CN219135629U - Material arranging equipment for semiconductive buffer water blocking tape - Google Patents

Abstract

The utility model provides a material arranging device of a semiconductive buffer water blocking belt, which is characterized in that feeding and conveying of sampling materials are realized through a feeding frame, the angle of the feeding frame is regulated through the driving of a second motor, the materials with larger sizes are prevented from tipping in the conveying process, the layered screening of the materials is realized through a first screen and a second screen, the screened materials are respectively pushed and discharged in a material distributing cavity through a first feeding roller and a second feeding roller, and further, the screening of lump materials with different sizes is realized and the blocking of screened materials in the conveying process is prevented.

Description

Material arranging equipment for semiconductive buffer water blocking tape

Technical Field

The utility model relates to the technical field of processing equipment of semiconductive buffer water-blocking strips, in particular to material arranging equipment of semiconductive buffer water-blocking strips.

Background

The semiconductive buffer water blocking tape is widely applied in the prior industry, and in the production and preparation process, different materials are required to be screened and conveyed so as to meet the processing requirement of products, and the prior art generally adopts screening to comb and screen the size of the materials, but the semiconductive buffer water blocking tape cannot effectively screen the materials with different sizes, and can generate serious accumulation or backlog of the materials on screening, so that the processing efficiency of material arrangement is affected.

Disclosure of Invention

In view of this, the technical problems to be solved by the present utility model are: how to provide a kind of semiconductive buffer water blocking strip's reason material equipment in order to realize sieving the lump materials of different size sizes and prevent to sieving the material in the transportation process to block up.

In order to achieve the above purpose, the utility model provides a material arranging device of a semiconductive buffer water blocking belt, which comprises a screening frame, a feeding frame and a material distributing cavity;

the screening frame is provided with a first screen and a second screen, the first screen is arranged above the second screen, the screen area of the first screen is larger than that of the second screen, the first screen and the second screen are respectively connected to the side wall of the screening frame along the oblique direction, and the first screen and the second screen are arranged at intervals;

one end of the feeding frame is rotationally connected with a feeding opening of the screening frame through a pin shaft, a first rotating shaft and a second rotating shaft are respectively arranged at the upper part and the middle part of the feeding frame, a first motor for driving the first rotating shaft to rotate is arranged on the screening frame, a conveying belt is connected between the first rotating shaft and a transmission cylinder arranged at the lower part of the feeding frame, a material supporting plate is arranged on the surface of the conveying belt, a second motor is arranged at the bottom of the screening frame, the output end of the second motor is connected with a gear, the gear is in meshed connection with a rack, the end part of the rack is connected with the second rotating shaft, and the gear is driven by the second motor to rotate so as to drive the rack to pull the feeding frame to rotate around the pin shaft;

the material distribution cavity is connected to the lower part of the screening frame, a first feeding roller and a second feeding roller are respectively arranged in the material distribution cavity, the first feeding roller and the second feeding roller are respectively connected to the inner wall of the material distribution cavity in a rotating mode, a first feeding channel and a second feeding channel are formed in the material distribution cavity, and the first feeding roller and the second feeding roller are respectively arranged in the first feeding channel and the second feeding channel, and a discharging port which is communicated is formed in the end portion of the first feeding channel and the end portion of the second feeding channel.

Further, a separation plate is formed in the material distribution cavity, and the separation plate divides the material distribution cavity into the first feeding channel and the second feeding channel.

Further, the second screen is arranged above the first feeding channel, the second screen is arranged above the second screen, and an included angle between the first screen and the second screen is an acute angle.

Further, a buffer discharge hole is provided in the partition plate on a side facing the first feed path so that a part of the material accommodated in the first feed path is discharged outward through the buffer discharge hole.

Further, the first feeding roller and the second feeding roller are driven to rotate by a driving component respectively, and the rotating speed of the first feeding roller is larger than that of the second feeding roller.

Further, one end of the second screen mesh is overlapped with the top of the partition plate, and the second screen mesh is obliquely arranged towards the second feeding channel.

Further, a plurality of ribs are arranged on the first screen mesh and the second screen mesh in a crossing manner, and the ribs are mutually staggered to form screen holes.

Further, the first feeding roller and the second feeding roller are respectively connected with the material distributing cavity through a rotating bracket.

Compared with the related art, the material arranging equipment for the semiconductive buffer water blocking tape has the beneficial effects that: realize the material loading transport to the sample material through the material loading frame, realize the angular adjustment to the material loading frame by the drive of second motor, prevent that the great material of size from tipping in the transportation, realize the layering screening to the material by first screen cloth and second screen cloth, the material after the screening carries out propelling movement row material at the feed distributing intracavity by first feed roll and second feed roll respectively, and then realize sieving the lump material of equidimension not and prevent to screening the jam of material in the transportation.

