CN215853629U - Vibration disk - Google Patents

Abstract

The utility model relates to a vibrating disc which comprises a disc body, wherein spiral climbing rings are circumferentially arranged on the inner wall of the disc body, a plurality of charging chutes are formed along the climbing rings, and the difference between the diameter of the inner arc edge of each charging chute and the outer diameter of each climbing ring at the position where the charging chute is formed is larger than the width of a material and smaller than the length of the material; the material receiving part is connected and communicated with the outlet of the disc body; and the first linear vibrator is positioned below the material receiving part. According to the vibrating disc, the spiral material climbing effect can be well realized through the arrangement of the disc body and the matched climbing ring, and a good condition is provided for subsequent powder screening; through the arrangement of the charging chute and the requirements that the diameter of the charging chute and the outer diameter of the climbing ring are different from each other, the whole body can be adapted to materials with different required sizes and lengths, and the device is wide in adaptability and high in applicability; through connecing the first linear vibrator of material portion cooperation, can be fine carry feed opening department with the material, the unloading is swift, and the unloading is effectual.

Description

Vibration disk

Technical Field

The utility model relates to a material conveying mechanism, in particular to a vibrating disc.

Background

As shown in fig. 1, the material is a rectangular parallelepiped material, and it is necessary to adjust the material from a vertical position to a horizontal position during the transportation of the material. In the adjusting process, it becomes more important to adjust the materials in the wrong placing state to the correct placing position.

Generally, materials in a wrong state are screened by a visual detection sensor and other devices, and the screening effect is general, and a certain error and delay exist in the judgment process, so that some materials in a wrong placement state often exist.

In conclusion, can provide the vibration dish of being convenient for sieve material and adjustment position.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vibration disc which is convenient for material screening and position adjustment, so as to solve the problems.

In order to achieve the above object, an embodiment of the present invention provides a vibration plate, including,

the tray comprises a tray body, wherein a spiral climbing ring is arranged on the inner wall of the tray body in the circumferential direction, a plurality of charging chutes are formed along the climbing ring, and the difference between the diameter of the inner arc edge of each charging chute and the outer diameter of the climbing ring at the position where the charging chute is formed is larger than the width of a material and smaller than the length of the material;

the material receiving part is connected and communicated with the outlet of the disc body;

and the first linear vibrator is positioned below the material receiving part.

Preferably, the disc body is provided with a plurality of detection parts, the detection parts comprise a bracket body and detection needles fixed on the bracket body, an

The end of the detection needle points to the climbing ring.

Preferably, the climbing rings at two sides of the detection needle are respectively provided with an air hole, an

The air holes face the climbing ring.

Preferably, the side of the tray body has an opening and closing part, an

The opening and closing part comprises a positioning block and a sliding plate which is inserted on the positioning block in a sliding way, one side of the plate body is provided with a blanking port, wherein

The sliding plate is in threaded connection with the positioning block.

Preferably, the material receiving part comprises a material receiving rod, a material receiving guide rail fixedly arranged on the material receiving rod, and a rejection groove positioned on one side of the material receiving guide rail, the first linear vibrator is fixed below the material receiving rod, the side edge of the rejection groove is open, and the rejection groove is adjacent to the material returning part;

the material returning part is positioned on one side of the material receiving part and is suitable for receiving the materials rejected by the material receiving part; the second linear vibrator is positioned below the material returning part; wherein

The materials conveyed by the first linear vibrator are suitable for advancing along the receiving guide rail and rejecting the staggered materials into the rejecting groove.

Preferably, the groove bottom of the rejecting groove is inclined to the returning part, and

an oblique guiding edge is arranged at the end of the removing groove, and the end of the oblique guiding edge points to the material returning part, wherein

The rejected materials pushed by the second linear vibrator are suitable for falling into the material returning part along the inclined guide edge.

Preferably, the material receiving part further comprises a blowing part fixed on one side of the material receiving guide rail, and

the blowing part comprises a fixed block and a blowing nozzle fixed on the fixed block, the blowing nozzle is perpendicular to the guide surface of the material receiving guide rail, the spraying direction of the blowing nozzle is positioned on the outer side of the guide surface of the material receiving guide rail, and the blowing nozzle is fixed on the fixed block

And the staggered materials are removed to the removing groove through the air blowing nozzle.

