterized in that includes: the device comprises a storage barrel (1), a feed inlet (11) arranged at the top end of the outer wall of the storage barrel (1) in a mirror image manner, a discharge hopper (2) arranged at the bottom end of the storage barrel (1), a discharge part (3) arranged at the bottom end of the discharge hopper (2), and a quantitative part (4) arranged in the discharge part (3);

a material passing plate (5) is arranged at the bottom end inside the discharge hopper (2); wherein

Pulling the quantitative part (4) upwards, wherein the quantitative part (4) can be abutted against the bottom end of the outer wall of the material passing plate (5) so that the raw material can flow into the quantitative part (4);

the quantitative part (4) is stirred downwards, and the quantitative part (4) can be abutted against the bottom end in the discharging part (3) so that the raw materials can flow out from the quantitative part (4);

the discharging part (3) comprises a discharging barrel (32) arranged at the bottom end of the discharging hopper (2), and a detention barrel (31) arranged at the bottom end of the discharging barrel (32), and the detention barrel (31) is communicated with the discharging barrel (32);

a detention opening (311) is formed in the middle of the bottom end of the outer wall of the detention barrel (31);

a plurality of material passing holes (51) are annularly formed in the material passing plate (5), and the material passing holes (51) are formed between the discharge barrel (32) and the quantitative part (4); wherein

After the raw material passes through a plurality of the through holes (51), the raw material can flow out of the retention port (311);

the discharging part (3) further comprises a cutting plate (33) annularly arranged on the inner wall of the discharging barrel (32), and a torsion spring (331) arranged between the outer wall of the cutting plate (33) and the inner wall of the discharging barrel (32); wherein

Downwards stirring the quantitative part (4), wherein the quantitative part (4) can abut against the cutting plate (33) so as to radially expand the cutting plate (33) to cut raw materials;

the quantitative part (4) comprises a quantitative cylinder (42) arranged in the discharging cylinder (32), an external expanding ring (425) arranged at the top end of the quantitative cylinder (42), and a deflector rod (44) arranged on the outer wall of the quantitative cylinder (42), wherein the deflector rod (44) can extend to the outside of the discharging cylinder (32); wherein

The shifting rod (44) is pulled upwards, and the outer expanding ring (425) can abut against the bottom end of the outer wall of the material passing plate (5), so that the outer expanding ring (425) can wrap the material passing holes (51);

a sealing barrel (41) is sleeved at the bottom end of the outer wall of the quantifying barrel (42), and the sealing barrel (41) is communicated with the quantifying barrel (42);

the outer diameter of the sealing cylinder (41) is larger than the inner diameter of the retention opening (311); wherein

The deflector rod (44) is turned down, and the sealing cylinder (41) can abut against the bottom end inside the detention cylinder (31);

a vertical groove (424) is annularly formed in the middle of the inner wall of the quantifying cylinder (42);

-the interior of the vertical slot (424) is provided with a wind board (332), and the cutting board (33) is adapted to pass through the wind board (332); wherein

After the raw material flows into the quantitative cylinder (42), the wind instrument plate (332) can prevent the raw material from flowing out;

the quantitative part (4) also comprises a retaining ring (421) arranged at the bottom end of the quantitative cylinder (42);

a pressing arc plate (411) is arranged inside the sealing barrel (41), and a pressure spring (412) is annularly arranged between the bottom end surface of the pressing arc plate (411) and the inner wall of the sealing barrel (41);

a telescopic ring groove (422) is annularly formed in the bottom end of the outer wall of the quantitative cylinder (42), a telescopic spring (423) is arranged inside the telescopic ring groove (422), and the sealing cylinder (41) can extend into the telescopic ring groove (422) and is fixedly connected with the telescopic spring (423); wherein

And the shifting rod (44) is continuously shifted downwards, and the pressing arc plate (411) can be unfolded to enable the raw materials to flow out of the retention opening (311).

2. The storage device for producing film masterbatch as claimed in claim 1,

an outward-expanding ring spring (43) is annularly arranged at the bottom end of the outer wall of the material passing plate (5), a plurality of arc-shaped plates (431) are annularly arranged on the outer wall of the inner ring of the outward-expanding ring spring (43), and the arc-shaped plates (431) radially slide on the outer wall of the material passing plate (5);

one side of the arc-shaped plate (431) is provided with a support frame (432), and one side of the support frame (432) is fixedly connected with the outer expanding ring (425), wherein

When the shifting rod (44) is shifted upwards, the expanding ring (425) can be unfolded to expand the expanding ring spring (43).

3. The storage device for producing a film master batch as claimed in claim 2,

the length of the support frame (432) is larger than the diameter of the material through hole (51).