Drawings

FIG. 1 is a schematic diagram of a material arranging apparatus for a semiconductive buffer water-blocking tape according to an embodiment of the present utility model;

fig. 2 is a schematic view of another angle of a material arranging apparatus for a semiconductive buffer water blocking tape according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1-2, the present utility model provides a sorting device for a semiconductive buffer water-blocking tape, which comprises a sieving frame 11, a feeding frame 21, and a distributing cavity 31.

The screening frame 11 sets up first screen cloth 12 and second screen cloth 13, and first screen cloth 12 sets up in the top of second screen cloth 13, and the sieve mesh area of first screen cloth 12 is greater than the sieve mesh area of second screen cloth 13, and first screen cloth 12 and second screen cloth 13 are connected on the lateral wall of screening frame 11 along the slant respectively, and first screen cloth 12 and second screen cloth 13 alternate arrangement. The first screen 12 and the second screen 13 are respectively provided with a plurality of ribs which are arranged in a crossing way, and the ribs which are mutually staggered are surrounded to form a screen hole.

The second screen 13 is arranged above the first feeding channel 321, the first screen 12 is arranged above the second screen 13, and an included angle between the first screen 12 and the second screen 13 is an acute angle. One end of the second screen 13 is overlapped on the top of the partition plate 33, and the second screen 13 is obliquely arranged toward the second feeding path 322.

Part of the materials are conveyed and discharged along the outside of the obliquely arranged first screen 12 device after being screened out by the first screen 12, part of the materials fall on the second screen 13 after being screened out by the first screen 12, part of the materials fall into the first feeding channel 321 after being screened out by the second screen 13, and the materials which are not screened out by the second screen 13 are conveyed to the second feeding channel 322 under the conveying of the obliquely arranged second screen 13.

One end of the feeding frame 21 is rotatably connected with a feeding port of the screening frame 11 through a pin shaft 22, a first rotating shaft 23 and a second rotating shaft 24 are respectively arranged at the upper part and the middle part of the feeding frame 21, a first motor 25 for driving the first rotating shaft 23 to rotate is arranged on the screening frame 11, a conveying belt 271 is connected between the first rotating shaft 23 and a transmission drum arranged at the lower part of the feeding frame 21, a material supporting plate 272 is arranged on the surface of the conveying belt 271, and materials are supported and conveyed on the conveying belt 271 through driving operation of the first motor 25 by the material supporting plate 272, so that the materials are conveyed to the upper part of the screening frame 11 for screening.

The bottom of screening frame 11 sets up and is used for second motor 26, and the output of second motor 26 connects gear 281, and gear 281 is connected with rack 282 meshing, and the tip of rack 282 links to each other with second pivot 24, is driven the rotation of gear 281 by second motor 26 in order to drive rack 282 and pulls material loading frame 21 and rotate around round pin 22. Wherein, rack 282 accessible supporting part carries out the direction and the bearing effect of rack 282 that hold in order to satisfy for rack 282 keeps stable meshing with gear 281 in order to realize that the transmission power of second motor 26 acts on the material loading frame 21, drives material loading frame 21 and rotates, in order to satisfy the transmission demand on different materials and the different stations.

The material distributing cavity 31 is connected to the lower part of the sieving frame 11, a first feeding roller 311 and a second feeding roller 312 are respectively arranged in the material distributing cavity 31, and the first feeding roller 311 and the second feeding roller 312 are respectively connected with the material distributing cavity 31 through rotating brackets. The first feeding roller 311 and the second feeding roller 312 are driven to rotate by the driving member, respectively, and the rotational speed of the first feeding roller 311 is greater than the rotational speed of the second feeding roller 312.

Specifically, for the material to be conveyed into the second feeding path 322 to be larger than the material to be conveyed into the first feeding path 321, the rotation speed of the first feeding roller 311 is set to be larger than that of the second feeding roller 312, so that the first feeding roller 311 operates at a relatively high rotation speed to realize rapid conveying of the small-size material, and the second feeding roller 312 operates at a relatively low rotation speed to prevent the rotation speed from being too large, so that the conveyed large-size material causes crush injury or extrusion injury to the outer wall of the second feeding roller 312.

A partition plate 33 is formed in the material distribution chamber 31, and the partition plate 33 divides the material distribution chamber 31 into a first feeding channel 321 and a second feeding channel 322. The first feeding roller 311 and the second feeding roller 312 are respectively arranged in the first feeding channel 321 and the second feeding channel 322, and a discharging port communicated with each other is arranged at the end parts of the first feeding channel 321 and the second feeding channel 322.