Preferably, the material receiving part further comprises an upper shielding rod, and the upper shielding rod is fixedly connected with the material receiving rod;

the receiving rod is also provided with a removing bin, and the removing bin is positioned in front of the removing groove

Preferably, the material returning part comprises a material returning plate and a blocking plate positioned at one edge of the material returning plate, and

the end part of the blocking plate is provided with a material returning hole, the material returning plate is attached to the rejecting groove, and the second linear vibrator is located below the material returning plate.

Compared with the prior art, the embodiment of the utility model has the following beneficial effects:

according to the vibrating disc, the spiral material climbing effect can be well realized through the arrangement of the disc body and the matched climbing ring, and a good condition is provided for subsequent powder screening;

through the arrangement of the charging chute and the requirements that the diameter of the charging chute and the outer diameter of the climbing ring are different from each other, the whole body can be adapted to materials with different required sizes and lengths, and the device is wide in adaptability and high in applicability;

through connecing the first linear vibrator of material portion cooperation, can be fine carry feed opening department with the material, the unloading is swift, and the unloading is effectual.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 shows a schematic diagram of the structure of the material of the present invention from the wrong form to the correct form;

FIG. 2 shows a schematic of the construction of a vibratory pan of the utility model;

FIG. 3 shows an enlarged view at C of FIG. 2;

FIG. 4 shows an enlarged view at D of FIG. 2;

FIG. 5 shows a schematic structural diagram of a material receiving part, a first linear vibrator, a material returning part and a second linear vibrator of the utility model;

FIG. 6 shows an enlarged view at A of FIG. 5;

fig. 7 shows an enlarged view at B of fig. 5;

in the figure: 100. the material receiving part comprises a material receiving part 110, a material receiving rod 111, a material receiving guide rail 120, a removing groove 121, an inclined guide edge 130, a blowing part 131, a fixed block 132, a blowing nozzle 140, an upper blocking rod 150, a removing bin 200, a first linear vibrator 300, a material returning part 310, a material returning plate 311, a material returning hole 320, a blocking plate 400, a second linear vibrator 500, a disc body 510, a climbing ring 520, a blanking groove 530, a detection part 531, a support body 532, a detection needle 540, an air hole 550, an opening and closing part 551, a positioning block 552 and a sliding plate.

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.

As shown in fig. 1, for a material to be conveyed and positionally corrected, i.e., along the material conveying path, the material that is in its landscape position needs to be adjusted to the material that is in its portrait position.

As shown in fig. 2 to 7, a vibration plate includes a plate body 500, a spiral climbing ring 510 is circumferentially arranged on an inner wall of the plate body 500, a plurality of charging chutes 520 are formed along the climbing ring 510, and a difference between a diameter of an inner arc edge of each charging chute 520 and an outer diameter of the climbing ring 510 at a position where the charging chute 520 is formed is larger than a width of a material and smaller than a length of the material; the material receiving part 100, the material receiving part 100 is connected and communicated with the outlet of the tray body 500; and the first linear vibrator 200, wherein the first linear vibrator 200 is positioned below the material receiving part 100.

According to the vibrating disc, the spiral climbing effect of materials can be well realized through the arrangement of the disc body 500 and the matched climbing ring 510, and a good condition is provided for subsequent screening of powder; through the arrangement of the charging chute 520 and the requirements that the diameter of the charging chute 520 and the outer diameter of the climbing ring 510 are different from each other, the whole body can be adapted to materials with different required sizes and lengths, and the device is wide in adaptability and high in applicability; through the cooperation of material receiving portion 100 and first linear vibrator 200, can be fine carry the material to feed opening department, the unloading is swift, and the unloading is effectual.

Wherein, for the state of real-time detection whole material, adopted following technical scheme:

the disc body 500 is provided with a plurality of detecting parts 530, each detecting part 530 comprises a bracket body 531 and a detecting needle 532 fixed on the bracket body 531, and the end of the detecting needle 532 points to the climbing ring 510.

Wherein, through the setting of detection needle 532, all can detect the material before passing through charging conduit 520 and after charging conduit 520 after sieving the material at every turn to the state of real-time monitoring material and charging conduit 520's screening effect.

The climbing ring 510 at two sides of the detection needle 532 is respectively provided with a vent 540, and the vent 540 faces the climbing ring 510.

The air holes 540 continuously blow lightly, so that some staggered materials on two sides of the detection needle 532 can be sprayed into the charging chute 520.