A buffer discharge hole 34 is provided on the partition plate 33 on a side facing the first feeding path 321, and an opening of the buffer discharge hole 34 faces the first screen 12 so that a part of the material accommodated in the first feeding path 321 is discharged outward through the buffer discharge hole 34. Specifically, the second screen 13 is arranged in an inclined manner, the material with a size larger than the mesh size of the second screen 13 slides into the second feeding channel 322 from sliding, during the sliding process, part of impurities or crushed aggregates can fall off the surface of the material due to sliding movement or extrusion between adjacent materials, the material falling off the part is discharged through the buffer discharging holes 34 arranged on the partition plate 33, and congestion and blockage caused by excessive impurities or crushed aggregates accumulated in the first feeding channel 321 to the first feeding channel 321 are prevented. Furthermore, the buffer discharging hole 34 can also realize the control discharge of the material conveyed by the first feeding channel 321, so as to prevent the first feeding roller 311 from being stagnated due to excessive material.

Realize the material loading transport to the sample material through material loading frame 21, realize the angular adjustment to material loading frame 21 by the drive of second motor 26, prevent that the great material of size from tipping in the transportation process, realize the layering screening to the material by first screen cloth 12 and second screen cloth 13, the material after the screening carries out propelling movement row material in feed cavity 31 by first feed roll 311 and second feed roll 312 respectively, and then realize sieving the lump material of equidimension not and prevent to screening the jam of material in the transportation process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. The material arranging equipment for the semiconductive buffer water blocking tape is characterized by comprising a screening frame, a feeding frame and a material distributing cavity;

the screening frame is provided with a first screen and a second screen, the first screen is arranged above the second screen, the screen area of the first screen is larger than that of the second screen, the first screen and the second screen are respectively connected to the side wall of the screening frame along the oblique direction, and the first screen and the second screen are arranged at intervals;

one end of the feeding frame is rotationally connected with a feeding opening of the screening frame through a pin shaft, a first rotating shaft and a second rotating shaft are respectively arranged at the upper part and the middle part of the feeding frame, a first motor for driving the first rotating shaft to rotate is arranged on the screening frame, a conveying belt is connected between the first rotating shaft and a transmission cylinder arranged at the lower part of the feeding frame, a material supporting plate is arranged on the surface of the conveying belt, a second motor is arranged at the bottom of the screening frame, the output end of the second motor is connected with a gear, the gear is in meshed connection with a rack, the end part of the rack is connected with the second rotating shaft, and the gear is driven by the second motor to rotate so as to drive the rack to pull the feeding frame to rotate around the pin shaft;

the material distribution cavity is connected to the lower part of the screening frame, a first feeding roller and a second feeding roller are respectively arranged in the material distribution cavity, the first feeding roller and the second feeding roller are respectively connected to the inner wall of the material distribution cavity in a rotating mode, a first feeding channel and a second feeding channel are formed in the material distribution cavity, and the first feeding roller and the second feeding roller are respectively arranged in the first feeding channel and the second feeding channel, and a discharging port which is communicated is formed in the end portion of the first feeding channel and the end portion of the second feeding channel.

2. The apparatus for organizing a semiconducting buffer water-blocking tape of claim 1, wherein a divider is formed within the distribution chamber, the divider dividing the distribution chamber into the first feed channel and the second feed channel.

3. The apparatus for organizing a semiconducting buffer water blocking tape of claim 1 wherein the second screen is mounted above the first feed channel, the first screen is positioned above the second screen, and an included angle between the first screen and the second screen is an acute angle.

4. A device for arranging a semiconducting buffer water-blocking tape according to claim 2, wherein a buffer discharge hole is provided in the partition plate on the side facing the first feed channel so that part of the material contained in the first feed channel is discharged outwards through the buffer discharge hole.

5. The apparatus for organizing a semiconductive buffer water blocking tape according to claim 1, wherein the first feed roller and the second feed roller are driven to rotate by driving means, respectively, and the rotational speed of the first feed roller is greater than the rotational speed of the second feed roller.

6. The apparatus for trimming a semiconductive buffer stop according to claim 2, wherein one end of the second screen is overlapped on the top of the partition plate, and the second screen is disposed obliquely toward the second feeding path.

7. The material arranging device for the semiconductive buffer water blocking tape according to claim 1, wherein a plurality of cross-laid ribs are respectively arranged on the first screen mesh and the second screen mesh, and mesh holes are formed by surrounding the ribs which are mutually staggered.

8. The apparatus for organizing a semiconductive buffer water blocking tape according to claim 1, wherein the first feed roller and the second feed roller are connected to the distribution chamber by a rotating bracket, respectively.

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