The side of the tray body 500 has an opening and closing part 550, and the opening and closing part 550 includes a positioning block 551, a sliding plate 552 slidably inserted into the positioning block 551, and a blanking port is opened at one side of the tray body 500, wherein the sliding plate 552 is screwed into the positioning block 551.

The opening and closing part 550 is provided for discharging, that is, when discharging is required, the bolt for connection is loosened, and at this time, the sliding plate 552 can slide along the positioning block 551 to open and close the blanking port.

The material receiving part 100 is suitable for receiving materials at a discharge port of the vibration disc, and the material receiving part 100 is suitable for receiving the materials; the first linear vibrator 200, the first linear vibrator 200 is located below the receiving part 100; the material returning part 300 is positioned on one side of the material receiving part 100, and the material returning part 300 is suitable for receiving materials rejected by the material receiving part 100; a second linear vibrator 400, the second linear vibrator 400 being positioned below the feedback part 300; when the material returning part 300 receives the material rejected by the material receiving part 100, the second linear vibrator 400 is adapted to return the material to the vibration plate.

The material receiving part 100 is matched with the first linear vibrator 200, so that the effects of receiving and conveying materials on the vibration disc are achieved, the material receiving is rapid, and the conveying is stable; through the cooperation of feed back portion 300 and second linear vibrator 400, realize receiving the rejection of the material of dislocation on the material receiving portion 100 and get the transport, make its return to the vibration dish in, the effect is direct, and the feed back route is short, and is efficient.

Receiving part 100

The material receiving part 100 mainly plays a role in receiving and taking materials on the vibration disc.

The receiving part 100 comprises a receiving rod 110, a receiving guide rail 111 fixedly arranged on the receiving rod 110, and a removing groove 120 positioned on one side of the receiving guide rail 111, wherein the first linear vibrator 200 is fixed below the receiving rod 110, the side edge of the removing groove 120 is open, and the removing groove 120 is adjacent to the returning part 300; wherein the materials conveyed by the first linear vibrator 200 are adapted to travel along the receiving guide rail 111 and reject the misaligned materials into the rejection slot 120.

Firstly, the materials conveyed by the vibration plate fall onto the material receiving guide rail 111 in the material receiving rod 110, and then move forward under the vibration conveying of the first linear vibrator 200, wherein some materials are in a vertical state and some materials are in a transverse state. During the process of continuing to travel, part of the materials can fall into the rejecting groove 120 laterally due to the action of gravity and fall into the material returning part 300 from the rejecting groove 120.

Specifically, in order to more conveniently drop the material into the removing groove 120, the following technical scheme is adopted:

the bottom of the rejecting groove 120 is inclined to the feeding back part 300, and an inclined guiding edge 121 is arranged at the end of the rejecting groove 120, the end of the inclined guiding edge 121 points to the feeding back part 300, wherein the rejected material pushed by the second linear vibrator 400 is suitable for falling into the feeding back part 300 along the inclined guiding edge 121.

Wherein, after the material falls into to reject in the groove 120, because the slope of tank bottom and the action of gravity of material, can drop into very smoothly and reject in the groove 120, and some material still can't drop because of the hindrance effect of other materials, consequently, can slide slowly into to reject in the groove 120 along oblique guide edge 121 under the conveying effect of second linear vibrator 400 to guarantee the discharge of the material of whole dislocation.

In order to further ensure that the misplaced materials can fall into the removing groove 120, the following technical scheme is adopted:

connect material portion 100 still includes one and fixes connect the portion 130 of blowing of material guide rail 111 one side, and the portion 130 of blowing includes fixed block 131 and fixes blowing nozzle 132 on the fixed block 131, blowing nozzle 132 perpendicular to connect the guide surface of material guide rail 111, blowing nozzle 132's injection direction is located connect the guide surface outside limit of material guide rail 111, wherein the material warp of dislocation blowing nozzle 132 reject extremely reject groove 120.

The blowing nozzle 132 is continuously in the state of blowing, and when blowing the material of dislocation, it can be continuously rejected to rejecting the groove 120 in under the effect of blowing nozzle 132, and some materials of dislocation also can directly fall into rejecting the groove 120, and in order to avoid blowing nozzle 132 to the interference of the material originally on receiving the material guide rail 111, blowing nozzle 132 continuously sprays to the guide rail face outside of receiving the material guide rail 111. To a certain extent, the material that is slightly misplaced on the receiving guide rail 111 can be guided to the right position.

Specifically, in order to prevent the interference of the external environment to the material, an upper shielding rod 140 is disposed on the material receiving guide rail 111, and the upper shielding rod 140 is fixedly connected with the material receiving rod 110 to shield the material receiving guide rail 111, thereby ensuring a good material transmission effect.

In order to enhance the discharging effect, a discharging bin 150 is arranged on the material receiving rod 110 in front of the discharging groove 120, and under the action of the discharging bin 150, partial staggered materials are discharged to a certain extent.

Feed back part 300

The material returning part 300 serves to take and return the material in the reject container 120 to the tray body 500. Specifically, the structure of the material returning part 300 is as follows: the material returning part 300 includes a material returning plate 310 and a blocking plate 320 at an edge of the material returning plate 310, an

The end of the blocking plate 320 has a material returning opening 311, the material returning plate 310 is attached to the rejecting slot 120, and the second linear vibrator 400 is located below the material returning plate 310.

The material in the removing groove 120 firstly falls into the material returning plate 310, and then is conveyed to the material returning port 311 at the end of the material returning plate 310 by the vibration conveying of the second linear vibrator 400 below the material returning plate 310, and then falls into the tray body 500 synchronously.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

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

Claims (9)

1. A vibrating disk, comprising,

the tray comprises a tray body, wherein a spiral climbing ring is arranged on the inner wall of the tray body in the circumferential direction, a plurality of charging chutes are formed along the climbing ring, and the difference between the diameter of the inner arc edge of each charging chute and the outer diameter of the climbing ring at the position where the charging chute is formed is larger than the width of a material and smaller than the length of the material;

the material receiving part is connected and communicated with the outlet of the disc body;

and the first linear vibrator is positioned below the material receiving part.

2. A vibrating disk as in claim 1,

the disc body is provided with a plurality of detection parts, the detection parts comprise a bracket body and detection needles fixed on the bracket body, and

the end of the detection needle points to the climbing ring.

3. A vibrating disk according to claim 2,

the climbing rings positioned at two sides of the detection needle are respectively provided with an air hole, an

The air holes face the climbing ring.

4. A vibrating disk according to claim 3,

the side part of the tray body is provided with an opening and closing part, an

The opening and closing part comprises a positioning block and a sliding plate which is inserted on the positioning block in a sliding way, one side of the plate body is provided with a blanking port, wherein

The sliding plate is in threaded connection with the positioning block.

5. A vibrating disk according to claim 4,

the material receiving part comprises a material receiving rod, a material receiving guide rail fixedly arranged on the material receiving rod, a removing groove positioned on one side of the material receiving guide rail, and a first linear vibrator fixed below the material receiving rod, wherein the side edge of the removing groove is open;

the material returning part is positioned on one side of the material receiving part and is suitable for receiving the materials rejected by the material receiving part; the second linear vibrator is positioned below the material returning part, and the rejecting groove is adjacent to the material returning part; wherein

The materials conveyed by the first linear vibrator are suitable for advancing along the receiving guide rail and rejecting the staggered materials into the rejecting groove.

6. A vibrating disk according to claim 5,

the tank bottom of the rejection tank inclines to the feed back part, and

an oblique guiding edge is arranged at the end of the removing groove, and the end of the oblique guiding edge points to the material returning part, wherein

The rejected materials pushed by the second linear vibrator are suitable for falling into the material returning part along the inclined guide edge.

7. A vibrating disk according to claim 6,

the material receiving part also comprises a blowing part fixed on one side of the material receiving guide rail, and

the blowing part comprises a fixed block and a blowing nozzle fixed on the fixed block, the blowing nozzle is perpendicular to the guide surface of the material receiving guide rail, the spraying direction of the blowing nozzle is positioned on the outer side of the guide surface of the material receiving guide rail, and the blowing nozzle is fixed on the fixed block

And the staggered materials are removed to the removing groove through the air blowing nozzle.

8. A vibrating disk according to claim 7,

the material receiving part also comprises an upper shielding rod which is fixedly connected with the material receiving rod;

the material receiving rod is also provided with a removing bin, and the removing bin is positioned in front of the removing groove.

9. A vibrating disk according to claim 8,

the feed back part comprises a feed back plate and a blocking plate positioned at one edge of the feed back plate, an

The end part of the blocking plate is provided with a material returning hole, the material returning plate is attached to the rejecting groove, and the second linear vibrator is located below the material returning plate.

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